Thailand Reducing Emissions from Motorcycles in Bangkok Report 275/03 October Thailand: Reducing Emissions from Motorcycles in Bangkok October 2003 United Nations Development Programme (UNDP)/World Bank Energy Sector Management Assistance Programme (ESMAP) Copyright © 2003 The International Bank for Reconstruction and Development/THE WORLD BANK 1818 H Street, N.W. Washington, D.C. 20433, U.S.A. All rights reserved Manufactured in the United States of America First printing October 2003 ESMAP Reports are published to communicate the results of ESMAP's work to the development community with the least possible delay. The typescript of the paper therefore has not been prepared in accordance with the procedures appropriate to formal documents. Some sources cited in this paper may be informal documents that are not readily available. 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ESMAP encourages dissemination of its work and will normally give permission promptly and, when the reproduction is for noncommercial purposes, without asking a fee. Table of Contents Acknowledgements.....................................................................................................................vii Abbreviations and Acronyms....................................................................................................viii Units and Measures .....................................................................................................................ix Currency Equivalents...................................................................................................................ix Executive Summary......................................................................................................................x 1. Air Quality in Bangkok and Transport Source................................................................... 1 2. Bangkok Motorcycle Clinics................................................................................................. 9 Findings from the Motorcycle Clinics ................................................................................11 Motorcycle Trade-Ins and Testing Results.......................................................................13 Pre-Reconditioning Fuel Consumption Test .....................................................15 Pre-Reconditioning Emissions Test ...................................................................17 Pre-Reconditioning Mass Emissions Test.........................................................18 Motorcycle Reconditioning...................................................................................19 Post-Reconditioning Fuel Consumption Test ..................................................22 Post-Reconditioning Emissions Test..................................................................22 Post-Reconditioning Mass Emissions Test.......................................................22 Observations and Lessons .................................................................................................22 3. The Bangkok Motorcycle Upgrade Project (MUP) ..........................................................25 Project Components ............................................................................................................26 Motorcycle Upgrade Demonstration...................................................................26 Improved Capacity for Pollution Management..................................................36 Incentives under the MUP...................................................................................................38 Incentives for the Inspection and Repair of Existing Motorcycles .................39 Incentives for the Trade-in of Existing Motorcycles .........................................39 Recycling Traded-In Motorcycles .......................................................................40 Costs and Benefits of the MUP ..........................................................................................42 4. Conclusion .............................................................................................................................45 Annex 1. The Bangkok Motorcycle Market ..........................................................................49 Introduction............................................................................................................................49 The New Motorcycle Market...............................................................................................49 The Second-Hand Motorcycle Market ..............................................................................55 Retirement and Scrap..........................................................................................................56 Characteristics of the In-Use Motorcycle Fleet................................................................56 Sources of Motorcycle Financing.......................................................................................61 Financing Companies...........................................................................................62 Dealer Financing ...................................................................................................63 Cash and Bank-Provided Financing...................................................................64 Retailing Structure................................................................................................................64 Large Fleets ..........................................................................................................................65 Details of In-Use Fleets in Bangkok and Thailand, 1999...............................................69 Annex 2. Cost-Benefit Analysis Summary (Currency unit US$ March 2001)..................72 Annex 3. Bangkok Motorcycle Fleet Upgrade Program......................................................77 Background ...........................................................................................................................77 The Trade-In Program .........................................................................................................77 The Fuel Consumption Pretest ..........................................................................................79 The Emission Pretest at Idle...............................................................................................82 The Mass Emissions Pretest..............................................................................................85 The Additional Upgrade Program ......................................................................................87 The Fuel Consumption Post-Test......................................................................................87 The Emissions Post-Test at Idle ........................................................................................88 The Mass Emissions Post-Test .........................................................................................89 Summary of the Study.........................................................................................................89 Boxes. Box 1: The Bangkok Motorcycle Market................................................................................... 4 Box 2: Socioeconomic Characteristics of Motorcycle Drivers and Motorcycle Usage...... 5 Box 3: New and In-Use Motorcycle Emission Standards (Thailand).................................28 Box 4: Motorcycle Financing ....................................................................................................38 Figures. Figure 1: The Schematic of the Clinics...................................................................................10 Figure 2: The Motorcycle Upgrade Process ..........................................................................30 Figure 3: Step 4-Test and Repair............................................................................................32 Figure A3.1: Device to Measure Fuel Consumption Rate ...................................................80 Figure A3.2: The Fuel Consumption Testing Area ...............................................................81 Figure A3.3: The Fuel Consumption Testing Track Diagram..............................................81 Figure A3.4: HERMANN CO and HC Emissions Analyzer..................................................82 Figure A3.5: Emissions Testing at Idle................................................................................83 Figure A3.6: Device to Measure White Smoke .....................................................................84 Figure A3.7: Measuring the White Smoke Level...................................................................85 Figure A3.8: The Mass Emissions test Cell at Thailand Automotive Institute ..................86 Figure A3.9: Testing the Motorcycle Mass Emissions Using the ECE R-40 Driving Cycle........................................................................................................87 Photographs. Photograph 1: The Motorcycle Upgrade Process.................................................................30 Photograph 2: Step 4-Test and Repair...................................................................................32 Photograph 3: Device to Measure Fuel Consumption Rate ................................................80 Photograph 4: The Fuel Consumption Testing Area ............................................................81 Photograph 5: The Fuel Consumption Testing Track Diagram ..........................................81 Photograph 6: HERMANN CO and HC Emissions Analyzer ..............................................82 Photograph 7: Emissions Testing at Idle.............................................................................83 Photograph 8: Device to Measure White Smoke ..................................................................84 Photograph 9: Measuring the White Smoke Level...............................................................85 Photograph 10: The Mass Emissions Test Cell at Thailand Automotive Institute ...........86 Photograph 11: Testing the Motorcycle Mass Emissions Using the ECE R-40 Driving Cycle ..................................................................................................87 Tables. Table 1.1: Ambient Air Quality in Bangkok, 2001 ................................................................... 2 Table 1.2: Curbsides Ambient Air Quality in Bangkok, 2001 ................................................ 2 Table 1.3: Annual Emissions of Air Contaminants in the BMR, 1997.................................. 3 Table 1.4: Percentages of Emissions in BMR, 1997.............................................................. 3 Table 1.5: Legally Registered In-Use Motorcycle Fleet in Bangkok (End-of-Year)........... 4 Table 1.6: Characteristics of the In-Use Motorcycle Fleet in Bangkok................................ 5 Table 2.1: Trade-In Incentives .................................................................................................11 Table 2.2: Summary of Clinic Information..............................................................................11 Table 2.3: Results of the Clinic Interviews .............................................................................12 Table 2.4: Trade-In Values and Contribution of Stakeholders............................................14 Table 2.5: Details of Motorcycles in Group ............................................................................15 Table 2.6: Details of Motorcycles in Group 2 .........................................................................15 Table 2.7: Results of Fuel Consumption Test-Group 1........................................................16 Table 2.8: Results of Fuel Consumption Test - Group 2 .....................................................17 Table 2.9: Results of Emissions Test at Idle - Group 1........................................................18 Table 2.10: Results of Emissions Test at Idle - Group 2 .....................................................18 Table 2.11: Results of Emissions Tests On Chassis Dynamometer-Group 1..................19 Table 2.12: Details of Adjusting and Reconditioning of Motorcycles in Group 1 .............20 Table 2.13: Details of Adjusting and Reconditioning of Motorcycles in Group 2 .............21 Table 2.14: Details of Estimated Values, Reconditioning Costs, and Sale Prices of the Remaining Motorcycles .................................................................................21 Table 3.1: Cost of Remanufacturing Motorcycles.................................................................42 Table 3.2: Financing of Various Stakeholders to the Motorcycle Upgrade Program ......42 Table 4.1: Lessons Learned from the Motorcycle Clinics and MUP Design Considerations.........................................................................................................47 Table A1.1: Motorcycle Production and Export Record by Month, 2000 ..........................51 Table A1.2: Number of New Motorcycles Registered in BMA, 1997-2000.......................52 Table A1.3: Number of New Motorcycles Registered in BMA by Engine Type, 1989-2000 ..............................................................................................................52 Table A1.4: Number of New Motorcycles Sales, Thailand, by Engine Type, 1996-2000 ..............................................................................................................53 Table A1.5: Domestic Motorcycle Sales, Thailand, 2000....................................................53 Table A1.6: New Motorcycle Registrations in BMA, January 2001....................................54 Table A1.7: New Motorcycle Registrations in BMA, December 2000 ...............................54 Table A1.8: Estimated Volume of Second Hand Motorcycle Sales, Thailand and Bangkok, 1997-99.........................................................................55 Table A1.9: Number of Geographic Transfers of Motorcycle Registrations, Thailand and Bangkok, 1997-99 .........................................................................................56 Table A1.10: Estimated In-Use Motorcycle Fleet and Annual Change in Bangkok, 1995-99.................................................................................................................56 Table A1.11: Estimated Retirement of In-Use Motorcycle Fleet in Bangkok, 1995-99...57 Table A1.12: Estimated In-Use Motorcycle Fleet and Annual Change in Thailand, 1997-99.................................................................................................................59 Table A1.13: Estimated Age Distribution of Motorcycles (1999) from the MUP Model and Based on Data from Clinics 1 and 2.........................................................60 Table A1.14: Number of Motorcycles Aged Five Years or Older being Inspected in BMR, 1997-2000................................................................................................61 Table A1.15: Characteristics of the Bangkok In-Use Motorcycle Fleet, 2000..................61 Table A1.16: Distribution of Dealers and Sub-dealers, Bangkok and Thailand ...............65 Table A1.17: Transport Task and Role of Motorcycle Taxis..............................................67 Table A1.18: Comparison of Registered and In-Use Motor Vehicle Fleet, Bangkok and Thailand,1999 .............................................................................................68 Table A1.19: Comparison of Registered and In-Use Motor Vehicle Fleet, Bangkok and Thailand .......................................................................................................70 Table A2.1: For the Motorcycle Upgrade Program only.......................................................72 Table A2.2: Summary of Benefits and Costs.........................................................................72 Table A2.3: Assumptions for Benefit Cost Calculations.......................................................74 Table A2.4: Sensitivity analysis / Switching values of critical items (in million US$).......75 Table A3.1: Details of 43 Motorcycles Involved in the Trade-In Program ........................78 Table A3.2: Details of Estimated Values, Reconditioning Costs, and Sale Prices of Remaining 23 Motorcycles ..................................................................................88 Acknowledgments This report summarizes the findings of a study partially financed by the joint United Nations Development Programme (UNDP)/World Bank Energy Sector Management Assistance Programme (ESMAP). The study aims to assist the Bangkok Metropolitan Administration (BMA) to design an implementation plan for the reduction of emissions from two-stroke engine motorcycles in Bangkok, Thailand. This study designed a plan to phase out in-use old motorcycles in partnership with the government agencies and private sector (manufacturers and local banks) and formulated a project concept. While the World Bank Project was not pursued by the Government, the Association of Thailand Motorcycle Manufacturers is currently pursuing financing to implement the concept. The authors acknowledge valuable contributions of many people who provided assistance--in particular the contribution, cooperation, and participation of all motorcycle manufacturers in Thailand; the BMA; the Pollution Control Department (PCD); the Land Transport Department (LTD); the National Energy Policy Office (NEPO); nongovernmental organizations (NGOs); U.S. Environmental Protection Agency's laboratory at Ann Arbor for performing emissions factor tests for three motorcycles, Clean Air Initiative for Asia; and Australian Aid for providing cofinancing and assistance with conducting the clinics for the study. This report was prepared by Jitendra Shah of the World Bank's East Asia Environment and Social Development Unit and Kirida Bhaopichitr of the East Asia Poverty Reduction and Economic Management Unit. Phil Sayeg of Policy Appraisal Services Pty Ltd. Australia, Piti Manomaiphibul of PDK Co. Ltd. Bangkok, Somchai Chanchaona of King Mongkut University of Technology Thonburi, Supat Wangwongwatana of PCD, Bangkok, Thailand, and Pairuch Suvanchavee of the BMA provided substantial input and assistance. The report also benefited from World Bank staff members who participated in the execution of the ESMAP study--in particular Noreen Beg, Elisabetta Capannelli, Nagaraja Harshdeep, Patchamuthu Illangovan, Masami Kojima, and Manida Unklvasapaul all of whom were involved in the preparation of "The Bangkok Motorcycle Upgrade Project." The Report was edited by The Grammarians Inc. and desktopped by Surhuid Gautam, Kelly Moon and Adam Pollack. Ms. Marjorie Araya from the ESMAP Programme supervised the production, printing, distribution and dissemination. Abbreviations and Acronyms BAQMP Bangkok Air Quality Management Project BMA Bangkok Metropolitan Administration BMR Bangkok Metropolitan Region CH4 Methane CO Carbon Monoxide CSC Community Service Cooperative EOI Expression of Interest ERR Economic Rate of Return ESMAP Energy Sector Management Assistance Programme (World Bank) FI Financial Intermediary GSB Government Savings Bank HC Hydrocarbons I/M Inspection and Maintenance LTD Land Transportation Department LPG Liquefied Petroleum Gas LTA Local Transport Authority MC Motorcycle MUP Bangkok Motorcycle Upgrade Project MVA Motor Vehicle Administrator NDIR Non-Dispersive InfraRed analyzer NEPO National Energy Policy Office NO2 Nitrogen Dioxide NOx Nitrogen Oxide OEM original equipment manufacturers PDK Project Development Unit PM Particulate Matter PCD Pollution Control Department PMU Project Management Unit ppm Parts per million ppb Parts per billion RTG Royal Thai Government SO2 Sulfur Dioxide SOI small side street SRT State Railway of Thailand TAI Thailand Automotive Institute TSP Total Suspended Particulates UNDP United Nations Development Programme VOC Volatile Organic Compound Units of Measure cc Cubic centimeter g/km Grams per kilometer Km/hr Kilometers per hour km/liter Kilometers per liter µg/m3 Micrograms per cubic meter mg/m3 Milligrams per cubic meter ppm Parts per million ppb Parts per billion Currency Equivalents currency unit = baht Executive Summary 1. Increasing economic activity in and around the Bangkok Metropolitan Administration (BMA) has led Thailand's three-decade, impressive growth. However, this rapid growth resulted in increased motorization, rise in traffic congestions, and deteriorating air quality. The fine particulates (<10 microns) or PM10, which have been known to cause serious health impacts such as premature mortality and morbidity, are identified as main concerns. One of the major contributors to PM10 emissions in Bangkok and many other Asian cities is the use of two-stroke motorcycles. During the year 1999, 80 percent of the motorcycle fleet in Bangkok had two-stroke engines, and posing a significant threat to present and future human health. This report presents a plan to assist the BMA to reduce emissions from two-stroke engine motorcycles in Bangkok. 2. Two motorcycle clinics were organized in Bangkok in May and July 2000 to improve the knowledge base, to promote awareness, to encourage interagency coordination and public­private partnerships, and to pilot the approach in generating lessons for the proposed Bangkok Motorcycle Upgrade Project (MUP). During these clinics, significant lessons were learned and observed on the issues of public and private sector involvement, the effectiveness of publicity campaigns and advertisements, interview questionnaire preparation and design, and the relevance of reconditioning for emissions. The design of the MUP is based on the experience gained through these project trial clinics, which tested processes for encouraging testing, repair, and replacement of the motorcycles. The MUP uses an innovative approach in accelerating the phasing-out of polluting motorcycles by targeting gross-polluting motorcycles in Bangkok. The MUP is designed to "buy back" pollution from the polluters by partnering private and public sectors, namely, the motorcycle manufacturers, the Government, the motorcycle owners, and donors. 3. The emissions characteristics of the motorcycle fleet will gradually improve as new motorcycles are purchased and old motorcycles are scrapped or relocated from Bangkok. The project will contribute to significant improvement in the maintenance of current motorcycles and replacement of irreparable, excessively polluting motorcycles by providing incentives. With the net present value of US$9.7 million for the costs, the benefits were estimated at US$29.9 million--yielding a net benefit of US$20.2 million and a benefit-to-cost ratio of 3.1 and Economic Rate or Return (ERR) of 102 percent. Benefits that have been valued include public health improvement and greater fuel economy. The costs for the motorcycle upgrade and associated components include project management; Inspection and Maintenance (I/M) program for the MUP; Land Transportation Department (LTD) I/M program strengthening; and tune-ups, major repairs, scrappage, bringing forward the date of new vehicle purchase, and offering incentives. 4. The MUP design is replicable and flexible. The project concept is not specific to motorcycles or Thailand. It can be applied to other mobile sources of air pollution in other countries. Moreover, the incentives and the components can be adjusted based on the amount of funds available. For example, the value of incentives may be decreased if the project needs to target a smaller number of polluting vehicles; or scrap allowance may be eliminated if the trade- in vehicle is allowed to be sold elsewhere. 5. Key lessons learned from the MUP can be grouped into three main categories: institutional development, enforcement, and global experience. On the institutional front, project design similar to the MUP needs to consider the following components: the lack of institutional capacity in developing countries, fraud and corruption, involvement of the private sector, strong leadership, and transparent community and public consultation process. Enforcement is a key to the success of this type of project. The key issues to be considered are establishing the knowledge base and analytical capacity throughout the technical and executive levels, obtaining appropriate legal basis for the needed improvements, instituting public awareness and educational campaigns, and implementing on-street enforcement as an integral part of the traffic management program. Global experience has shown that air quality management is complex and requires cross-sectoral responses; source control and fuel quality improvements are more effective than tail-pipe exhaust control; public participation and partnerships with relevant stakeholders should be supported; and institutional capacity building is complex and requires cross-sectoral collaboration, flexibility, and clear targets and responsibilities. 1 Air Quality in Bangkok and Transport Source 1.1 Increasing economic activity in and around the Bangkok Metropolitan Region (BMR) has been a predominant force in Thailand's growth over the past 30 years. The BMR comprises Bangkok City and its five surrounding provinces. Over 15 million people live in this region, with 5.7 million living in the City of Bangkok alone. The population and transportation sector increase with rapid economic growth have raised concerns for acute air pollution in Bangkok. 1.2 The air pollution in Bangkok is categorized as "severe" with regard to suspended particulate matter (PM), with concentration levels reaching up to two times the ambient air standards, especially during the mid to late 1990s. Particulate matter, especially the very fine particles, is a major health threat to the population, for when inhaled, it can cause a range of cancers and neurological disorders. However, recent data in Bangkok show a substantial decrease in PM concentration. 1.3 Although the Carbon Monoxide (CO) level may not be an immediate concern for Bangkok, Nitrogen Oxide (NOx) and Volatile Organic Compounds (VOCs)--the key ingredients of photochemical smog--may emerge in the future as a significant problem. A reliable pollutant inventory is very important to assess this problem in the future. Currently there is clearly a problem in the methodology used to prepare and report emission inventory in Thailand. This is evidenced by significant discrepancies in inventories reported by different agencies--in some cases by a factor of 20. 1.4 Tables 1.1 and 1.2 summarize Bangkok's 2001 ambient air quality and curbside air quality, respectively. The most threatening pollutant in Bangkok is PM10, which accounts for 50 percent of Total Suspended by Particulates (TSP), by weight, in the city. At the curbside, there were 169 out of 1,614 observations, representing about 10 percent of the total observations, where the ambient air quality standard was exceeded. However, in recent years (especially after 1999) the percentage of PM10 exceeding standards has fallen to about two percent of total observations in Bangkok. 1 2 Thailand: Reducing Emissions from Motorcycles in Bangkok Table 1.1: Ambient Air Quality in Bangkok, 2001 Concentration 95th Frequency of Air pollutant Range Percentile Average Standards exceedance TSP (24-hr) mg/m3 0.03 ­ 0.49 0.19 0.09 0.33 (0.54) 2/370 PM10 (24-hr) ug/m3 6.6 ­ 142.1 73.2 40.5 120 (0.12) 2/1550 CO (1-hr) ppm 0.0 ­ 8.50 2.57 0.94 30 0/67368 CO (8-hr) ppm 0.0 ­ 5.87 2.28 0.94 9 0/68654 Pb (24-hr) ug/m3 0.01 ­ 1.32 0.50 0.13 -- 0/372 Pb (monthly) ug/m3 0.02 ­ 0.69 0.40 0.12 1.5 0/107 O3 (1-hr) ppb 0.0 ­ 183.0 49.0 14.3 100 (0.14) 75/54764 SO2 (1-hr) ppb 0.0 ­ 103.0 16.0 5.6 300 0/69272 SO2 (24-hr) ppb 0.0 ­ 50.2 12.5 5.6 120 0/2899 NO2 (1 hr) ppb 0.0 ­ 164.0 54.0 22.5 170 0/73290 Source: Pollution Control Department (PCD) (2001); -- data not available; n.a. data not applicable. Table 1.2: Curbside Ambient Air Quality in Bangkok, 2001 Concentration 95th Frequency of Air pollutant Range Percentile Average Standards exceedance TSP (24-hr) mg/m3 0.05 ­ 0.46 0.31 0.18 0.33 (2.78) 15/540 PM10 (24-hr) ug/m3 21.3 ­ 233.9 140.5 67.9 120 (10.5) 169/1614 CO (1-hr) ppm 0.0 ­ 22.0 4.90 2.03 30 0/51243 CO (8-hr) ppm 0.0 ­ 12.0 4.44 2.03 9 (0.08) 39/51762 Pb (24-hr) ug/m3 0.02 ­ 0.81 0.25 0.11 -- 0/381 Pb (monthly) ug/m3 0.03 ­ 0.49 0.25 0.12 1.5 0/95 O3 (1-hr) ppb 0.0 ­ 100.0 26.0 7.0 100 0/23614 SO2 (1-hr) ppb 0.0 ­ 109.0 18.0 7.2 300 0/22032 SO2 (24-hr) ppb 0.3 ­ 54.3 13.9 7.2 120 0/946 NO2 (1-hr) ppb 0.0 ­ 197.0 77.0 35.2 170 (0.04)10/23728 Source: PCD (2001). 1.5 Evaluation of the latest emissions inventory provides a more detailed picture of emissions rates from mobile, point, and area sources in Bangkok. Tables 1.3 and 1.4 show that mobile sources are major emitters of NOx (80 percent), CO (75 percent), particulates (54 percent), and hydrocarbons (100 percent). Air Quality in Bangkok and Transport Source 3 Table 1.3: Annual Emissions of Air Contaminants in the BMR, 1997 Emission Emission rate (tons/yr.) source NOx SO2 CO PM VOC HC CH4 Point 56,002 229,859 6,266 3,735 2,005 -- -- source Mobile 264,648 9,973 349,771 20,602 -- 232,973 -- source Area 8,511 184 107,738 13,855 33,904 -- 177,370 source Total 329,161 240,016 463,775 38,192 35,909 232,973 177,370 emissions Source: PCD (2000). Table 1.4: Percentages of Emissions in BMR, 1997 Emission Percentage of total emissions source NOx SO2 CO PM VOC HC CH4 Point 17.01 95.77 1.35 9.78 5.58 -- -- source Mobile 80.40 4.15 75.42 53.94 -- 100.00 -- source Area 2.59 0.08 23.23 36.28 94.42 -- 100.00 source Total of 100.00 100.00 100.00 100.00 100.00 100.00 100.00 all sources Source: PCD (2000). 1.6 Motor vehicles generate a significant percentage of total PM pollution, especially the most dangerous particulates, which are both toxic and very small (and hence numerous). Diesel engines and two-stroke motorcycles account for over 95 percent of all vehicle-related PM emissions. Gasoline and Liquefied Petroleum Gas (LPG)-powered cars, common in the city streets, produce only very low levels of PM. 1.7 Two-stroke motorcycles contribute significantly to fine particulate emissions, the health impact of which is estimated to be over US$100 million per year. The government has passed tighter regulation--while considering and rejecting a ban of this type of motorcycle. In response, manufacturers since 1997 have switched their motorcycle production overwhelmingly to four-stroke engines. In 2000, an estimated 70 percent of the new motorcycle sales were four- stroke engines; by 2002 the share had grown to 85 percent. But the large in-use two-stroke engine motorcycle fleet of 560,000 (80 percent of the total registered) will not be completely 4 Thailand: Reducing Emissions from Motorcycles in Bangkok eliminated from Bangkok for many years, and will end up being a significant contributor to the area's air pollution. 1.8 Current in-use motorcycle emissions standards are not enforced effectively because of a weak institutional capacity and a poor motorcycle inspection and maintenance culture. This is in part due to the financial inability of especially poorer motorcycle owners to pay for improvements required under a more stringent enforcement regime. Box 1 describes existing characteristics of the motorcycle market and in-use fleet in 2000. Box 2 presents findings from a study of the socioeconomic characteristics of motorcycle drivers in Bangkok and their motorcycle usage. 1.9 In an attempt to tackle the above problems, in 1998 the Bangkok Metropolitan Administration (BMA) and the World Bank developed the Bangkok Air Quality Management Project (BAQMP). Studies under the BAQMP, conducted in 1998 to 1999, identified air pollution from mobile sources, particularly the two-stroke motorcycles, as one of the key air quality issues. Motorcycle clinics were conducted in 2000 to gather both emissions and socioeconomic data from the motorcycles and their users, which contributed significantly to the concept and design of the Bangkok Motorcycle Upgrade Project (MUP). The detailed MUP design and appraisal was completed in 2001. 1.10 Section 2 of this report describes the motorcycle clinics and the tests conducted on the participating motorcycles during and after the clinics, and presents an analysis of the information obtained from these activities, which were used as inputs to the design of the MUP. Section 3 describes the concept and original design of the MUP and the associated costs and benefits of the project. Section 4concludes with lessons learned from the clinics and preparations of the MUP. Box 1: The Bangkok Motorcycle Market The legally registered in-use motorcycle fleet in Bangkok declined 25 percent, from 961,800 motorcycles in 1995 to 716,700 by 1999. This decline is a result of the economic stagnation which greatly reduced new motorcycle sales in the late 1990s. Sales of new motorcycles peaked at 244,000 in 1994 and slowed to 86,000 by 1999. In 2000, sales of new motorcycles rebounded and grew to 109,000. With sustained economic recovery, motorcycle sales will continue to increase, resulting in renewed growth of the in-use fleet. The registered in-use fleet is forecasted to grow to 864,000 by 2004. In 2000, the total in-use fleet in Bangkok was estimated to be 800,000, of which 690,000 were legally registered and of which approximately 80 percent were powered by two-stroke engines with the balance being four-stroke. However, the trend is shifting; in 2000, 70 percent of all newmotorcycles sold in Bangkok were four-stroke. Table 1.5: Legally Registered In-Use Motorcycle Fleet in Bangkok (End-of-Year) Year 1995 1996 1997 1998 1999 2000 2004 (Estimate) (Forecast) Total fleet 961,800 963,000 893,900 756,300 716,700 690,700 864,000 Source: LTD for data (1995­99); Forecast for 2000 and 2004. See annex 1 for further details of forecasts. Air Quality in Bangkok and Transport Source 5 Table 1.6: Characteristics of the In-Use Motorcycle Fleet in Bangkok Statistic or Characteristic estimate (million) No. of registered motorcycles, 19991 1.6 Estimated no. of registered motorcycles, 20001 1.7 Estimated in -use (legal and illegal) motorcycles in Bangkok, 2000 0.8 Estimated in -use (legal and illegal) motorcycles in adjacent provinces within 0.1 BMR 2000 Estimated legally registered in-use motorcycles in Bangkok, 2000 0.69 Annual growth rate in legally registered in-use fleet Bangkok, 1995­2000 ­5.7% per year Estimated 4-stroke / 2-stroke fleet split in Bangkok, 2000 20% / 80% Estimated percentage of new motorcycle sales in Bangkok in 2000 that were About 70% 4-stroke Estimated percentage of legally registered in-use motorcycles in Bangkok 42% or 293,300 aged > 5 years in 2000 motorcycles 1Includes all motorcycles registered and those formally de-registered, but not those whose registration has lapsed. -------------------------------------------------------------------- Box 2: Socioeconomic Characteristics of Motorcycle Drivers and Motorcycle Usage Five focus groups and a survey of 923 interviews were conducted in Bangkok between June and September 2001 to obtain information on the socioeconomic characteristics of the area's motorcycle users and the motorcycles' usage. Motorcycle usage in Bangkok falls in most cases into one of the five following groups: (1) motorcycle taxis, (2) messenger services, (3) delivery services, (4) independent business operators, and (5) general mode of transportation such as commuting to and from the office and grocery shopping. The largest group of motorcyclists for occupational purposes appears to be motorcycle taxis followed by messenger and delivery services. Out of the 923 motorcycles in these interviews, 431 were motorcycle taxis, 122 were messenger service motorcycles, 100 were delivery service motorcycles, 36 were independent business operators, and 222 were used for general mode of transportation. Motorcycle taxi motorcyclists were the most organized group of users when compared to other groups. Source: Narongsak Jukrkorn, 2001, Social Assessment: Group of Motorcycle Users for Occupational Purposes. An internal report prepared for this study. Other findings from the study can be summarized as follows: Age and Marital Status. The majority of motorcyclists are males between 21 and 30 years of age who are married and have one to two children. Level of Education. The majority of motorcyclists have completed primary education, secondary education, or earned junior college certificates. Domiciles. The majority of motorcycle taxi, messenger service, and delivery service motorcyclists have domiciles in the provinces while independent business operators and those using motorcycles as modes of transportation have domiciles in Bangkok. 6 Thailand: Reducing Emissions from Motorcycles in Bangkok Income and Expenses. The income of the majority of motorcyclists falls between 5,000 and 10,000 baht a month and expenses are between 5,000 and 10,000 baht as well. The findings show that the group with the highest average monthly income is that of independent business operators with 18,000 baht/month; followed by users of motorcycles as mode of transportation; and motorcycle messenger services and delivery services with 15,000, 11,000, and 10,000 baht/month respectively. The group with the lowest average monthly income is that of the motorcycle taxi with 9,000 baht/month. As for average monthly expenses, findings show that users of motorcycles as mode of transportation have the highest average monthly expenses with 16,000 baht/month, followed by independent business operators and motorcycle delivery services with average monthly expenses of 10,000 baht/month. Motorcycle messenger services and motorcycle taxis have the lowest average monthly expenses of 7,500 and 5,700 baht/month, respectively. Costs of Motorcycle Usage. Motorcycle usage costs are associated with gasoline, engine oil, and auto lube. An additional cost that is included here is that associated with motorcycle taxi vest rental. Findings show that the group that has the highest monthly cost for motorcycle operation is the motorcycle taxis group with a monthly average of 3,490 baht/month, followed by motorcycle messenger services and motorcycle delivery services with 1,990 and 1,895 baht/month, respectively. Independent business operators and users of motorcycles as mode of transportation have the lowest monthly cost for motorcycle operations at 1,800 and 1,335 baht/month, respectively. Indebtedness. Forty-two percent of the interviewed motorcyclists have debts between 5,000 and 10,000 baht, of which the majority were obtained from moneylenders with the rest being spread out among relatives, groups/savings cooperatives, and commercial banks. The findings show that the users of motorcycles as mode of transportation have the highest average debt among other groups with an average debt of 50,000 baht/case, followed by independent business operators with an average debt of 40,000 baht/case. Motorcycle taxis, motorcycle delivery services, and motorcycle messenger services have the lowest average debt at 20,000 baht/case. Motorcycle Brands. Motorcycle brands used by interviewees (listed in order of the largest to the smallest number of motorcycles) are (1) Honda, (2) Kawasaki, (3) Suzuki, (4) Vespa, and (5) Yamaha. Cylinder size of 110 cc is the most popular choice, followed by 125 and 150 cc. Age of Motorcycle. Thirty-five percent of the motorcycles are between 6 and 10 years old and 4.6 percent are more than 10 years old. Motorcycle Purchase. The majority of motorcycles currently being used were cash purchases and most of the motorcycles purchased through installment payments have been paid off. There is only a small minority of motorcycles for which installment payments are still being made. Pollution Awareness. The majority of motorcycle users are aware that white smoke is a health hazard affecting the respiratory system of both the motorcycle user and others. Air Quality in Bangkok and Transport Source 7 Maintenance and Testing Practice. Sixty-six percent of the interviewees take their motorcycles to repair shops for maintenance, 27 percent perform their own repairs, while only 7 percent go to a manufacturer service center owing to the high service cost at the service centers. Sixty-two percent of the interviewees reported that their motorcycles emit white smoke; however, only 19 percent had taken their motorcycles to be tested for white-smoke. Among those who reported that their motorcycles do not emit white smoke, 66 percent have never had their motorcycles tested. Interest in Upgrades. The majority of motorcyclists in BMR expressed interest in upgrading their motorcycles, particularly those that are over three years old. Forty-six percent of those owning motorcycles that are three to five years old have plans to purchase new motorcycles while over 50 percent of those owning motorcycles over six years old have similar plans. Groups interested in upgrading motorcycles (listed in descending order) are motorcycle messenger services, motorcycle delivery services, motorcycle taxis, and independent business operators. The majority of those interested in upgrading motorcycles are interested in upgrading to four- stroke motorcycles because these are gasoline efficient and do not require the use of auto lube, thereby reducing air pollution. In addition, some motorcycle users are aware that in the future there may be legislation to outlaw two-stroke motorcycles. Some motorcycle users want to acquire new two-stroke motorcycles because the engines are more powerful, more durable, and are easier to maintain and repair. Ability to Pay. Those who want to upgrade their motorcycles have the capacity to make monthly installment payments of 2,000 baht. 2 Bangkok Motorcycle Clinics 2.1 To implement the initial design of the Motorcycle Upgrade Project (MUP), two clinics were organized with support from the Bangkok Metropolitan Administration (BMA), the Pollution Control Department (PCD), the private sector, academia, and the ESMAP/World Bank. 2.2 The objectives of the clinics were as follows: ?? Improve the knowledge base; ?? Promote awareness; ?? Encourage interagency coordination and public­private partnerships; and ?? Pilot the approach to generate lessons for the proposed Motorcycle Upgrade Project. 2.3 The first motorcycle clinic was held from May 15 to May 17, 2000 near the BMA II office complex while the second motorcycle clinic was held from July 10 to July 12, 2000 at Chulachomklao Royal Military Academy School. The locations were in different parts of the Bangkok Metropolitan Area and easily accessible. 2.4 Approximately 3,000 motorcycles participated in the clinics. They were tested for emissions, tune-ups, and minor repairs. Gifts (T-shirts, caps, coupons for future repair, and so on) were given, trade-ins were offered, and information on the characteristics of the motorcycles and motorcycle owners in Bangkok and emissions results were gathered. 2.5 The steps conducted in the clinics as presented in the schematic of the clinics in figure 1 were as follows: (1) Registration and interviews of participants (2) Conducting emissions test 12 and giving free lube oil3 (3) Free tune-ups, minor repairs, and free spark plugs--provided by manufacturers4 (4) Conducting emissions test 2 (5) Results: 2The BMA staff performed emissions test 1. Pollution Control Department staff performed emissions test 2. 3Several oil products manufacturers participated in the clinics, namely Shell, Pennzoil, Castrol, and Total. 4Principal manufacturers participating in the clinics included Honda, Kawasaki, Suzuki, and Yamaha. 9 10 Thailand: Reducing Emissions from Motorcycles in Bangkok (5.1) Pass: participant receives a gift (end of process) (5.2) Fail: (5.21) Special interview on: (5.21a) Willingness to pay (5.21b)Willingness to accept trade-in (5.22) Extensive discussion on trade-in program; participant receives a gift (end of process) Figure 1: The Schematic of the Clinics Pass Pass No Action % % 100% Fail Fail % Minor % Major Upgrade Test1 WTP/Trade-in Tune-up Test2 Questionnaire Scrappage 2.6 During registration, participants were interviewed about their motorcycle, their motorcycle usage, and their socioeconomic profile. The information was largely entered and quality-checked by trained students from Chulalongkorn University. Emissions testing stations recorded data on emissions testing results prior to and after the tune-ups and minor repairs, while the tune-up stations recorded tune-ups and minor repairs that were made on each motorcycle. If the participants' motorcycles failed test 2, the participants were interviewed on their willingness to pay for improved maintenance to keep their motorcycles or, if the motorcycle was not repairable, their willingness to accept incentives to give up their motorcycles. In addition, they were given the information on the motorcycle trade-in program in which they are eligible to participate. Incentives provided at the clinics for trading motorcycles are presented in Table 2.1. Bangkok Motorcycle Clinics 11 Table 2.1: Trade-In Incentives Contribution Contributing parties Type of contribution (in baht) Discount on purchase 1,000­3,000 Motorcycle manufacturers Waiver of 1-year insurance 2,500 Leasing companies 0.5% discount on interest rates 1,000­5,000 World Bank/ESMAP Incentive toward purchase 3,000 Findings from the Motorcycle Clinics 2.7 The clinics yielded a wealth of data on both the motorcycles and motorcycle owners, which could be analyzed from various viewpoints. The data set generated is rather unique, as it is one of the largest data sets on motorcycle pollution relating to technical, socioeconomic, and preference aspects. Table 2.2 summarizes basic information from the clinics, while Table 2.3 summarizes the results of the interviews. The clinics' data set is provided on the CD that accompanies this report. Table 2.2: Summary of Clinic Information No. of No. of No. of No. of motorcyclists motorcycles motorcycles Clinic Day motorcycles interested in tested that passed that failed a possible Test 2 test 2 upgrade Clinic 1 15­17 May 2000 1,400 1,100 300 90 Day 1: July 11, 390 285 97 42 2000 Day 2: July 12, 502 378 111 57 Clinic 2 2000 Day 3: July 13, 626 466 125 71 2000 Total 1,518 1,129 333 170 Total (both 2,918 2,229 633 260 clinics) 12 Thailand: Reducing Emissions from Motorcycles in Bangkok Table 2.3: Results of the Clinic Interviews Characteristics Results Motorcycles and their use ?? 83 percent of the motorcycles are 2-stroke. ?? 72 percent have been in use for more than 4 years. ?? 79 percent already use low-smoke 2T lube oil. ?? 93 percent are claimed by their owners to be able to travel at speeds greater than 60 km/h. ?? More than half travel more than 50 km/day. ?? 93 percent are reported to be used for business purposes. ?? 54 percent have engine capacity of 125 cc or less, with 1 percent having capacity greater than 126cc. ?? About half the motorcycle owners are below the age Motorcycle owners of 30, and typically have 1­2 children. ?? 85 percent earn 10,000 baht per month or less (average of 8,000 baht per month, and median of 7,000 baht per month), with average household income a little over double that of the motorcycle owner. ?? 75 percent of the owners bought their motorcycles new while the remainder purchased secondhand motorcycles. ?? Within an income range of 2,000­20,000 baht per month, the income of motorcycle owners is not strongly correlated with features of motorcycle ownership and use (for example, income explains 2 percent of emission levels, 9 percent of motorcycle age, and 8 percent of whether the motorcycle was purchased new or secondhand). ?? 20 percent of motorcycles aged five years or fewer Emissions of motorcycles5 failed an initial emissions test, rising to a relatively even rate of 35 percent for older motorcycles. ?? Minor repairs such as tuning, cleaning air filters, and cleaning or replacing spark plugs were able to reduce emissions sufficiently for 60 percent of motorcycles that failed an initial test to pass a subsequent test, and reduced the opacity of emissions by 50 percent. 5Emissions tests were performed before and after tune-ups and minor repairs by the BMA staff. Emissions tested were for carbon monoxide, hydrocarbon, and white smoke. Motorcycles that do not meet the legal standards of any one of the three emissions above failed the test. Bangkok Motorcycle Clinics 13 Willingness to pay ?? About half of motorcycle owners are willing to pay an average of 2,500 baht/year for improved maintenance. ?? 79 percent are willing to pay for improved air quality and up to 4,800 baht/year to be able to continue to use their motorcycle, but only 150 baht/year if not faced with this restriction. ?? 66 percent would be willing to accept compensation to give up their motorcycle. Note: The analysis is based on 2,071 interview questionnaires as only 600 questionnaires from the first clinic are complete and accurate and can be used for analytical purposes. Motorcycle Trade-Ins and Testing Results 2.8 Owners of the motorcycles that failed the second test were informed of the trade- in program for which they are eligible. If interested, the motorcycle owners sell their highly polluting motorcycles to the program and purchase new four-stroke motorcycles; the program provides the owners to purchase incentives as presented previously in Table 2.1. 2.9 Of the 633 motorcycle owners whose motorcycles failed the second test, 260 expressed interest in participating in the trade-in program. Motorcycle owners who had expressed interest were invited to join the trade-in program, after which 43 traded in their motorcycles. 2.10 The 43 motorcycles traded in ranged from 3 to 20 years old, with an average age of 8 years.6 The engine size ranged from 100 to 150 cc. One-third of these motorcycles were 150 cc and another third were 125 cc with an average trade-in value of 27,000 baht and 34,000 baht, respectively (see annex A, Table A3.1). The average trade-in values for all trade-in motorcycles and the contribution of the different stakeholders are presented in Table 2.4. 6The number of years is calculated based on the year 2000 when the clinics took place. 14 Thailand: Reducing Emissions from Motorcycles in Bangkok Table 2.4: Trade-in Values and Contribution of Stakeholders Factors Amount (baht) Average wholesale price of new motorcycle (w/o discounts provided by 46,818 manufacturers) Average trade-in value of the old motorcycles (based on the motorcycle's 25,276 brand, age, and conditions) Discount contributed by the manufacturers (estimated) 5,000 Discount contributed by the World Bank (actual) 3,000 Outstanding amount required for the purchase of a new motorcycle by 13,542 owners Additional cost due to financing (for the 36 owners selecting this option) 11,816 2.11 From the 43 motorcycles, 20 were selected for the fuel consumption and emissions tests were conducted before and after being reconditioned.7 The criteria for the selection are as follows: ?? Motorcycles used for more than three years; or ?? Motorcycles that had traveled more than 30,000 km. 2.12 The 20 motorcycles were categorized into two groups. Each group had samples of 10 motorcycles. Details of the motorcycles in Group 1 and Group 2 are presented in Tables 2.5 and 2.6, respectively. Different sets of testing were done on Group 1 and Group 2. Tests performed on motorcycles in Group 1 included emissions test at idle, fuel consumption test, and mass emissions, using facilities at Thailand Automotive Institute (TAI). Tests done on Group 2 are identical to those conducted on Group 1, but excluded the mass emissions test at TAI. The motorcycles in both groups were tested twice: before and after reconditioning. 7 All samples were two-stroke motorcycles since there was only one four-stroke motorcycle participating in the trade-in program. Bangkok Motorcycle Clinics 15 Table 2.5: Details of Motorcycles in Group 1 No. Brand / Chassis Model Registered Swept Accumulated model number year number volum, distance8, cc km 1 Y / BELLE-R 3PP031831 1990 9?-3697 102 73,448 2 Y / CONCORDE 29M-16247K 1984 ? ¨ ? 195 135 5,332 3 H / DASH NZ125N-0181632 1995 5®-6625 125 50,209 4 H / NOVA NZ110L-134312 1993 9 -0300 110 39,203 5 H / NOVA DASH NZ125TS-0060967 1997 ?·¬ 599 123 72,469 6 H / DASH NZ125TS-0027126 1996 ???-144 125 76,183 7 H / DASH NZ125N-0013365 1993 8¡ -7283 125 99,568 8 H / NSR NS150-018642 1991 ??ª 338 150 32,304 9 H / NOVA DASH NZ125TS-0045416 1997 ??·91 123 98,180 10 K / KR150 KR150B-A22467 1993 9 -3108 150 89,686 8Mileage displayed by the speedometer of motorcycles. Table 2.6: Details of Motorcycles in Group 2 No. Brand / model Chassis number Model Registered Swept Accumu year number volume, lated cc distance , km 1 S / CRYTAL BE12A-TH230202 1991 8?-0338 119 15,150 2 S / AKIRA BE13B-TH110979 1991 5·-0711 109 51,945 3 Y / RXZ 3XX-044106 1993 ??? 762 135 40,669 4 Y / TZR 3RR-059106 1993 ??? 114 150 17,236 5 Y / JR-S 4AC-069971 1993 1¢-9355 120 52,787 6 K / GTO GTO-M-62186 1992 9?-6536 125 18,934 7 H / DASH NL125N-0014787 1993 ¦ -2162 125 51,037 8 H / NOVA NZ110K-134833 1991 9·-9736 110 37,567 9 K / GTO GTO-M55344 1991 ??? 953 125 48,099 10 K / NEON AH110A-A13005 1995 ??¬ 254 107 73,985 Pre-Reconditioning Fuel Consumption Test 2.13 Before reconditioning, motorcycles were tested to monitor the fuel consumption rate. This test was carried out at the PDK9 test site in Samutprakarn. The test procedures were as follows: First the speedometer of each motorcycle was adjusted to work properly, and then the devices to measure fuel consumption were installed on the tested motorcycle. This allowed the driver to turn the fuel switch on at the starting point and off at the end point. The test site was a straight private track longer than 200 meters. The tests were set at constant speeds of 30, 50, and 80 km/hr. The motorcycles with engine sizes smaller than 125 cc were tested at 30 and 50 km/hr, while those between 126 and 150 cc were tested at all three speeds. For each speed, the 9PDK is a Thai motorcycle importer and manufacturing company. 16 Thailand: Reducing Emissions from Motorcycles in Bangkok motorcycles were tested twice and the average fuel consumption rate was computed and recorded. The results of the fuel consumption rates for 20 motorcycles are shown in Table A2.7 and 2.8. At 30km/hr and 50 km/hr, the fuel consumption rates of the motorcycles in Group 1 were in the range of 25­74 km/liter and 21­60 km/liter, respectively. For Group 2, the fuel consumption rates were in the range of 32­56 km/liter and 28­51 km/liter for the speeds of 30 and 50 km/hr, respectively. Generally, at higher speed, the fuel consumptionrate increased. Table 2.7: Results of Fuel Consumption Test--Group 1 (Unit: km/liter) No. Registered no. Before reconditioning After reconditioning 30 km/hr 50 km/hr 80 km/hr10 30 km/hr. 50 km/hr 80 km/hr 1 9?-3697 74.1 60.6 44.9 63.5 2 ? ¨ ? 195 48.2 39.2 40.8 32.5 3 5®-6625 66.7 55.6 35.4 44.4 4 9 -0300 48.8 39.2 34.2 29.6 5 ?·¬ 599 46.5 42.6 28.8 32.3 6 ???-144 55.6 43.5 40.0 34.8 7 8¡ -7283 25.0 21.1 23.0 23.1 8 ??ª 338 58.8 58.0 44.4 44.4 38.1 34.2 9 ??·91 47.1 44.0 41.2 44.0 10 9 -3108 41.7 35.4 31.3 30.8 34.5 34.8 Average = Average = Average = Average = 51.25 43.92 36.35 37.68 10The motorcycles tested at 80 km/hr have a swept volume of 126­150 cc. Bangkok Motorcycle Clinics 17 Table 2.8: Results of Fuel Consumption Test--Group 2 (Unit: km/liter) No. Registered no. Before reconditioning After reconditioning 30 km/hr 50 km/hr 80 km/hra 30 km/hr 50 km/hr 80 km/hr 1 8?-0338 37.0 30.3 46.0 43.5 2 5·-0711 43.5 36.0 47.6 29.0 3 ??? 762 56.3 45.5 38.8 38.1 4 ??? 114 43.0 40.8 32.3 21.3 22.3 30.3 5 1¢-9355 41.7 38.1 26.7 25.6 6 9?-6536 34.2 35.4 50.0 55.6 7 ¦ -2162 47.6 50.6 48.8 45.5 8 9·-9736 43.5 40.8 44.9 38.1 9 ??? 953 32.8 28.6 42.1 44.0 10 ??¬ 254 54.1 51.3 46.0 47.6 Average = Average = Average = Average = 43.37 39.74 41.22 38.93 11The motorcycles tested at 80 km/hr have a swept volume of 126­150 cc. Pre-Reconditioning Emissions Test 2.14 Carbon monoxide and hydrocarbon emissions of the 20 motorcycles at idle were measured using the Non-Dispersive InfraRed (NDIR) emissions analyzers. Two analyzers were used: Horiba MEXA 554JA and the Hermann. The limits of CO and HC were 4.5 percent and 10,000 ppm, respectively. For white smoke, the measuring device was a full-flow opacity type, which has two photo-sensors--a light-emitting sensor and a light-receiving sensor. The white smoke was allowed to flow between these sensors. The amount of light received by the receiving sensor was inversely proportional to the opacity of the white smoke. The opacity limit was set at no greater than 30 percent on the device scale. Only motorcycles in Group 1 were tested for white smoke. Results of emissions at idle are shown in Tables 2.9 and 2.10. Results of Group 1 show that CO levels were in the range of 1.1­4.3 percent and HC levels were 3,460­9,310 ppm (except motorcycle number 7). White smoke levels of six motorcycles were in the range of 0­21 percent and another four motorcycles emitted white smoke exceeding the limit of 30 percent. 18 Thailand: Reducing Emissions from Motorcycles in Bangkok Table 2.9: Results of Emissions Test at Idle--Group 1 No. Emissions at idle before reconditioning Emissions at idle after reconditioning CO HC White smoke CO HC White smoke (%) (ppm.) (%) (% vol.) (ppm.) (% vol.) 1 4.3 9,310 67 4.4 7,390 75 2 1.5 4,600 14 1.8 5,250 9 3 3.8 7,530 91 3.1 8,240 14 4 1.3 4,870 48 1.9 5,710 23 5 1.1 3,460 0 3.1 7,340 16 6 2.3 5,850 3 2.9 13,990 18 7 3.0 14,540 100 3.6 12,780 42 8 2.6 8,700 17 2.9 7,570 12 9 1.5 4,870 7 1.7 5,640 10 10 1.3 5,100 21 2.1 7,710 2 Note: The staff of BMA at the PDK factory in Samutprakarn conducted the tests. The instrument was the HERMANN NDIR gas analyzer. Table 2.10: Results of Emissions Test at Idle--Group 2 No. Emissions at idle before Emissions at idle after reconditioning reconditioning CO HC CO HC (%) (ppm.) (% vol.) (ppm.) 1 2.44 8,460 3.96 13,587 2 1.61 5,070 0.11 6,070 3 1.49 5,330 3.55 10,460 4 0.85 5,220 1.47 5,820 5 1.14 3,420 4.05 9,300 6 2.59 8,870 4.66 15,493 7 1.22 4,670 2.59 8,000 8 1.00 5,250 1.53 9,360 9 2.47 12,050 5.15 11,687 10 1.89 4,570 2.70 6,040 Note: The PDK staff conducted the tests and the white smoke was not monitored. Pre-Reconditioning Mass Emissions Test 2.15 Only 10 motorcycles in Group 1 went through the mass emissions test. The facilities at Thailand Automotive Institute in Samutprakarn were used for this test. The test cycle was an ECE R-40 driving pattern. For the ECE test, two types of testing were conducted. The type 1 test was the mass emissions test and the results were in g/km. The type 2 test was the emissions concentration at idle, which was measured following the driving cycle. The results of the two tests are shown in Table 2.11, which reveals that CO emissions of three motorcycles were above the limit of 16 g/km and HC emissions of eight motorcycles were above the limit of 7.0 g/km. Bangkok Motorcycle Clinics 19 Table 2.11: Results of the Emissions Tests on Chassis Dynamometer--Group 1 No. Before reconditioning After reconditioning Type 1 (g/km)a Type 212 Type 1 (g/km)12 Type 213 CO HC NOx CO (%) HC (ppm) CO HC NOx CO (%) HC (ppm) 1 8.0 4.5 0.030 5.9 8,704 4.7 3.4 0.020 4.8 6,550 2 2.9 9.4 0.010 3.9 8,418 10.5 8.8 0.010 4.6 9,020 3 10.3 8.8 0.010 4.8 10,285 6.3 8.9 0.010 3.7 8,510 4 19.8 7.0 0.010 6.9 19,050 8.8 7.0 0.010 5.2 11,060 5 6.4 10.0 0.010 3.9 9,155 3.8 6.8 0.010 2.6 6,770 6 4.6 7.3 0.020 3.6 6,043 6.6 7.4 0.010 4.0 6,120 7 18.2 10.2 0.010 6.1 17,290 18.1 12.2 0.010 5.3 10,890 8 11.6 10.8 0.005 5.1 11,784 8.8 9.0 0.010 4.0 9,030 9 10.3 10.5 0.010 2.2 14,350 2.6 8.3 0.020 2.5 8,590 10 17.9 13.9 0.005 5.7 14,600 8.5 13.4 0.010 5.1 14,580 Average 11.0 9.24 4.81 11,968 7.9 8.52 4.18 9,112 value 12Followed the ECE. R-40 Type 1 test procedure. Mass emissions of CO and HC should not exceed 16.0 and 7.0 g/km, respectively. 13Followed the ECE. R-40 Type 2 test procedure. CO concentration should not exceed 4.5% and HC should not exceed the limit announced by the Ministry of Science, Technology and Environment (HC < 10,000 ppm). Motorcycle Reconditioning 2.16 After conducting emissions and fuel consumption tests on the 20 trade-in motorcycles, all 43 motorcycles were cleaned, adjusted, and reconditioned. The reconditioning process varied from one motorcycle to another depending on the motorcycle's condition. Engine parts such as cylinder jacket, cylinder head, piston, crankshaft, spark plug, oil pump, carburetor, air filter, and exhaust pipe were cleaned, checked, adjusted, or changed. The details of the reconditioning processes for motorcycles in Group 1, Group 2, and the rest are shown in Tables 2.12, 2.13, and 2.14, respectively. The reconditioning costs are also listed in the Tables. These costs can be estimated as follows: the oil change cost 82 baht/motorcycle (for 2T-oil change approximately 86 baht/motorcycle) and a spark plug replacement cost 36 baht. The labor cost for cleaning and checking a motorcycle was 100 baht if the engine size was smaller than 125 cc, and 150 baht if it was larger than 126 cc. The costs of other spare parts were determined by studying market prices. Air Quality in Bangkok and Transport Source 20 Table 2.12: Details of Adjusting and Reconditioning of Motorcycles in Group 1 Details of adjusting and reconditioning the motorcycles Cost No. Jacket Piston Cylinder Crank Spark 2T oil Carbur Exhaust Air filter Note (baht) head shaft plug pump etor pipe 1 Clean Clean Clean Change Adjust Clean Clean Clean Change ignition coil. 454 Change 2T oil, lube oil. Set air-adjusting screw at 2 turns. 2 Clean Clean Change Adjust Clean Clean Clean Change a rubber seal for the air 319 filter. Change 2T oil, lube oil. Set air-adjusting screw at 2.5 turns. 3 Clean Clean Clean Clean Change Adjust Clean Clean Clean Set air-adjusting screw 404 at 2.5 turns. Change 2T oil, lube oil. 4 Clean Clean Clean Clean Change Adjust Clean Clean Clean Change 2T oil, lube oil. 304 Set air-adjusting screw at 1.75 turns. 5 Clean Clean Clean Clean Change Adjust Clean Clean Clean Change 2T oil, lube oil. 354 Set air-adjusting screw at 2.5 turns. 6 Clean Clean Clean Clean Change Adjust Clean Clean Clean Change a rubber fuel line. 354 Change 2T oil, lube oil. Set air-adjusting screw at 1.75 turns. 7 Clean Clean Clean Clean Change Adjust Clean Clean Clean Change a crankshaft seal. 404 Change 2T oil, lube oil. Set air-adjusting screw at 2 turns. 8 Clean Clean Change Adjust Clean Clean Clean Change 2T oil, lube oil. 354 Set air-adjusting screw at 2turns. 9 Clean Clean Change Adjust Clean Clean Clean Change 2T oil, lube oil. 354 Set air-adjusting screw 1 ¾ turns. 10 Clean Clean Change Adjust Clean Clean Clean Change 2T oil, lube oil. 354 Set air-adjusting screw at 2.5 turns. 21 Thailand: Reducing Emissions from Motorcycles in Bangkok Table 2.13: Details of Adjusting and Reconditioning of Motorcycles in Group 2 Details of adjusting and reconditioning of the motorcycles Cost No. Jacket Piston Cylinder Crank Spark 2T oil Carburetor Exhaust Air filter (baht) head shaft plug pump pipe 1 Clean Clean Change 136 2 Clean Clean Clean - 3 Clean Clean Clean - 4 Change Clean Change 136 5 Clean Clean Change 100 6 Clean Clean Change 100 7 Clean Clean Clean - 8 Clean Clean Clean - 9 Clean Clean Change 100 10 Clean Clean Clean - "-" denote negligible costs. Table 2.14: Details of Estimated Values, Reconditioning Costs, and Sale Prices of the Remaining 23 Motorcycles No. Registered Estimated values Reconditioning Sale prices after number (baht) costs reconditioning (baht) (baht) 1 1ª-3245 23,300.00 3,927 18,500 2 ?¥? 949 21,100.00 3,061 20,000 314 1¦-6695 12,000.00 --------- --------- 4 1?-3402 27,500.00 2,921 23,000 515 7?-6001 4,000.00 -------- --------- 6 7¦-7341 23,000.00 2,898 20,000 7 8 -5068 21,000.00 3,136 19,000 8 6?-6838 8,500.00 6,187 9,000 915 3·-1910 5,000,00 --------- --------- 10 ? ? ¬ 307 46,800.00 1,123 30,000 11 7¢-8154 35,100.00 1,745 23,500 12 1®-9757 38,400.00 1,885 22,500 13 5¦-5791 38,300.00 11,882 23,000 14 5¥-4262 40,800.00 2,414 27,000 15 ??¡ -35 36,000.00 11,224 26,000 16 4- -4382 36,000.00 5,694 23,500 17 ???-333 46,875.00 756 27,500 18 ? ? ? 490 39,000.00 6,615 19,000 19 2ª-2052 30,000.00 667 21,500 20 7?-9436 26,000.00 2,414 18,500 21 ??? 195 14,000.00 643 14,000 2216 8ª-6872 35,000.00 2,177 -------- 23 ??ª 79 8,000.00 1,485 8,000 14The motorcycle was stolen while it was kept at the PDK factory. 15The reconditioning costs of these two motorcycles were so high that they might not be worth repairing. 16This motorcycle is waiting for spare parts. 22 Thailand: Reducing Emissions from Motorcycles in Bangkok Post-Reconditioning Fuel Consumption Test 2.17 After all the motorcycles were cleaned, checked, adjusted, or replaced with parts, the reconditioning processes were completed. To investigate the effects of reconditioning motorcycles on fuel consumption and emissions, the tests that were conducted before the reconditioning were repeated. Table 2.7 and 2.8 showed the results of fuel consumption tests before and after the reconditioning for the motorcycles in Group 1 and Group 2, respectively. After the reconditioning process, the fuel consumption rates of the motorcycles seemed to increase moderately. It is noted that in Group 1, the average fuel consumption rates changed from 51.25 km/liter to 36.35 km/liter at the speed of 30 km/hr and 43.92 km/liter to 37.68 km/liter at the speed of 50 km/hr. For Group 2, the average fuel consumption rates changed from 43.37 km/liter to 41.22 km/liter at the speed of 30 km/hr and 39.74 km/liter to 38.93 km/liter at the speed of 50 km/hr. 2.18 The reconditioning process involves adjusting motorcycle carburetors to the manufacturing set point, which usually yields good engine performance and produces certain concentrations of CO and HC at idle. This is why following reconditioning, motorcycles tend to increase fuel consumption rates and produce slightly higher CO and HC when idling. Post-Reconditioning Emissions Test 2.19 The emissions test at idle was also repeated after the reconditioning process. The results before and after the reconditioning for motorcycles in Groups 1 and 2 were shown previously in Tables 2.9 and 2.10, respectively. After the reconditioning process, CO and HC levels at idle generally increased, while white smoke levels decreased. Post-Reconditioning Mass Emissions Test 2.20 For the mass emissions test at Thailand Automotive Institute in Samutprakarn, only motorcycles in Group 1 were tested. The results of the mass emissions (type 1) expressed as g/km and the emissions concentration (type 2) before and after reconditioning were shown in Table 2.11. It is shown that the reconditioning process can help reduce CO mass emission modestly. Three motorcycles failed CO mass emissions test reduction from three units to one unit after the reconditioning process. Although the reconditioning process can reduce the HC mass emissions slightly, its amount, both before and after reconditioning, is still higher than the limit of 7.0 g/km. The results of the type 2 test show that CO and HC concentrations are reduced slightly after the reconditioning process. Observations and Lessons 2.21 Some of the observations and lessons learned from the motorcycle clinics with implications of reconditioning motorcycles can be summarized as follows: ?? During the process of testing, maintenance awareness, and motorcycle trade-ins, it can be determined that the commitment of key stakeholders--both public and private sectors--is vital for the success of the program. In the case of Thailand, key stakeholders included the Bangkok Metropolitan Administration, the Land Air Quality in Bangkok and Transport Source 23 Transport Department, which grants testing stations licenses in Thailand; the Pollution Control Department, which examines the air quality in Thailand; and the motorcycle manufacturers and oil producing companies. ?? Publicity campaigns and advertisements are important not only for attracting participants to the clinics but also for raising awareness of vehicle maintenance, inspection, and air pollution. Publicity campaigns should be carried out both before and after the clinics, in the form of leaflets, press conferences, or television and radio announcements and news. ?? Training of staff to undertake the interview questionnaire is extremely important in order to obtain accurate information. Training should include understanding of the questionnaire as well as interview techniques, for some questions can be sensitive (for example, one's willingness to pay). ?? Pretests of the questionnaires are also vital. Pretests should be conducted until a good questionnaire is obtained. ?? It is important to note that the design of the questionnaire should also take into account of the cultural context of the country. For example, the questions on one's willingness to pay and willingness to accept trade-in must be culturally sensitive in order to obtain accurate information from interviewees. ?? Emissions and fuel testing of the traded-in motorcycles indicated that it is not clear that reconditioning of the polluting motorcycles would help reduce overall emissions and fuel consumption of old, polluting motorcycles. Upgrading the motorcycles is the best way to achieve reduced emissions and fuel consumption. 3 The Bangkok Motorcycle Upgrade Project (MUP) 3.1 Using an innovative public-private partnership approach, the Bangkok Motorcycle Upgrade Project (MUP) lays the basis for the implementation of an effective system of motorcycle inspection and maintenance in Bangkok for the longer term. Under the MUP, greater enforcement of tightening regulations will hold future motorcycle owners more accountable for the condition of their motorcycles. 3.2 The project will use a voluntary demonstration upgrade program for registered in- use motorcycles and will focus on motorcycles five years or older (which presently matches the Land Transportation Department's [LTD] current age for mandatory annual inspection). The project involves inspection of motorcycles, increasing public awareness of the benefits of good maintenance, minor and major repair of motorcycles, and accelerating the upgrading of the motorcycle fleet through remanufacture or scrapping of highly polluting vehicles. The estimated 250,000 motorcycles entering the program over the life of the three-year project will benefit from testing, and where required, minor improvements. About 21,000 of the oldest, highly polluting motorcycles (3 percent of the registered in-use fleet estimated at 700,000 in 2000) will be replaced with new ones. 3.3 Incentives provided under the project are designed to achieve a one-time "buy back" of pollution. They are designed to ease the burden on owners of old, polluting motorcycles who will comply with official regulations and are legally registered by the LTD as the stricter emissions regulations are enforced. For the owners of the most polluting motorcycles17, the program will encourage and accelerate the purchase of new motorcycles by providing a financial incentive (for example, a trade-in coupon) to decrease the financial gap between their available down payment and the purchase price. The traded-in motorcycles that cannot be economically remanufactured to meet prevailing in-use emission standards will be scrapped. Careful design of the project will minimize fraud. 3.4 Motorcycle manufacturers and dealers will be integral partners for the project and will contribute significantly in financing and executing the motorcycle upgrade, including 17Motorcycles aged five years and above that have been legally registered in Bangkok for at least one year at the commencement of the project will be eligible to enter the program. Eligibility to receive a trade-in coupon will be more stringent and is likely to be set based on year of manufacture as two-stroke motorcycles manufactured prior to 1995 were unduly polluting by design. These criteria may be changed during the course of the project subject to actual implementation experience. 25 26 Thailand: Reducing Emissions from Motorcycles in Bangkok provision of financial and in-kind incentives to encourage owners to improve motorcycle maintenance and to purchase new motorcycles. 3.5 The design of the project is based on experience gained from project trial clinics undertaken in Bangkok in May and July 2000, which tested processes for encouraging testing, repair, and replacement of motorcycles (section 2). The MUP has two main components: (a) Motorcycle Upgrade Demonstration and (b) Improved Capacity for Pollution Management. Project Components Motorcycle Upgrade Demonstration 3.6 The component includes the following sub-components: ?? Inspection to identify motorcycles with excessive emissions18 and to encourage motorcycle owners to undertake regular maintenance and repairs to reduce emissions; ?? Raising public awareness of motorcycle pollution and health impacts, beneficial effects of regular maintenance, and importance of using proper 2T lubricant in the correct quantities; ?? Motorcycle manufacturer and dealer promotion and incentives to encourage motorcyclists to enter the upgrade program; ?? Accelerated upgrading of the motorcycle fleet by providing financial incentives to owners of old, polluting motorcycles and strengthening enforcement of in-use emissions regulations; and ?? Remanufacturing or scrapping of the traded motorcycles. Description 3.7 The upgrade demonstration process includes the following: (i) encouraging owners of in-use motorcycles under five years old to have the emissions level of their motorcycles tested; (ii) undertaking repairs to reduce emissions from motorcycles that fail the test; and (iii) facilitating trade-in of motorcycles that produce excessive emissions and which cannot be repaired for a new motorcycle, with traded-in motorcycles subsequently remanufactured to meet current in-use emissions standards (Box 3) or, where this is not financially viable, scrapped. The process will be complemented by stricter enforcement of emissions standards for motorcycles, and supported by promotion and information to encourage 18Recent internal Bank research has shown that there is a lack of correlation between vehicle condition-related PM and white smoke, and there is further evidence that white smoke measured under no load is not representative of smoke under driving conditions (that is, under load). In addition, white smoke measurements have large standard deviations (that is, poor reproducibility). Because white smoke is more strongly correlated with lubricant use rather than the mechanical condition of the vehicle, even motorcycles known to emit high amounts of PM may show little visible smoke if they use low-smoke lubricants. These observations have two implications. One is that this project will help strengthen the enforcement of lubricant standards. Second, in selecting gross emitters to be scrapped, vehicle age and total kilometers traveled should be two key parameters aside from smoke measurements. The Bangkok Motorcycle Upgrade Project (MUP) 27 motorcycle owners to improve maintenance of their motorcycles. A structured process of test, minor repair, retest, possible major repair, and retest is expected to reduce the emissions of participating motorcycles. This process will also identify those motorcycles whose emissions cannot be brought in line with present in-use emissions standards. Current in-use emissions standards will be met by major repair, rehabilitation of the old motorcycles, and by encouraging replacements with new motorcycles. Improved community awareness will lead to sustained improvement in motorcycle maintenance and increasing compliance with emissions standards, leading to improved air quality and health outcomes. 3.8 Motorcycle owners will be encouraged to participate in the inspection and repair of motorcycles through the provision of financial and in-kind incentives by the private sector and promotion by industry, the Royal Thai Government (RTG), and BMA. Owners of motorcycles that produce excessive emissions and which cannot be repaired will be provided with incentives to trade-in their motorcycles for new ones through financial and in-kind incentives offered by the private sector supported by a financial incentive from the RTG. Traded-in motorcycles will be returned to manufacturers, which will either remanufacture or scrap them. Scrapping will be facilitated by the project paying the difference between the trade-in and scrap value of these motorcycles. Careful design and monitoring during project implementation will minimize fraud. The incentives are described in more detail later in this section. 3.9 Dealer outlets, with the backing of manufacturers, will be the entry points for the process. At the dealer outlets motorcycles entering the process will be tested by official testing stations (those authorized by the Land Transport Department) associated with participating dealers, or if test stations are not available, the same test procedures will be used by dealers.19 Depending on final negotiations with dealers and manufacturers, the project envisages utilizing some 20 outlets throughout Bangkok. Motorcycles that have been traded in will be passed on to the manufacturers for remanufacturing and scrappage. The penetration of the project will be extended by complementary involvement of Community Service Cooperatives (CSCs) as described in the sub-section below on the second component of the project. 19Under discussion at present is the possibility that dealers will be required to establish official inspection stations. The incremental cost over the criteria currently proposed is low and mainly consists of the permit fee of 20,000 baht. There are considerable benefits to motorcyclists entering the program, for they can do so as part of the normal annual testing and receive an official test certificate. In addition, the network of official inspection stations established under the project is the base from which the wider, high quality LTD-authorized inspection stations can be expanded. 28 Thailand: Reducing Emissions from Motorcycles in Bangkok Box 3: New and In-Use Motorcycle Emission Standards for Thailand A) Emission Standards (Air Pollution) for New Motorcycles Standard no. Level Reference standard Gazetted Enforced TIS.1105-1992 1 ECE R 40-00 (all types) 25 Aug. 1992 10 Aug. 1993 TIS.1185-1993 2 ECE R 40-01 (all types) 13 Sep. 1993 15 Mar. 1995 TIS. 1360-1996 3 CO ? 13g/km HC? 5g/km ? 110 cc 27 Sep. 1995 ----- ? 125 cc 26 Mar. 1996 ----- All types 26 Mar. 1996 1 July 1997 TIS.1650-1998 4 CO ? 4.5g/km 20 Jul 1999 HC + NOx ? 5g/km - White smoke ? 15% - Evap. ? g/test for 150 cc and up ? 110cc --------- 1 July 1999a ? 125cc --------- 1 July 2000a All types --------- 1 July 2001a TIS.---- 5 Select A or B A) ­Evap. ? g/test CO ? 3.5g/km HC + NOx ? 2g/km - White smoke ? 15% B) ­Evap. > 2 and ? 6 g/test CO ? 3.5g/km HC + NOx ? 1.8g/km - White smoke ? 15% for ? 110 cc ----- 1 July 2003* All types ------ 1 July 2004* 20Dates originally planned. Standards gazetted in July 1999 not enforced as of March 2001. B) Emission Standard for In-Use Motorcycles (Air Pollution Only) Standard Measuring system Measuring method 1. CO 4.5% NDIR Idle test 2. HC 1000 ppm NDIR Idle test 3. White smoke 30% Full flow opacity Fast accelerate at ¾ of maximum rpm. Source: PCD (2001). The Bangkok Motorcycle Upgrade Project (MUP) 29 3.10 Management and monitoring of the MUP will involve the following: (i) a Project Management Unit (PMU) within BMA, which will have overall responsibility for guiding the project; (ii) a contracted organization reporting to the PMU but otherwise independent of other organizations involved in the MUP, which will be responsible for managing a database of motorcycles tested, test results, and eligibility for payment for financial incentives and allowances; and (iii) a Financial Intermediary (FI), which will disburse funds for approved incentives and allowances. 3.11 The MUP process, which will be supported by monitoring, auditing, and a financial settlement system, is described in figure 2 and includes the following steps: ?? Step 1--Establish the MUP program and support capability; ?? Step 2--Initiate partnerships: Step 2A--Get community organizations involved; Step 2B--Get dealers and manufacturers involved; ?? Step 3--Attract motorcycle owners through promotion and marketing; ?? Step 4--Test and repair; ?? Step 5--Trade-in; ?? Step 6--Remanufacture traded-in motorcycle; and ?? Step 7--Scrap traded-in motorcycle. 30 Thailand: Reducing Emissions from Motorcycles in Bangkok Figure 2: The Motorcycle Upgrade Process Source: Project Study Team. Step 1--Establish the MUP program and support capability 3.12 This involves documentation of essential activities. The documents include: ?? Administrative procedures; ?? Marketing and promotional strategy for BMA (and other relevant government bodies) within which individual dealer promotions may operate; and ?? Expression of Interest (EOI) by which to solicit dealer and manufacturer involvement. Step 2--Initiate partnerships Step 2a--Get community organizations involved; and Step 2b--Get dealer-led consortia involved. 3.13 The activities in this step would seek and assess expressions of interest from community service cooperatives and dealers (backed by manufacturers) for participation in the upgrade process, and would establish agreements with participating bodies. Initial discussions have commenced. Approximately 20 dealer outlets were targeted for enhancement. The Bangkok Motorcycle Upgrade Project (MUP) 31 Step 3--Promotion and marketing 3.14 The activities in this step are designed to (i) promote the MUP, publicize eligibility criteria, and encourage participation in the program; (ii) increase public awareness of motorcycle pollution and the individual financial and community benefits of improved maintenance and driving behavior to encourage improved behavior; and (iii) increase public acceptance of stricter enforcement of current emissions standards. Step 4--Test and repair 3.15 The activities in this step, which are illustrated in figure 3, are designed to reduce emissions using a step-by-step approach. Each of the participating dealer outlets undertaking testing (including official dealer-run inspection stations) will be required to purchase modern computerized testing equipment to meet the specifications set under the project, which will minimize operator discretion. The resources will include the following: ?? Emissions measuring equipment; ?? Computers and associated software; ?? Enforcement cameras; ?? Capability to automatically print test results on controlled stationery; and ?? Communications links. 3.16 As part of the contract for the provision of resources, the supplier will be required to provide a three-year maintenance contract including training in correct use of the equipment. The test results will be linked online to the independent monitoring body (contracted by BMA's PMU) and LTD where links to LTD's driver licensing and vehicle registration system will be established to monitor the following: ?? The eligibility of motorcycles entering the program; ?? Whether eligible motorcyclists are entering more than once per year; and ?? The integrity of test results with alerts on abnormal results. 32 Thailand: Reducing Emissions from Motorcycles in Bangkok Figure 3: Step 4 - Test and Repair Source: Project Study Team. 3.17 The features of the test and repair process include the following: ?? A small socioeconomic survey of motorcyclists entering the system to permit monitoring and management (based on the survey undertaken during the clinics). ?? Requirements that motorcycles that are eligible to enter the MUP: ?? Be more than five years old (matching current LTD regulations requiring these motorcycles to undertake mandatory testing prior to re-registration); ?? Have been registered in the Bangkok Metropolitan Area for at least one year prior to the start of the MUP to avoid incentives being obtained for out-of-use motorcycles and motorcycles imported to Bangkok from elsewhere in Thailand; and ?? Not enter the program more than once per year. 3.18 It may be necessary to limit access to the MUP to motorcycles whose registration is to be renewed in the same month to smooth out demand. This requirement will fit well with the possibility of requiring all dealer outlets to establish official LTD inspection stations. The Bangkok Motorcycle Upgrade Project (MUP) 33 Eligibility for a trade-in coupon will be limited to old two-stroke motorcycles and be established as follows: ?? After Test 1, which all motorcycles entering MUP will be required to go through, two-stroke motorcycles that have failed the test and are over 10 years old (prior to 1991) will automatically be eligible to qualify for a trade-in coupon for the purchase of a new four-stroke motorcycle; and ?? Other motorcycles eligible to receive a trade-in coupon will be those two-stroke motorcycles that fail Test 2. 3.19 It is estimated that there are about 44,000 motorcycles currently in use in Bangkok that were manufactured prior to 1991. 3.20 The initial emissions test (Test 1) can be carried out by any of the official inspection stations involved in MUP21 or by tests conducted in approved dealers using official standards. Motorcycle owners will pay the standard LTD fee of 60 baht for this test. Incentives for minor and major repairs to motorcycles failing tests22 will only be offered at approved dealers. A test result23 will be issued after all tests on motorcycles to provide an auditable trail for all transactions under the MUP and to aid analysis of project impacts. Test 2, and minor repair and major repairs are to be offered by all participating dealers. Minor repairs and Test 2 (no charge to be applied) shall be done together at dealers (in other words, in one place). Major repairs should ideally be done at the same place or with same dealer but may take place at a different time. Major repairs are defined as providing up to any two of the following items: cylinder lining, new piston rings, replacement of oil pump, and replacement of the exhaust system. 3.21 Eligibility to receive a trade-in coupon (and therefore assumed to fail Test 3) will probably not depend solely on the test results but, as discussed above, on year of manufacture and type of motorcycle. 3.22 It is essential for the tests, minor repairs, and major repairs to be done by the dealers (however, motorcycles can leave the system and be taken to other dealers). This is essential for six reasons: ?? Repair skills sets are guaranteed to be at least at the minimum desirable level; ?? Minor repairs and tests should be able to be done by same body; ?? Major repairs skills are needed in order to decide upgrade options; 21 At present, of the more than 200 official private inspection centers in the Bangkok Metropolitan Region (BMR), only 71 inspect motorcycles, none do white smoke tests, and about 14 inspection stations are with the motorcycle dealerships. 22 A motorcycle will be deemed to have failed an emissions test if: (i) white smoke exceeds 30 percent opacity and any of the following are exceeded: (a) CO exceeds 4.5 percent, or (b) HC exceeds 10,000 ppm. These are the present in-use emissions standards for air pollution. The white smoke test is not a good proxy for a test to identify particulate matter (PM). It will fail to identify a motorcycle that emits high PM if the motorcycle uses, for example, JASO FC lube oil which is designed to eliminate white smoke. 23 This will be the test result automatically printed out by the computerized test equipment. If official LTD- registered inspection stations are involved after Tests 2 and 3 an official test form will also be issued. 34 Thailand: Reducing Emissions from Motorcycles in Bangkok ?? Once a dealer has the motorcycle in its system it would wish to keep it there-- which is part of the dealer's rationale for joining the program; ?? It will be more practical and economical for each dealer to provide the required resources at its own on-site inspection stations; ?? It is not desirable to promote inspection stations not participating in the program to do tests and repairs for the upgrade demonstration because of the inherent conflict of interest; and ?? It will be easier to monitor several dealers rather than many inspection stations. 3.23 For each motorcycle results of all tests will be communicated online to the independent monitoring body contracted to the PMU. 3.24 Careful monitoring of reported test results will be required through comparisons of test statistics and the possible occurrence of abnormal results. Also required is supervision and monitoring by a team of six staff members including a suitably qualified mechanical engineer and motorcycle inspection specialist who will check each center randomly and at least once per week. A hotline will be maintained for motorcyclists to report improper test practices. 3.25 Violations of test procedures and falsifying test results will be minimized by using the computerized test equipment with automatic printing of results; placing full responsibility for performance of the test equipment with the supplier; monitoring test quality by on-site random inspections; publicizing violations; refusing to reimburse the value of the trade-in coupon that dealers will claim in arrears; and in extreme cases, expelling the dealer from the program. Step 5--Trade-in 3.26 Key features of the trade-in process are as follows: ?? Dealers will issue the trade-in coupon. To minimize fraud, the coupon will be computer generated with the following clearly printed on it: ?? A unique serial number with date and time of issuance generated; ?? Date/time at which eligibility commences (24 hours after issue--this provides a "cool off" period, during which the participant can change-his or her mind) and expires (30 days later); ?? Details of the serial number of the associated motorcycle registration book with details of the brand and model of motorcycle, the details of the owner, motorcycle registration plate number, the period in which the motorcycle has been registered in Bangkok, and the serial number of the engine (and head pipe); ?? Results of Tests 1, 2 and 3; ?? The value of the coupon (incentives provided by the RTG/World Bank loan plus manufacturer incentives); and ?? The declaration that the coupon can be used at all participating dealers to ensure that the value of the incentive is retained by the eligible motorcycle owner. (A coupon issued by a third party would be just as vulnerable to fraud as one issued by a dealer--the main way fraud could occur would be for dealers to have the test The Bangkok Motorcycle Upgrade Project (MUP) 35 results faked. Monitoring and auditing of test procedures and results will be required. See above). 3.27 To ensure that traded-in motorcycles are actually transferred to manufacturers to be remanufactured or scrapped after a trade-in deal has been negotiated, reimbursement to the dealer of the value of trade-in coupons by the Financial Intermediary will take place after evidence of the transfer to the dealer of the traded-in motorcycles is provided. The best arrangement is that the motorcycle is sold to the manufacturer in the first instance (which avoids both the dealer and the manufacturer buying the motorcycle). That is, the dealer is authorized to purchase the motorcycle for the manufacturer. In addition to being efficient this mechanism is expected to assist in achieving a fair market price for the consumer as the manufacturer is expected to be averse to paying too much for the traded-in motorcycle and the dealer's incentive is to give the prospective buyer the best price at the manufacturer's expense. Hence, a fair price is expected to be achieved by the balancing of these two competing effects. Step 6--Remanufacture 3.28 Manufacturers will assess traded-in motorcycles to determine those for which remanufacturing to meet current in-use emission standards is financially viable. Remanufactured motorcycles will be tested and have their test results reported to the independent monitoring body contracted to the PMU prior to being resold. Step 7--Scrap 3.29 Traded-in motorcycles for which remanufacturing is not financially viable will be scrapped. The motorcycle will be officially de-registered, disassembled, and the engine and head pipe transferred to the independent monitoring body of the PMU after which they will be destroyed. Other parts of the motorcycles will be sold in the used parts market or scrapped. After that a claim to the financial intermediary for the scrap allowance can be made by the manufacturer. Outcomes 3.30 Through the MUP motorcycle inspection and maintenance process and public awareness program, owners of motorcycles will learn about good maintenance practice and the financial savings to be gained in addition to reduced emissions. In the long term, this improved awareness will lead to increasing compliance with the emissions standards. In addition, the new cleaner technology motorcycles in the market will improve air quality and reduce negative health impacts. The purchase of new motorcycles and remanufacturing or scrapping of traded-in motorcycles will remove a significant proportion of the most polluting motorcycles from the fleet. It is forecasted that a combination of economic recovery and the MUP will reduce the number of motorcycles that are more than five years old from over 290,000 in 2000 (42 percent of the motorcycle fleet in Bangkok) to about 180,000 in 2004 (21 percent of the forecasted fleet in that year). 3.31 Motorcycle improvement clinics conducted in 2000 indicate that 20 percent of motorcycles aged five years or fewer failed emissions tests, with the share rising to 35 percent for those older than five years. While the MUP will focus on the latter group, the public awareness program is expected to result in an improvement in the maintenance of younger motorcycles as well. It is expected that the share of older motorcycles failing emissions tests will 36 Thailand: Reducing Emissions from Motorcycles in Bangkok decline more substantially under the MUP because of the inspection and maintenance program, with the proportion failing expected to decline from the current 35 percent to 25 percent by the end of the project--the failure rate will be higher for older motorcycles because of mechanical wear. Improved Capacity for Pollution Management 3.32 A sustainable reduction in motorcycle emissions requires the active involvement of the responsible agencies in the project. This second component of the project involves the following: (i) improved LTD inspection system; (ii) participation of community service cooperatives, community groups, and others in motorcycle testing and repair and finance to both broaden the reach of the current project and to develop an increased capability to support lower- income groups, in particular with regard to access to resources that will help them own and operate motorcycles that meet emissions standards; and (iii) project implementation support. Improved LTD inspection system 3.33 The regulatory system for controlling emissions from motorcycles (and other vehicles), has been progressively improved through stricter emissions standards for new motorcycles, and stricter standards for 2T lubricant and fuel quality. Effective enforcement of in- use emissions standards has been lacking despite the establishment by LTD of the privately operated system of annual inspection for motorcycles older than five years as a condition for renewal of registration. The Land Transportation Department's system of private test centers involves a larger number of transactions and organizations, and there is a need to improve its effectiveness, in particular with regard to the extent to which designated vehicles are tested and the quality of the inspections that are undertaken. Technical assistance will be provided to the LTD to achieve the following: ?? Implement an effective program of emissions tests at all official private testing stations in Bangkok. This will require a review of the current standards and proposed testing procedures. ?? Link to the online test database and inspection stations initially operated under the Motorcycle Upgrade Demonstration Component as a prototype for the expansion of the LTD inspection system including the adoption of computerized emissions testing equipment. ?? Integrate inspection results, driver licensing, vehicle registration, and on-road enforcement systems. ?? Implement an improved management information system to monitor performance. ?? Improve the system of random checks and periodic monitoring of inspection stations. ?? Identify and expunge motorcycles that are no longer in use from the registration system. The Bangkok Motorcycle Upgrade Project (MUP) 37 Expanded community services 3.34 The penetration of the project will be extended by complementary involvement of Community Service Cooperatives (CSCs), which will become involved in improvements in the quality and the range of repair services, and associated emissions testing provided in local communities. The ability for owners of excessively polluting motorcycles to purchase a new motorcycle will be further facilitated by improving their access to community-based credit. 3.35 Technical assistance will be provided to CSCs in appraising local community capabilities, preparing proposals to participate in the MUP, raising standards for motorcycle inspection and maintenance; and building possible partnerships with motorcycle manufacturers and dealers. 3.36 The cost of obtaining credit for motorcycle purchases is high, reflecting in part the limited sources of financing and high costs (Box 4). Overall, the present high borrowing cost effectively doubles the cost of purchasing a new motorcycle and impedes the ability of owners to replace old motorcycles that cannot comply with emissions standards. To date there has been only limited finance available to motorcycle purchasers through community credit organizations. Such lending would have markedly lower, though still commercial, interest rates by reducing the need for high-risk premiums. The project will encourage the provision of finance through community credit organizations by fostering interest in the sector, using measures such as workshops, networking, and provision of standard paperwork. It will not become directly involved in the provision of finance. 3.37 The Government Savings Bank (GSB) will foster the provision of financing to community credit cooperatives that can demonstrate satisfactory performance in loan supervision. These cooperatives would then lend (on-lend) to their members for motorcycle purchases. This would substantially improve the capacity of lower-income groups to purchase new motorcycles by utilizing the characteristic ability of community credit cooperatives to use peer pressure and support through small groups to minimize arrears and defaults on loan repayments and, thereby, substantially reduce the effective cost of capital for such a program. GSB lending to qualifying community credit cooperatives would be at a rate of about eight percent per year. Cooperatives would, in turn, lend at rates of 15­20 percent per year (that is, less than half the current rate of interest on loans from finance companies) to meet the cost of origination and supervision costs as well as default risks and to support a desirable expansion of community credit. It may be possible for well-organized community groups to secure greater benefits for their members, negotiating contracts with manufacturers for the provision of motorcycles at discounted prices24. 24Similar schemes have been implemented in the past to reduce the cost of financing for new motorcycle acquisition. The most notable is a scheme of the Teachers Association, which established a one-year contract with a motorcycle manufacturer (set on the basis of competitive tenders) for set, discounted prices for motorcycles to members, and provision of financing. 38 Thailand: Reducing Emissions from Motorcycles in Bangkok Box 4: Motorcycle Financing About three-quarters of motorcycle purchases in Bangkok involve commercial financing. Most of this is provided by eight private companies--two of which hold about 50­60 percent of the market. These financing concerns are currently unlicensed; obtain their capital primarily from equity investors; and to a lesser extent, acquire commercial loans fro m other capital markets and banks. The companies have relationships with numerous dealers that usually have connections with several finance companies. Financing companies hold their own records on the repayment risk of borrowers, but share some information, in cases in which fraud may be involved. The features of loans for motorcycles include the following: ?? Loans are up to about 85­90 percent of the cost of a four-stroke motorcycle, a little less for two-stroke motorcycles because of their higher depreciation rate, and about 70 percent for motorcycles with large engines. Borrowers commonly draw on the maximum loan amount. ?? Theft and total loss insurance is required for the duration of the loan. (This is a recent innovation, and is reported to have lowered interest rates by removing a previously added risk premium.) ?? Loan terms are 12­30 months, with an average duration of 22 months. ?? Principal is repaid in each monthly installment. ?? A flat interest rate is used, currently between about 2.0 and 2.4 percent per month, on the initial principal for loans (equivalent to interest rates on the outstanding principal of 50­60 percent per year, respectively). The actual interest rate is linked to the share of the motorcycle cost being financed with the loan. Bad debts resulting from stolen and written off motorcycles and fraud may occur in up to about five percent of the loans. In addition, some 20­25 percent of motorcycles are repossessed as a result of loan default. Consumer protection legislation requires that a borrower be given a three-month grace period for debt service before repossession occurs. Borrowers are reported to generally seek to minimize the down payment for a new motorcycle (and thus use the maximum loan), and to focus on the total cost of debt service rather than the interest rate or loan structure. This may be linked to the lower income of borrowers (who live in households with income that is below the average for Bangkok) and the use of a high proportion of motorcycles for business purposes (in which case the cost of the motorcycle is compared with income generated from its use). Incentives under the MUP 3.38 The emissions characteristics of the motorcycle fleet will gradually improve as new motorcycles are purchased and old motorcycles are scrapped or relocated from Bangkok. Providing incentives will accelerate this process, to achieve a more rapid and significant improvement in the maintenance of current motorcycles and replacement of irreparable, excessively polluting motorcycles. The incentives respond, in particular, to two market imperfections: ?? The current weak regulatory system that enables some motorcycles not meeting emissions standards to be re-registered; and ?? The current use of motorcycles in poor mechanical condition, which indicates that owners do not judge the financial savings of trade-in allowances or improved maintenance to be sufficient in justifying the needed expenditure. The Bangkok Motorcycle Upgrade Project (MUP) 39 3.39 However, the major costs to be financed from the proceeds of the bank loan relate to incentives at an estimated 4,000 baht (equivalent to US$95) for 30,000 old, two-stroke-engine motorcycles expected to be traded in for new motorcycles; and at 5,000 baht (equivalent to US$120) for 15,000 of these that cannot be modified economically to meet present emissions standards required to be scrapped and removed from LTD's vehicle register. Cost estimates for the trade-in and scrappage allowances are based on significantly lower estimates of the number of currently operating motorcycles in Bangkok than is indicated by LTD's vehicle register. However, a physical contingency has been included to provide a five percent increase in the number of motorcycles eligible for these allowances. A five percent price contingency has also been included to enable these allowances to be adjusted upwards, if necessary, in light of consumer response. Incentives for the Inspection and Repair of Existing Motorcycles 3.40 Data from the motorcycle clinics held in May and July 2000 indicate that almost half of participating motorcycle owners considered their vehicles to be in poor or very poor condition, even though a smaller proportion failed tests. Therefore it is expected that owners will participate in the program voluntarily and a publicly provided incentive for testing and minor repair will not be made available since (i) the public awareness program under the project is expected to further improve the motorcycle owners' perception of financial and environmental costs; and (ii) the combination of industry-provided incentives and the realistic prospect of reduced motorcycle operating costs will further contribute to voluntary participation. The incentives will include free spark plugs, oil, tuning, and other gifts with an average value of about 30 baht per motorcycle that is tested. In addition, the industry will provide spare parts at discounted costs (20­50 percent off) in cases in which a major repair is required. Motorcycle and spare part manufacturers and dealers have confirmed that the industry remains willing to provide these incentives, at least on a periodic basis, as part of its marketing programs directed to increasing sales volume and market share for its products. It is expected that all motorcycles that are more than five years old will pass though the process of inspection and repair at least once, and possibly twice during the project. Based on the experience with the motorcycle clinics conducted to date, it is expected that 60 percent of motorcycles that fail an initial test will pass the test after a minor repair, with a further 10 percent being able to meet current emissions standards with a major repair. The remaining 30 percent that fail the initial test will need remanufacturing to meet current emissions standards or scrapping: owners will be provided a coupon that entitles them to receive incentives if they should trade in the motorcycle for a new one. Incentives for the Trade-In of Existing Motorcycles 3.41 Incentives to be made available to owners of motorcycles that cannot be restored to meet current emissions standards with a major repair will be redeemable through participating dealers when the motorcycle to which the coupon is linked is traded in for a new motorcycle. The incentives will not be provided if a new motorcycle is not purchased, or if the motorcycle to be traded in does not have an eligible coupon. The incentives available to an owner trading in their motorcycle will include the following: 40 Thailand: Reducing Emissions from Motorcycles in Bangkok ?? A Trade-in Incentive worth 4,000 baht (equivalent to US$95), financed by the RTG using proceeds of the Bank loan and domestic resources. Owners of an eligible motorcycle will be able to redeem the value of the coupon at any of the participating dealers, which operate in a competitive market, to ensure that the full value of the Trade-in Incentive offered through the project is passed on by the dealer to the motorcycle owner. Having established the cost of a new motorcycle and the trade-in value of the old motorcycle, the dealer will reduce the net cost to the person of trading up to a new motorcycle by 4,000 baht, and will subsequently be reimbursed the money from the project. ?? Discounts offered by dealers, largely drawing on industry support. The discounts will include the following: ?? A discount of about 4,400 baht drawing on (a) a discount offered by manufacturers and dealers equal to about 5 percent of the cost of motorcycles (estimated value 2,100 baht per motorcycle), reflecting corporate interest in the potential increased sales volume (and resulting lower average supply cost) from participation in the project, and (b) a 50 percent discount on the cost of the theft and write-off insurance and cancellation of the usual 1,000 baht security deposit for loan repayment, financed by dealers and finance companies (with an estimated value of 2,300 baht); and ?? A reduction in the interest rate for credit financing, from 2.4 percent at present to about two percent, provided by financing companies in recognition of the amount to be financed because of the other discounts offered to borrowers, and hence the lower risk of default (with a present value of up to about 1,300 baht). 3.42 Based on the experience with the motorcycle clinics, it is expected that about half of the owners of motorcycles for which coupons are issued will take advantage of these discounts and trade in their motorcycles for a new one. All traded-in motorcycles will be sold to manufacturers to be remanufactured to meet current emissions standards, or scrapped. Recycling Traded-In Motorcycles 3.43 No financial incentive will be provided for the remanufacturing of traded-in motorcycles. Remanufacturing is likely to be viable only when (i) replacement parts can be obtained at wholesale prices; and (ii) the work is undertaken by a company with a market presence that provides subsequent purchasers with the confidence that the remanufactured motorcycles are of good quality. Motorcycle manufacturers are best qualified for this, and are able to work with dealers to ensure that the trade-in cost is appropriate. 3.44 Average costs associated with remanufacturing and reselling motorcycles and of corresponding new motorcycles are shown in Table 3.1. The maximum potential resale price for remanufactured motorcycles of the type expected to be traded in is expected to be around 70 percent of the cost of an equivalent new motorcycle, if supported by a manufacturer. Given typical depreciation schedules for motorcycles, the trade-in values shown in Table 3.1 represent motorcycles that are, on average, about six years old (for motorcycles with engine capacity of up The Bangkok Motorcycle Upgrade Project (MUP) 41 to 125 cc) and five years old (for motorcycles with engine capacity between 126 and 150 cc). That is, it appears that the motorcycles likely to be traded in through the project will not have such high value that remanufacturing will not be financially viable to manufacturers. 3.45 In some instances, however, remanufacturing will not be financially viable because either (i) it is not possible to remanufacture traded-in motorcycles originally manufactured in 1993 or earlier to meet current emissions standards because of engineering constraints­­these motorcycles will be at least eight years old by the time the project commences; or (ii) the cost of remanufacturing and reselling motorcycles that are about eight years old or older will generally exceed the price at which they can be sold. The average trade-in value of motorcycles aged eight years or older is expected to be about 6,000 baht and 10,000 baht, respectively for motorcycles with engine capacity of up to 125 cc and 126­150 cc giving a weighted average of about 7,000 baht. By contrast, the value of spare parts that can be salvaged from these motorcycles, after removal of the engine and head pipe, is about 2,000 baht per motorcycle. A scrappage allowance of 5,000 baht (US$117) will therefore be paid to manufacturers to scrap these motorcycles, that is, to compensate industry for disabling the engine and head pipe, thereby preventing the old polluting motorcycle from being resold. It is expected that about 50 percent of traded-in motorcycles will be scrapped, and the remaining 50 percent will be remanufactured. 42 Thailand: Reducing Emissions from Motorcycles in Bangkok Table 3.1: Cost of Remanufacturing Motorcycles Activity Average cost (baht)25 up to125 cc 126­150 cc Cost of traded-in motorcycle 13,000 27,000 Cost of remanufacturing: (a) Engine upgrading (that is, resleeving the 5,000 7,000 cylinder, a new piston and piston rings, replacing the oil pump and exhaust system, and other small items) (b) marketing-oriented improvements (for 8,000 10,000 example, new seat, handle grips, painting, and the like) Administration and resale costs 4,000 4,000 Resale price for remanufactured motorcycle 30,000 48,000 Cost of new motorcycle 35,000­50,000 60,000­75,000 (average 42,500) (average 67,500) 25Costs can vary among individual motorcycles. Higher-value motorcycles will generally require less extensive remanufacturing, and vice versa. At present, about 90 percent of sales are for motorcycles with engine capacity up to 125 cc and the remainders are for larger motorcycles. 3.46 The incentives provided under the motorcycle-upgrading program by various stakeholders are summarized in Table 3.2. Table 3.2: Financing of Various Stakeholders to the Motorcycle Upgrade Program Step No. of Individuals Government/World Manufacturers/Dealers MCs Bank Promotion n.a. No Yes Yes 50 baht per entering Test 250,000 60 baht MC to manufacturer No net cost Minor repair 80,000 0 0 30 baht per MC At cost Discounted parts and Major repair 3,000 0 (discount) labor 4,000 baht for MC to Matching incentives for Trade-in 21,000 Old MC individual via coupon new MC No net cost--recover Remanufacture 10,500 0 0 through sales 5,000 baht per Scrap 10,500 0 scrapped MC to No net cost manufacturer n.a. Not applicable. Costs and Benefits of the MUP 3.47 There are large economic benefits from reductions in health care costs and resulting productivity gains (decreased incidence of illness and premature deaths due to respiratory and cardiovascular diseases). Information regarding health studies and economic The Bangkok Motorcycle Upgrade Project (MUP) 43 estimates suggests that the health impact (morbidity and mortality) of air pollution exposure is in the range of US$0.5 to 3 billion per year. All studies indicate that substantial benefits are likely, in terms of improved health, productivity, and quality of life, from reducing exposure to ambient PM10 in Bangkok. Fuel savings of about 40 percent are expected to result from replacing old, two-stroke-engine motorcycles with new, four-stroke-engine motorcycles. Additional benefits include improved transport services and better institutional capacity. 3.48 The major health benefits will accrue to the residents of Bangkok who spend time along the transport corridors (motorcyclists, street-side vendors, public transport drivers, traffic police, and others on the road) and people living in the BMR who make daily trips to and within the city. The poor are particularly vulnerable, owing to above-average physical exposure to the air pollution, especially particulate matter. Motorcyclists are expected to achieve significant fuel economy savings owing to maintenance improvements and the switch to newer technology (generally four-stroke). Some of the policy changes will benefit areas well beyond Bangkok. 3.49 Overall, the net present value of the costs is US$9.7 million, that of the benefits is US$29.9 million, and therefore that of net benefits is nearly US$20.3 million, yielding a benefit- to-cost ratio of 3.1 and ERR of 102 percent. Because assumptions used in estimating benefits are very conservative, these results can be presented with much confidence for the benefits of this project. The actual benefits are expected to be comparatively higher (see Annex 2). 3.50 Benefits that have been valued include public health improvements and greater fuel economy. The costs involved for the motorcycle upgrade and associated components include project management; I/M program for the MUP; LTD I/M program strengthening; and tune-ups, major repairs, scrappage, bringing forward the date of new vehicle purchase, and incentives offered. 4 Conclusion 4.1 Traffic congestion and associated poor air quality have traditionally been major problems in Bangkok. According to the PCD, the transport sector accounts for the majority of air pollution in the BMR. Although there has been a decrease in the recent years, results monitored over the past 10 years indicate that the ambient levels of particulates smaller than 10 microns (PM10) and carbon monoxide (CO), are of the greatest concern in Bangkok. Owing to increase in nitrogen oxides (NOx) and hydrocarbons (HC) emissions, potential of increasing ozone levels exists. 4.2 A series of extensive studies has demonstrated a clear association between the ambient PM10 concentrations and various health-related issues--mortality, hospital admissions, emergency room visits, time off school or work, respiratory symptoms, exacerbation of asthma, and changes in lung function. 4.3 Motorcycles, especially those with two-stroke engines, are significant sources of PM. These engines mix lubricating oil with fuel. The oil is often partly burned and is emitted through the exhaust as a mixture of toxic liquid and carbon-based particles. 4.4 There are approximately 700,000 in-use motorcycles in Bangkok, of which 80 percent are two-stroke. Although sales of four-stroke motorcycles have picked up significantly over the past few years (with sales growing about 70 percent in 2000), it will take many years before the polluting stock of motorcycles is phased out. 4.5 The Bangkok Motorcycle Upgrade Project (MUP) uses an innovative approach to accelerate the phasing-out of polluting motorcycles by targeting gross-polluting motorcycles in the city and surrounding region. The MUP is designed to "buy back" pollution from the polluters, through the partnership of private and public sectors--namely the motorcycle manufacturers, the government, the motorcycle owners, and donors. The project also aims to improve capacity for air pollution management through improved inspection and maintenance systems on both the government and the community levels. With careful project design and a diligent selection process, incentives provided by various stakeholders will assist in the upgrading of the gross-polluting motorcycles to new nonpolluting ones. Improved inspection and maintenance capacity will help reduce emissions in the medium to long term. 4.6 The cost of the project will mainly consist of the incentives provided for the upgrade. Other costs include management expenditures and costs associated with establishing a new inspection and maintenance system. The benefits of the project are, nevertheless, approximately three times the project costs, taking into account the improved health and reduced 45 46 Thailand: Reducing Emissions from Motorcycles in Bangkok mortality resulting from reduced motorcycle emissions. If the gains were to include the profits that manufacturers will receive based on increased sales or the reduced costs to motorcycle owners based on decreased motorcycle maintenance and repair expenses, the benefits of the project would be expressed in even higher figures. 4.7 In designing the MUP, motorcycle clinics were conducted in 2000. The clinics provided a wealth of socioeconomic and motorcycle usage information on owners and emissions information on the motorcycles. The clinics not only provided valuable inputs to the design of the MUP, but also raised air pollution awareness and, most important, initiated collaboration among stakeholders in an innovative manner. There were many insightful lessons learned from the motorcycle clinics. The main lessons learned and how these are being addressed in the design of the MUP are summarized in Table 4.1. 4.8 The MUP is highly replicable and flexible. The project concept is neither motorcycle nor Thailand specific; it can be applied to other mobile sources of air pollution. Moreover, the incentives and the components can be adjusted based on the amount of funds available. For example, the value and number of incentives may be decreased if the project needs to target a smaller number of polluting vehicles, or scrap allowance may be eliminated if vehicles that are traded in are allowed to be sold elsewhere. Conclusion 47 Table 4.1: Lessons Learned from the Motorcycle Clinics and MUP Design Considerations Lessons learned MUP design considerations 1. Thailand a. Institutional development Institutional fragmentation hampers This requires a long-term approach. In the coordinated approach to air quality immediate and limited context, the MUP management in Bangkok is designed to demonstrate interagency cooperation Lack of capacity in the public sector MUP design includes capacity building constrains operational performance of for staff to improve operational agencies responsible for enforcement and performance of relevant government monitoring of air quality agencies Corruption and fraud are major concerns Careful design, supervision, independent monitoring and audits, coverage by news media, along with computerized record keeping is expected to minimize illegal activities Community and public consultation process Communities and media are being positively shapes the design and promotes consulted as a part of the MUP integrated approaches and ownership preparation and will be integral to the project design to provide feedback through implementation Involvement of the private sector is Involvement of manufacturers and dealers important is an integral part of the project design Defining clear targets and responsibilities is Integrated Air Quality Management Plan desirable for Bangkok to be prepared and endorsed by the BMA and sector agencies Strong leadership is important Successive Bangkok governors have committed to tackling the air pollution problem and have indicated their support publicly, especially concerning pollution from motorcycles b. Enforcement The knowledge-base and analytical capacity The Motorcycle Clinics and other need to built up throughout technical and preparatory activities have initiated this executive levels process and the project builds upon existing studies and data to strengthen procedures, systems, and analytical capacity for integrated air quality management at all levels The appropriate legal basis for needed This is to be pursued through policy improvements has to be obtained dialogue Public awareness and education campaigns Awareness raising is being undertaken by are important BMA and GSB and is included in the project There is a lack of incentives to comply with This concern is included in the project regulations design 48 Thailand: Reducing Emissions from Motorcycles in Bangkok Lessons learned MUP design considerations Implementation of regulatory measures MUP proposes to increase compliance suffers from weak monitoring and through implementation of a traditional enforcement regulatory and enforcement mechanism with innovative market approaches Involvement of the private sector is The project will promote its enforcement important mechanism through the private sector On-street enforcement should be an integral The police will be involved in project part of the traffic management program design; design of incentive scheme will reward enforcement efforts 2. Global experience Air quality management is complex and The Integrated Air Quality Management requires cross-sectoral responses Plan for Bangkok will involve all key agencies Source control and fuel quality Investment component will focus on improvements are more effective than engine upgrades and shift from two-stroke tailpipe exhaust control to four-stroke. Thailand has made substantial progress in improving fuel quality and is keen to continue its good track-record Public participation and partnerships with Included in the MUP design relevant stakeholders should be supported New approaches to pollution control are MUP promotes implementation of designed to be flexible, be efficient, promote innovative approaches and building of eco-reforms, and fit specific characteristics staff skills for improving air quality of individual countries Institutional capacity building is complex and The project sets our clear targets with requires cross-sectoral collaboration, incentives and relies on public­private flexibility, and clear targets and partnership to demonstrate usefulness of responsibilities collaboration within and outside the government agencies Annex 1 The Bangkok Motorcycle Market Introduction A1.1 The purpose of this working paper is to describe key features of the market for new and second-hand motorcycles in Thailand but particularly in the Bangkok Metropolitan Area (BMA) or Bangkok. The Bangkok Metropolitan Region (BMR) is a larger area covering the four neighboring provinces of Pathum Thani, Nonthaburi, Samut Prakan, and Samut Sakon. Since BMA represents some 90 percent of all registered motorcycles in the BMR as shown below, this paper refers mainly to the BMA. A1.2 The scope of the paper is as follows: ?? The domestic market for new motorcycles, major brands and market shares, dealership structure, and sales margins; ?? Consumer preferences for new and second-hand motorcycles--in particular the cascading effect of older motorcycles from Bangkok to up-country provinces; ?? Key features of the second-hand market; ?? Taxes and official charges to get a new motorcycle on the road (that is, on-road costs); ?? What happens to old or written-off motorcycles; ?? The existing in-use motorcycle fleet--its volume and characteristics including estimated age distribution, and the role of motorcycle taxis and other major motorcycle fleets (covering the most intensively used motorcycles); ?? Sources of motorcycle financing and aspects of financing credit; and ?? Data on second-hand motorcycle prices, which are used to determine typical depreciation schedules for motorcycles. The New Motorcycle Market A1.3 New motorcycle production and sales data for 2000 is set out in Table A1.1. In 2000, 1.126 million motorcycles, up from 0.846 million in 1999, were assembled in Thailand mostly by the four major Japanese brands of Honda, Kawasaki, Suzuki, and Yamaha. There are 49 50 Thailand: Reducing Emissions from Motorcycles in Bangkok at least four other companies that currently assemble or are considering assembly in Thailand including Cagiva (Italy) and potentially one or two Chinese manufacturers. A1.4 In 2000, of total motorcycle production, 784,000 were officially sold into the Thailand domestic market although some 150,000 motorcycles were exported to neighboring countries (these are often called "gray" exports). Hence, total domestic sales of new motorcycles are estimated to be around 630,000 for the year 2000. The Bangkok Motorcycle Market 51 Table A1.1 Motorcycle Production and Export Record by Month, 2000 Production record Export record Spare part Month/Units Total Moped Sport Total CBU&CKD Value OEM&parts Value units units units amount units baht sets baht (million) baht (million) (million) JANUARY 87,280 83,637 3,643 617.05 16,958 450.97 81,690 162.46 3.62 FEBRUARY 98,095 94,7885 3,210 634.17 17,361 452.74 151,000 174.34 7.09 MARCH 114,936 112,415 2,521 822.52 20,844 563.05 133,960 248.88 10.59 APRIL 90,899 88,940 1,959 892.35 23,931 651.88 106,040 231.89 8.58 MAY 106,797 103,309 3,488 1,085.70 29,418 872.34 167,357 201.44 11.92 JUNE 102,778 98,988 3,790 455.57 23,086 228.45 81,120 210.04 17.08 JULY 80,369 77,475 2,894 883.71 19,724 690.11 68,000 177.66 15.94 AUGUST 87,215 84,987 2,228 1,178.12 32,173 879.07 87,680 280.86 18.19 SEPTEMBER 81,573 79,261 2,312 942.20 23,932 694.40 51,880 223.76 24.04 OCTOBER 84,078 80,586 3,492 885.09 23,055 654.64 81,520 207.68 22.77 NOVEMBER 98,074 94,907 3,167 1,226.08 26,986 973.51 80,960 237.25 15.32 DECEMBER 93,629 90,086 3,543 1,167.55 9,780 309.88 75,430 824.07 33.60 TOTAL (2000) 1,125,723 1,089,476 36,247 10,790.11 267,248 7,421.04 1,166,637 3,180.33 188.74 TOTAL (1999) 846,426 810,920 35,506 8,506.48 214,310 6,330.10 41,446 2,012.62 163.76 Source: Automotive Industry Club, Federation of Thai Industries. 52 Thailand: Reducing Emissions from Motorcycles in Bangkok A1.5 In 2000, as shown in Table A1.2, LTD's official registration statistics show that 107,856 new motorcycles were registered in BMA. While significantly higher than figures in 1997 and 1998 (when the effect of the Asian economic and financial crisis were most severe), this volume is only 68 percent of the average annual new motorcycle registrations for BMA over the period 1989­2000 as shown in Table A1.3. Table A1.2 Number of New Motorcycles Registered in BMA, 1997­2000 Year No. of new registrations Growth rate per year (% pa) 2000 107,856 +25.0% 1999 86,299 +12.2% 1998 76,915 -49.7% 1997 152,905 - 29.23% 1996 216,054 -20.10% 1995 270,345 - Source: LTD (2001). Table A1.3 Number of New Motorcycles Registered in BMA by Engine Type, 1989­2000 Year No. of new motorcycles registered in BMA Growth rate (% pa) Two-stroke Four-stroke Total new registrations Average over 159,390 n.a. 1989 to 2000 143,817 15,573 2000 43,686 64,170 107,856 +22.8% 1999 49,748 38,074 87,822 +24.8% 1998 50,998 19,381 70,379 ­47.7% 1997 119,792 14,738 134,538 ­29.5% 1996 179,032 11,744 190,776 ­21.9% 1995 233,624 7,585 241,209 ­1.4% 1994 239,159 5,466 244,625 +11.5% 1993 213,455 5,884 219,339 +31.4% 1992 163,786 3,205 166,991 +6.1% 1991 154,009 3,348 157,377 +92.7% 1990 164,437 5,321 169,758 +38.4% 1989 114,081 7,954 122,035 n.a __. Not available; n.a. Not applicable. Notes: Totals do not include approximately 900 vehicles registered under the "other" category. Source: Honda (1998 data ) and LTD (1999 and 2000 data). The Bangkok Motorcycle Market 53 A1.6 Data shown in Table A1.3 indicate that in BMA the share of four-stroke motorcycles in new registrations has rapidly increased since 1996. In 2000, four-stroke motorcycles represented some 59 percent of all new registrations (and hence new motorcycle sales). For Thailand as a whole in 2000 the share of four-stroke motorcycles was almost 70 percent of new motorcycle sales as shown in Table A1.4. Table A1.4 Number of New Motorcycles Sales, Thailand, by Engine Type, 1996­2000 Year No. and % of new motorcycles sales, Thailand Two-stroke Four-stroke Total new sales 2000 238,000 551,000 789,000 (31.2%) (69.8%) (100.0%) 1999 287,000 311,000 598,000 (48.0%) (52.0%) (100.0%) 1998 288,000 233,000 521,000 (55.3%) (44.7%) (100.0%) 1997 677,000 233,000 910,000 (74.4%) (25.6%) (100.0%) 1996 1,016,000 221,000 1,237,000 (82.1%) (17.9%) (100.0%) Notes: Sales figure of 789,000 slightly differs from the figure of 784,000 shown in annex Table 1.5. Source: Automotive Industry Club, Federation of Thai Industries (2001). A1.7 Data for 2000 for Thailand shows that Honda has the overwhelming market share (72 percent); followed by Suzuki (13.6 percent), Yamaha (11.9 percent), and Kawasaki (2.3 percent) (Table A1.5). In Bangkok, the picture appears to be slightly different as shown in Tables A1.6 and A1.7 that show data on January 2001 and December 2000 motorcycle registrations. Here Honda appears to have a market share approaching 85 percent. Since 2000, Honda has only been manufacturing four-stroke motorcycles in Thailand and hence, because of it dominates four-stroke motorcycle production, sales are expected to grow rapidly. By 2002, sales of four- stroke motorcycles are likely to reach 80 percent. Other manufacturers are following suit with four-stroke motorcycle production. Table A1.5 Domestic Motorcycle Sales, Thailand, 2000 Brand Total units sold Market share (%) Honda 565,294 72.1 Yamaha 93,520 11.9 Suzuki 106,541 13.6 Kawasaki 18,261 2.3 Cagiva 62 NS Total 783,678 100.0% Source: Automotive Industry Club, Federation of Thai Industries (2001). 54 Thailand: Reducing Emissions from Motorcycles in Bangkok Table A1.6 New Motorcycle Registrations in BMA, January 2001 Manufacturer Engine size (cc) Total Market share < 100 101­125 126­150 > 151 Baco 0 0 1 0 1 NS Cagiva 0 14 0 0 14 NS Healey 0 0 0 2 2 NS Honda 278 7,749 167 1 8,195 87% Harley Davidson 0 0 0 2 2 NS Kawasaki 0 344 240 149 733 7.8% Mnnek 0 1 0 0 1 NS Piaggio 0 0 10 0 10 NS Piaggio 0 0 5 0 5 NS Suzuki 43 184 7 0 234 2.5% Yamaha 0 200 15 1 216 2.3% Total 321 8,492 445 155 9,413 100% % by Engine Size 3.4% 90.2% 4.7% 1.6% 100% Source: LTD (2001). Table A1.7 New Motorcycle Registrations in BMA, December 2000 Manufacturer Engine size (cc) Total Market share < 100 101­125 126­150 > 151 Autobianchai 0 1 0 0 1 NS BMW 0 0 0 5 5 NS Honda 140 4,300 98 1 4,539 82.6 Harley Davidson 0 0 0 11 11 NS Kawasaki 0 203 152 106 461 8.4 Mnnek 0 1 0 0 1 NS Piaggio 0 0 1 0 1 NS Piaggio 0 0 1 0 1 NS Suzuki 58 277 4 0 339 6.2 Yamaha 0 117 20 0 137 2.5 Total 198 4,899 276 123 5,496 100% % by Engine Size 3.6% 89.1% 5.0% 2.2% 100% Source: LTD (2001). The Bangkok Motorcycle Market 55 A1.8 Over 90 percent of new motorcycle sales are for motorcycles with an engine size less than 150cc. This is true of the existing fleet as well. The main reasons that these small- engine motorcycles are popular here appear to be because: ?? Prices for smaller motorcycles are lower (than for larger-engine motorcycles)--a typical new 110 cc motorcycle costs 40,000 baht compared to 65,000 baht, for example, for a motorcycle with an engine size of 150 cc; ?? Smaller motorcycles are more maneuverable and therefore better suited to Bangkok's congested traffic conditions; and ?? Smaller motorcycles are better matched to the physique of most Thai motorcycle riders. The Second-Hand Motorcycle Market A1.9 As shown in Table A1.8, since 1997, sales of second-hand motorcycles have held up better than new motorcycle sales, but overall sales (of new and second-hand motorcycles) have declined. Second-hand sales exceeded new motorcycle sales by 47 percent in 1998 and 72 percent in 1999 for Thailand as a whole. Total sales of second-hand and new motorcycles declined from 2.15 million in 1996 to 1.27 million in 1999. For Bangkok, sales of second-hand motorcycles were 77 percent of new motorcycle sales in 1995 but exceeded new motorcycle sales by 44 percent in 1997, 131 percent in 1998, and 74 percent in 1999. Total sales of second- hand and new motorcycles in Bangkok declined from 0.478 million in 1995 to 0.444 million in 1996, to 0.372 million in 1997, to 0.255 million in 1998, and to 0.236 million in 1999. Table A1.8 Estimated Volume of Second-Hand Motorcycle Sales, Thailand and Bangkok, 1997­99 Location / Year No. of transfers of ownership of No. of new MCs registered in-use MCs (equals sales of (equals new MC sales) second-hand MCs) Thailand 1999 804,368 465,705 1998 883,143 602,647 1997 896,408 1,086,175 1996 871,653 1,281,186 1995 736,469 1,283,771 Bangkok 1999 149,997 86,299 1998 178,412 76,915 1997 219,304 152,905 1996 228,072 216,054 1995 207,581 270,345 Source: LTD (2000). 56 Thailand: Reducing Emissions from Motorcycles in Bangkok A1.10 Owing to consumer preferences for purchasing a new or relatively new motorcycle (that is, under two years old), there is a large flow of motorcycles out of Bangkok to the up-country provinces. Table A1.9 shows that each year approximately the registrations of 200,000 motorcycles are transferred between provinces with over half attributable to motorcycles being transferred from Bangkok. From 1995 to 1999, the number of motorcycles transferred out from Bangkok has declined from 116,207 to 75,786--or by 35 percent--indicating, with reduced motorcycle purchases, that during the economic crisis Bangkok motorcyclists were holding on to their motorcycles longer. Table A1.9 Number of Geographic Transfers of Motorcycle Registrations, Thailand and Bangkok, 1997­99 Year Bangkok Thailand In Out In Out 1999 3,752 75,786 175,725 184,807 1998 2,969 99,946 197,383 202,858 1997 2,331 117,580 205,940 220,854 1996 2,188 129,181 211,307 235,710 1995 2,391 116,207 199,910 223,705 Source: LTD (2000). A1.11 The effects of a decline in new motorcycle sales since the mid-1990s has led to a decline in the size of the in-use motorcycle fleet since 1995. From 1995 to 1999, the registered (that is, legal) in-use motorcycle fleet declined from 961,782 to 717,129 or by 25 percent (Table A1.10). Table A1.10 Estimated In-Use Motorcycle Fleet and Annual Change in Bangkok, 1995­1999 Year No. of new MCs No. of re- Total (legal) Annual change registered registrations in-use MC in in-use MCs fleet 1999 86,299 630,380 716,679 ­39,602 1998 76,915 679,366 756,281 ­137,580 1997 152,905 740,956 893,861 ­69,227 1996 216,054 747,034 963,088 +1,306 1995 270,345 691,437 961,782 n.a. n.a. Not applicable. Source: LTD (2000). Retirement and Scrap A1.12 For Bangkok, as shown in Table A1.11, the estimated normal retirement (and possibly more than normal illegal use) is estimated to have been 87,755 in 1996, 106,883 in The Bangkok Motorcycle Market 57 1997, 117,180 in 1998, and 53,867 in 1999--or 9, 11, 13, and 7 percent of the in-use fleet, respectively. This estimated retirement is in addition to the effects of moving of motorcycles older than two or three years up-country. The retired motorcycles may be: ?? Left unregistered or be formally de-registered and be retained in private or company yards--some may be used very occasionally; or ?? Scrapped for parts. Table A1.11 Estimated Retirement of In-Use Motorcycle Fleet in Bangkok, 1995­99 Year 1 2 3 4 5 5­4 % of No. of new Transfers Transfers Net Annual Estimated estimated MCs to out change change no. of MCs retirement registered Bangkok of (1+2­3) in in-use retired or or (equals new Bangkok MCs26 additional additional MC sales) illegal use illegal use of previous year's fleet 1999 +14,265 +86,299 +3,752 ­75,786 ­39,602 ­53,867 ­7.1% 1998 ­ +76,915 +2,969 ­99,946 ­20,062 ­137,580 117,180 ­13.1% 1997 ­ +152,905 +2,331 ­117,580 +37,656 ­69,227 106,883 ­11.1% 1996 +89,061 +216,054 +2,188 ­129,181 +1,306 ­87,755 ­9.1% 1995 +270,345 +2,391 ­116,207 +156,529 n.a. n.a. n.a. n.a. Not applicable. 26See annex Table A1.8. Source: LTD (2000). A1.13 Based on data received from auction data of repossessed motorcycles (from the Highway Finance Company) details of 50 traded-in motorcycles from a dealer and his estimates, and about 60 potential trade-ins from Clinics 1 and 2, the following generalized depreciation schedule for motorcycles was estimated: ?? After one year--75 percent of the new price ?? After two years--55 percent ?? After three years--47 percent ?? After four years--45 percent ?? After five years--40 percent ?? After six years--38 percent ?? After seven years--28 percent ?? After eight years--25 percent ?? After nine years--17 percent 58 Thailand: Reducing Emissions from Motorcycles in Bangkok A1.14 There is evidence that two-stroke motorcycles are depreciating faster than four- stroke motorcycles. Financing companies will only finance a smaller percentage of a new two- stroke motorcycle's price(up to 75 percent) compared to that of four-stroke motorcycles (up to 85 percent). A1.15 There is a well-established motorcycle refurbishing industry in Thailand. When motorcycles are traded in by dealers and are considered to be in good condition, they are normally cleaned up and sold as they are. If the engine needs overhauling and the model of motorcycle can be sold relatively easily (which usually means it is a fairly recent model), the dealer would overhaul the engine typically by boring out the cylinder and fitting a slightly larger new piston and rings. This is relatively a cheap process--usually costing less than 800 baht. Motorcycles that are too old to be remanufactured cost-effectively are scrapped. It is understood that these motorcycles would be sold as they are to motorcycle scrap merchants. There are a number of motorcycle market areas (for example, Klong Tom) where second-hand parts and new parts (from original equipment manufacturers [OEM] as well as non-OEM) may be purchased. It is estimated that the non-engine parts in the average scrapped motorcycle are worth 1,000 to 2,000 baht. Characteristics of the In-Use Motorcycle Fleet A1.16 The authors estimate, as described in more detail below, that the total in-use (legal and illegal) motorcycle fleet in Bangkok for 2000 had 800,000 motorcycles. Of this total, 690,000 were legally registered in Bangkok. Table A1.10 presented information on the legally registered in-use motorcycle fleet in Bangkok from 1995 to 1999. The Table showed that the total registered in-use fleet in Bangkok declined by 25 percent from 962,000 motorcycles to 717,000 from 1995 to 1999. This decline appears to be due to the following: ?? A decline in new motorcycle sales since 1994; ?? High retirement rates of motorcycles and/or increased illegal use (for example, by not annually re-registering motorcycles27); and ?? A slight decline in population in the BMA from 1995 to 1999. A1.17 At a national level the number of legally registered in-use motorcycles also declined by 3 percent over the period 1997 to 1999 as shown in Table A1.12. About 200,000 four-stroke motorcycles have been sold since 1994 in Bangkok--of which it is assumed there are still 140,000 in use and registered in Bangkok. Hence about 80 percent of Bangkok's 690,000 registered in-use motorcycles in 2000 are estimated to have two-stroke engines. 27 The LTD registration system is quite lenient--the maximum fine is 20 baht/year or 20 percent of the annual re- registration fee. LTD catches such illegal use when a motorcycle is sold (that is, the registration is transferred). The Bangkok Motorcycle Market 59 Table A1.12 Estimated In-Use Motorcycle Fleet and Annual Change in Thailand, 1997­99 Year No. of new MCs No. of re-registrations Total (legal) in- Annual change registered use MC fleet in in-use MCs 1999 465,705 5,565,513 6,031,218 +45,649 1998 602,647 5,355,922 5,985,569 ­208,370 1997 1,086,175 5,107,764 6,193,939 n.a. n.a. Not applicable. Source: LTD (2000). A1.18 The two motorcycle clinics held on May 15­17 and July 10­12, 2000 and which 4,000 motorcycle owners attended yielded a considerable and unique data set on technical, socioeconomic, and preference aspects of motorcycle pollution. Some of the results of the clinics are as follows: ?? Eighty-three percent of the motorcycles at the clinic were two-stroke; ?? Seventy-three percent of the motorcycle drivers already use low-smoke 2T lube oil; ?? Ninety-three percent of the owners claim to ride at speeds greater than 60 km/hr; ?? More than half the motorcycles travel more than 50 km/day; ?? Ninety-three percent of the motorcycles are reportedly used for business purposes; and ?? Fifty-four percent of the motorcycles had engine capacityof 125 cc or less, and 1 percent had capacity greater than 150cc. A1.19 The clinic data yielded an age distribution that is expected to have been similar to the overall age distribution except it was under-represented with motorcycles aged one year or less (Table A1.13). The authors' spreadsheet model of vehicle age distribution for near-end-1999 is quite similar to the clinic-derived age distribution when the lag in the latter of six months to a year is accounted for. 60 Thailand: Reducing Emissions from Motorcycles in Bangkok Table A1.13 Estimated Age Distribution of Motorcycles (1999) from the MUP Model and Based on Data from Clinics 1 and 2 Age Total end-1999 and Cumulative % of Cumulative % of estimated age distribution age distribution age distribution using the MUP model estimated using based on data from spreadsheet clinics 1 and 2, model, 1999 2000 1 86,300 14% 3% 2 58,600 23% 13% 3 93,000 33% 22% 4 109,300 47% 31% 5 113,800 61% 46% 6 93,400 74% 61% 7 66,000 84% 73% 8 38,200 90% 82% 9 25,700 94% 89% 10 17,600 97% 92% >10 14,800 100% 100% Total registered in-use fleet 716,700 Average age (years) 4.5 4.4 5.0 Fleet size summary - 5 years old or newer 461,000 - More than 5 years old 255,700 - Total estimated fleet 716,700 - Share of motorcycles 36% more than 5 years old A1.20 Table A1.13 shows that by late 1999, the average age of the registered in-use motorcycle fleet was estimated at 4.5 years and the number of motorcycles aged five years or more to be 256,000 or 36 percent of the fleet. Since 1997, as shown in Table A1.14, the official statistics on the number of motorcycles aged five years or older (and therefore subject to a mandatory safety and emissions test) showed that from around 160,000 to an estimated 220,000 motorcycles were more than five years old. These data from LTD appear somewhat contradictory but there is some additional confirmation of the estimated age distribution. The Bangkok Motorcycle Market 61 Table A1.14 Number of Motorcycles Aged Five Years or Older Being Inspected in BMR, 1997­2000 Year No. of MCs tested > 5 years in BMA 2000 220,000 1999 158,230 1998 168,378 1997 197,174 Source: LTD (2001). A1.21 A summary of the estimated registered in-use motorcycle fleet and its characteristics is shown in Table A1.15. Table A1.15 Characteristics of the BMR In-Use Motorcycle Fleet, 2000 Characteristic Statistic or Estimate (million) No. of registered motorcycles, 199928 1.6 Estimated no. of registered motorcycles, 200028 1.7 Estimated in -use (legal and illegal) motorcycles in 0.8 Bangkok, 2000 Estimated in-use (legal and illegal) motorcycles in the 0.1 adjacent provinces within the BMR Estimated legally registered in-use motorcycles in 0.69 Bangkok, 2000 Annual growth rate in legally registered in-use fleet in ­5.7% per year Bangkok, 1995­2000 Estimated 4-stroke/ 2-stroke fleet split in Bangkok, 20% / 80% 2000 Estimated % of new motorcycle sales in Bangkok in About 80% 2000 that were 4-stroke Estimated % of legally registered in-use motorcycles in 42% or 293,300 motorcycles Bangkok aged > 5 years in 2000 28Includes all motorcycles registered and those formally de-registered, but not those whose registration has lapsed. Sources of Motorcycle Financing A1.22 The main sources of financing for purchasing a new motorcycle are as follows: ?? Financing Companies--hire purchase agreements provided by Thailand's eight main specialist financing companies affiliated with dealers; ?? Dealer financing--hire purchase agreements provided by dealers through their own financing companies; and ?? Cash. A1.23 Interviews with two dealers and three financing companies suggest the following distribution of financing alternatives for new motorcycle purchases: 62 Thailand: Reducing Emissions from Motorcycles in Bangkok ?? Cash only--up to 15 percent; ?? Trade-in plus financing (with or without cash)--20 percent.29 Financing is often provided up to the maximum permitted by financing companies (85 to 90 percent of the new motorcycle price); and ?? Financing with cash down payment--65 percent. Financing is usually provided up to the maximum permitted by finance companies of (85 to 90 percent of the new motorcycle price). A1.24 About 75 percent of all transactions are estimated to involve financing to a significant degree. These data suggest that 25 percent of the approximately 109,674 motorcycles sold (new motorcycles registered) or over 25,000 motorcycles in 2000 involved a trade-in. Hence, the MUP scheme that involves a total trade-in target of 20,000 to 30,000 motorcycles over three years will potentially increase the number of trade-ins by at least 30 percent per year. Financing Companies A1.25 There has been insignificant bank lending for new motorcycle purchases to date. There are eight main companies that specialize in providing financing for new motorcycle purchases. Information was received from three companies30 that some 30 to 40 percent of the financing was provided by these companies. (The financing companies have formed an informal club to share information on a common "black list." They plan to formalize the club into an industry association in the near future.) The financing companies are all private firms whose funds come largely from equity investment. The Bank of Thailand does not regulate these companies. A1.26 These firms are estimated to provide financing in approximately 75 percent of all new motorcycle purchases but none in recent years for the purchase of second-hand motorcycle purchases. Approximately 65 percent of all new motorcycle purchases involve no trade-in. These financing companies are dealing with prospective buyers who have no collateral. The companies do check the following, however, among other things: ?? Job history; ?? Credit history; and ?? Other assets such as the prospective buyer's own home. A1.27 Financing is provided by Hire Purchase Agreements with terms varying from 6 to 30 months--the average term being 22 months. All motorcycles financed by these firms must 29The high ownership rate of motorcycles (0.4 in-use motorcycles per household) tends to suggest that the proportion of new motorcycle purchases involving a trade-in of an old motorcycle is high. 30The three companies were Hiway (Khun Yuttapong, Tel: 3191713) which is owned by TISCO (a Bank); Tanabaan (Khun Wisut and Khun Boonsong, Tel: 2824753); and Prime Capital Leasing Co (Khun Niti, Tel: 3080022. The Bangkok Motorcycle Market 63 have third-party insurance. Until the outstanding moneys are repaid, ownership of the motorcycle rests with the financing company that keeps the registration book.31 A1.28 As a large proportion of the firms' clients are people who have migrated to Bangkok, they are unlikely to have significant assets in Bangkok and probably rent their flat or other form of lodging. Based on the numbers of distribution of their collectors, the financing companies estimate that 30 to 40 percent of their clients actually live in the neighboring provinces of the BMR although the motorcycles are registered in Bangkok. A1.29 The financing companies have a team of collectors who personally collect repayments that are due. Each collector must report daily to the head office and put down a deposit to minimize potential cheating in his or her own ranks. A1.30 Interest rates are high--at present, 2.2 to 2.4 percent per month (flat rate on original principal equal to an annual rate of 50 to 60 percent per year). The high cost appears to be partly attributable to credit risk, which is affected by the lack of secure income for purchasers32--reflected in repossession rates, motorcycle theft, and accidents. About 25 percent of motorcycles financed are repossessed by financing companies, and a further three percent are written off because of theft or accident. In addition, collection costs are high. A1.31 Interest rates depend on the amount of down payment (made up of cash plus the value of the trade): ?? 2.4 percent per month flat on original principal when the down payment is 3,000 baht; and ?? 2.2 percent per month when the down payment is more than 3,000 baht. A1.32 The 25 percent of financing arrangements that result in the repossession of a motorcycle represent approximately 800 to 1,000 motorcycles per month. These repossessed motorcycles are auctioned every week and sell for approximately five percent less than the market price. The authors obtained data on average prices of motorcycles by model that were repossessed and auctioned by Highway over the last five years. Agents of second-hand dealers and individuals purchase the motorcycles; the older ones are likely to be sold up-country. Dealer Financing A1.33 Dealers may provide or arrange financing to motorcyclists wishing to trade-in their old motorcycle for a new one. Larger dealers may have their own financing companies. Most dealers are affiliated with one or two of the eight financing companies mentioned earlier. A motorcycle worth approximately 15,000 baht or more makes the owner a relatively low credit risk in the dealer's and the associated financing company's view. As dealer margins are low (1,500 baht on an average 40,000-baht machine), there is some incentive for dealers that provide 31A Registration Book is issued to the owner of a motorcycle when it is first registered, and is transferred to a new owner when the motorcycle is sold. 32Discussions with community groups and industry representatives suggest that about half of the motorcycles in Bangkok are used for income -generating activities, for example messenger, courier, and taxi services. Much of this activity is undertaken on an informal basis, linked to the provision of individual services rather than undertaken by salaried staff. 64 Thailand: Reducing Emissions from Motorcycles in Bangkok financing from their own companies to make money either by paying a lower price for a trade-in or encouraging would-be buyers to finance through hire purchase even if they have cash. For each arranged transaction with the affiliated (but non-dealer-owned) financing companies, the dealers receive a commission of about 800 baht per transaction. Cash and Bank-Provided Finance A1.34 Cash purchases are also important for the second-hand market as may be "loan shark"­provided financing at presumably much higher interest rates than provided by financing companies. These options are in use because there is limited Bank financing available for second-hand motorcycle purchases. Retailing Structure A1.35 Super-dealers are defined loosely as those with sales of more than 100 motorcycles per month. Authorized super-dealers must invest in a showroom, take a minimum quota of motorcycles every month, and have a service center. They may have a number of showrooms. Major dealers may achieve significant sales but not be classified as a super-dealer and consequently not have to meet all the requirements imposed by manufacturers. In addition, there are sub-dealers who buy from major dealers or other sub-dealers. A dealer may have a range of relationships with motorcycle manufacturers--for example, a dealer may be a major dealer for one company and a sub-dealer for others. A1.36 In Thailand there are about 930 major dealers, 99 super-dealers, and 790 sub- dealers (Table A1.16). More data are required on these companies, especially super-dealers. In Bangkok there are 182 major dealers, including 20 super-dealers and 335 sub-dealers. Dealer margins are quite low as discussed above. Dealers purchasing motorcycles from manufacturers are given credit-free terms of 30 to 45 days. A1.37 Dealers make their profit through the following: ?? Margins; ?? Provision of financing (hire purchase) directly or through associated companies-- prospective buyers with a trade-in are generally regarded as a low credit risk; and ?? Reselling the traded-in motorcycle--motorcycles resold are usually only cleaned up and cosmetic improvements are made. A1.38 It is manufacturers that control dealer profitability by controlling new motorcycle prices and the cost of spare parts--if a motorcycle is to be upgraded, for example. A1.39 In Bangkok, 14 of the 71 LTD-registered inspection stations that carry out motorcycle inspections are connected to existing motorcycle dealers. (There are a total of 169 inspection stations in the city that do car or car-and-motorcycle inspections and a further 57 in the rest of the BMR). The Bangkok Motorcycle Market 65 Table A1.16 Distribution of Dealers and Sub-Dealers, Bangkok and Thailand Brand / Location No. of super No. of sub-dealers Total dealers/Major dealers Kawasaki Bangkok 3/44 150 197 Rest of Thailand 20+/113 100 233 Kawasaki, Total Thailand 23+/157 250 430 Honda Bangkok 6­7/53 150 210 Rest of Thailand 70/170 150 390 Honda, Total Thailand 76/223 300 600 Suzuki Bangkok 5/60 15 75 Rest of Thailand 0/290 105 395 Suzuki, Total Thailand 0/350 120 470 Yamaha Bangkok 5/25 20 45 Rest of Thailand 0/175 100 275 Yamaha, Total Thailand 0/200 120 320 Total Bangkok dealers 20/182 335 527 Total Thailand dealers 99/930 790 1,820 Source: Estimate provided by participating dealers. Large Fleets A1.40 Motorcycle taxis and motorcycle messengers are a common feature of Bangkok's transport system. While some companies may own their own fleet of motorcycles, most do not and instead hire motorcycle drivers with their own motorcycles on a temporary basis. Government agencies--for instance, the BMA and the police--may have their own motorcycle fleets. While the police fleet is not registered with LTD, the fleets of other agencies are. Data on all large fleet owners (those with more than 50 motorcycles) have been requested from LTD. A1.41 Large fleets are of particular interest because they are intensively used and a few large owners rather than many individual owners make maintenance decisions. The motorcycle taxi fleet of some 40,000 motorcycles that operate in almost every soi (small side street) in Bangkok is a readily identified fleet. These motorcycles are available at roadside corners and 66 Thailand: Reducing Emissions from Motorcycles in Bangkok entrances to congested side streets and offer a much faster trip than three or four-wheeled transport. Fares are negotiated and may be 20 baht for trips on main roads and up to 60 baht for a trip of 5 km--and 5­10 baht for short trips on a side street. It is estimated that motorcycle taxis represented about nine percent of all passenger demand in Bangkok in 1995 (Table A1.17). A1.42 The police regulates the taxi fleet's operations informally. Police sell the right to operate to an investor for between 15,000­60,000 baht depending on passenger demand in the soi in question. In return, a colored, numbered shirt is issued which gives the right to operate in that particular soi. The owner must pay the police another 20­30 baht per day. The investor then rents the shirt to a motorcycle owner for 150­300 baht per day. A1.43 At present the annual income from motorcycle taxi operations alone to the police is worth over 240 million baht. The value of shirts issued is estimated at about 1.6 billion baht. In a more preferable scenario, LTD control would reduce what amounts to a police-levied tax on the industry that is not used for the public good and put it to work to increase the safety of the industry for the benefit of passengers. The Bangkok Motorcycle Market 67 Table A1.17 Transport Task and Role of Motorcycle Taxis Mode Average Fleet size Fares in 1997 Approx. speed in 1995 (baht) no. of (km/hr) passengers daily in 1995 Regular buses (Blue / Red) 12­13 5,400 2.5­3.5 3,654,000 Air-conditioned buses 12­13 1,200 6.0­16 521,000 Minibuses 12­13 2,000 2.5 1,200,000 Micro-buses 12­13 850 30.0 73,000 Tuk-tuks 12­13 7,400 min. 30­60 342,000 Four wheels (Si-lor) 12­13 8,500 30­60 negotiated 360,000 10 soi, 20+street, Motorcycle taxis 40 24,000 negotiated 784,000 Taxis 12­13 49,000 min. 35 980,000 Chao phraya river ferries 13­24 152 min 4­15 360,000 Canal ferries 13­24 151 5.0­15.0 43,000 SRT trains (provincial within BMR) 15­20 -- 2­6 100,000 TOTAL n.a. 98,350 n.a. 8,417,000 --. Not available. n.a. Not applicable. Source: From notes on fleet data. 68 Thailand: Reducing Emissions from Motorcycles in Bangkok Table A1. 18 Domestic Motorcycle Sales, 2000 Maker/Months JAN-JUN JUL AUG SEP OCT NOV DEC JUL-DEC TOTAL (1­12) TYPE: MOPED HONDA 283,888 41,531 45,581 43,283 42,362 45,109 44,006 261,872 545,760 YAMAHA 39,613 3,878 8,413 10,438 10,579 8,249 11,377 52,934 92,547 SUZUKI 58,314 10,017 7,633 6,917 8,017 7,346 8,285 48,215 106,529 KAWASAKI 5,382 356 500 588 521 1,371 933 4,269 9,651 CAGIVA 52 7 - 3 - - - 10 62 SUBTOTAL 387,249 55,789 62,127 61,229 61,479 62,075 64,601 367,300 754,549 TYPE: SPORT HONDA 11,523 1,539 1,579 1,147 1,192 1,334 1,220 8,011 19,534 YAMAHA 533 143 128 34 35 64 36 440 973 SUZUKI 10 - 1 - - 1 - 2 12 KAWASAKI 4,462 704 884 785 675 539 561 4,148 8,610 CAGIVA - - - - - - - - - SUB-TOTAL 16,528 2,386 2,592 1,966 1,902 1,938 1,817 12,601 29,129 TYPE: MOPED AND SPORT HONDA 295,411 43,070 47,160 44,430 43,554 46,443 45,226 269,883 565,294 YAMAHA 40,146 4,021 8,541 10,472 10,614 8,313 11,413 53,374 93,520 SUZUKI 58,324 10,017 7,634 6,917 8,017 7,347 8,285 48,217 106,541 KAWASAKI 9,844 1,060 1,384 1,373 1,196 1,910 1,494 8,417 18,261 CAGIVA 52 7 - 3 - - - 10 62 TOTAL 403,777 58,175 64,719 63,195 63,381 64,013 66,418 379,901 783,678 The Bangkok Motorcycle Market 69 Details of In-Use Fleets in Bangkok and Thailand, 1999 A1.44 Data on the in-use fleet for 1999 for Thailand and Bangkok are shown in Table A1.19. This Table shows the actual legally registered in-use fleet for each vehicle type--the figures vary significantly from those published by LTD, which show a fleet of motorcycles of over 1.6 million in 1999. A1.45 A further check on the in-use motorcycle fleet was made by using data from the extensive home interview survey in the BMR carried out for the Office of the Commission for Land Traffic in 1995. As it appears that population slightly declined from 1995 to 2000, the 1995 estimates of motorcycles in use are assumed to be reasonably accurate for 2000 as well. The survey was conducted for the purpose of developing a transport-forecasting model for the BMR. Only information on motorcycles garaged overnight (assumed to be in-use bikes) at the household was obtained. The data therefore exclude large corporate fleets that are assumed to be relatively small. The numbers of in-use motorcycles estimated from the survey data are as follows: ?? 550,000 motorcycles garaged overnight in the BMA; and ?? 936,000 motorcycles in total (that is, including the BMA) in the BMR. A1.46 LTD's official published registration figures (that is, cumulative ones) show that 181,000 motorcycles are registered in the five provinces surrounding the BMA and within the BMR. Assuming that of these 181,000, say, 100,000 motorcycles are actually in use and re-registered annually outside of the BMA, then one can estimate that some 836,000 motorcycles are likely to be re-registered in the BMA but may be used in the BMA as well as the rest of the BMR. That is, the ratio of motorcycles registered in the BMA over the total garaged overnight in the BMA appears to be 550/836 or 66 percent. In other words, 34 percent of those motorcycles registered in the BMA may be used outside of the BMA, in the balance of the BMR. This estimate is consistent with information provided by the finance companies. 70 Thailand: Reducing Emissions from Motorcycles in Bangkok Table A1.19 Comparison of Registered and In-Use Motor Vehicle Fleet, Bangkok and Thailand, 1999 Vehicle type Bangkok Thailand Total In-use % in-use of Total In-use % in-use total reg. of total reg. Registered33 New Actual re- Total in Bangkok, Registered33 New reg., Actual re- Total in Thailand, at end-1999 reg., registration use, 1999 1999 at end-1999 1999 registration, use, 1999 1999 1999 , 1999 1999 Vehicles under MVA Sedan and microbus 1,317,062 45,814 800,965 846,779 64.29 2,123,590 67,815 1,348,780 1,416,595 66.71 (? 7 passengers) Microbus/ passenger 289,116 3,808 174,177 177,985 61.56 526,871 5,585 326,540 332,125 63.04 pick up ( > 7 passengers) Van and pick-up 664,080 40,393 409,811 450,204 67.79 3,097,831 100,673 2,083,366 2,184,039 70.50 truck Motor-tricycle 885 2 378 380 42.94 2,535 7 568 575 22.68 Interprovincial taxi 249 0 5 5 2.01 334 0 14 14 4.19 Urban taxi (7-person) 61,950 1,979 26,558 28,537 46.06 64,072 1,979 26,744 28,723 44.83 Fixed-route taxi 8,229 0 2,099 2,099 25.51 8,796 45 2,624 2,669 30.34 Tuk-tuk 7,405 0 6,297 6,297 85.04 50,445 29 14,320 14,349 28.44 Hotel taxi 960 35 483 518 53.96 1,117 46 677 723 64.73 Tour taxi 317 1 109 110 34.70 354 1 144 145 40.96 Car for hire 106 0 46 46 43.40 127 0 46 46 36.22 Motorcycle 1,660,119 86,29 630,380 716,6 43.17 13,244,961 465,7 5,565,51 6,031,21 45.54 9 79 05 3 8 Tractor 20,167 366 4,320 4,686 23.24 110,971 4,376 39,201 43,577 39.27 Road roller 5,769 159 2,183 2,342 40.60 10,712 592 4,713 5,305 49.52 Farm vehicle 64 0 25 25 39.06 87,442 1,789 39,861 41,650 47.63 Trailer 1,137 37 327 364 32.01 3,558 49 924 973 27.35 Subtotal vehicles 4,037,615 178,893 2,058,163 2,237,056 55.41 19,333,716 648,691 9,454,035 10,102,726 52.25 under MVA Vehicles under LTA Fixed-route bus 13,785 455 8,782 9,237 67.01 69,610 1,322 53,388 54,710 78.60 Non-fixed-route bus 7,361 125 5,161 5,286 71.81 18,911 539 14,740 15,279 80.79 Private bus 3,782 54 2,307 2,361 62.43 7,280 181 5,157 5,338 73.32 The Bangkok Motorcycle Market 71 Vehicle type Bangkok Thailand Total In-use % in-use of Total In-use % in-use total reg. of total reg. Registered33 New Actual re- Total in Bangkok, Registered 33 New reg., Actual re- Total in Thailand, at end-1999 reg., registration use, 1999 1999 at end-1999 1999 registration, use, 1999 1999 1999 , 1999 1999 Small rural bus 0 0 0 0 0.00 22,066 435 17,888 18,323 83.04 Subtotal bus 24,928 634 16,250 16,884 67.73 117,867 2,477 91,173 93,650 79.45 Non-fixed-route truck 31,819 1,186 25,206 26,392 82.94 72,609 2,263 56,244 58,507 80.58 Private truck 67,253 1,886 53,517 55,403 82.38 540,734 8,574 399,765 408,339 75.52 Subtotal truck 99,072 3,072 78,723 81,795 82.56 613,343 10,837 456,009 466,846 76.11 Subtotal vehicles under LTA 124,000 3,706 94,973 98,679 79.58 731,210 13,314 547,182 560,496 76.65 Grand total (excl. NMVs) 4,161,615 182,599 2,153,136 2,335,735 56.13 20,064,926 662,005 10,001,217 10,663,222 53.14 Notes: LTA = Land Transport Act. MVA = Motor Vehicles Act. NMV = Nonmotorized vehicles. 33Total cumulative registrations at end-1999 since the present system of registration commenced prior to 1970. These cumulative figures do include lapsed registrations which are not advised to LTD but do not include formally advised transfers of registration and de-registrations. 72 Thailand: Reducing Emissions from Motorcycles in Bangkok Annex 2 Cost-Benefit Analysis Summary (currency unit US$, March 2001) Table A2.1 For the Motorcycle Upgrade Program only Present value of flows Fiscal impact Economic Financial analysis34 analysis35 Taxes Subsidies Benefits $29.9 million n.a n.a. n.a. Costs $ 9.7 million $13.0 million n.a. $5.3 million Net Benefits: $20.2 million n.a. n.a. n.a. IRR 102% n.a. n.a. n.a. n.a. Not applicable 34The economic analysis does not include bus and truck upgrade pilots. 35If the difference between the present value of financial and economic flows is large and cannot be explained by taxes and subsidies, a brief explanation of the difference is warranted, for instance, "The value of financial benefits is less than that of economic benefits because of controls on electricity tariffs." Table A2.2 Summary of Benefits and Costs Year Total cost Total benefits Net benefit ($million) ($million) ($million) 1 14.2 6.60 (7.6) 2 8.3 12.81 4.5 3 (1.0) 11.43 12.5 4 (6.3) 7.10 13.4 5 (4.2) 5.88 10.1 6 (2.8) 0.00 2.8 7 (1.8) 0.00 1.8 8 (1.2) 0.00 1.2 9 (0.8) 0.00 0.8 10 (0.5) 0.00 0.5 NPV ($M)= 9.7 29.9 20.2 B/C= 3.1 73 74 Thailand: Reducing Emissions from Motorcycles in Bangkok Main Assumptions A2.1 The key assumptions used in calculating costs and benefits in this project are shown below. For estimating health benefits, mortality was valued by means of human capital measure of the value of reduced risk of death rather than the willingness to pay (to reduce the risk of dying). The value of earnings lost when a person dies prematurely will, in general, understate the economic value of reduced risk of death. This approach was adopted because if policies pass the cost-benefit test when benefits are conservatively measured, the results can be presented to policymakers with confidence. U.S. monetary values for mortality (foregone earnings) and morbidity were transferred to the BMR using an income elasticity of 1.0. Aside from these assumptions, the coefficients for estimating mortality and morbidity as well as economic valuation figures were taken from K. Lvovsky, G. Hughes, D. Maddison, B. Ostro, D. Pearce, Environmental Cost of Fossil Fuels: A Rapid Assessment Method with Application to Six Cities, Environment Department Paper No. 78 (2000), The World Bank, Washington. The figure for change in µg/m3 per ton of PM reduced was taken from Hagler Bailly, Health Effects of Particulate Matter Air Pollution in Bangkok, March 1998 report submitted to the World Bank. The final values reported are in the year 2000 and in U.S. dollars. Annex 2: Cost-Benefit Analysis Summary 75 Table A2.3 Assumptions for Benefit Cost Calculations Benefit discount rate%= 15 Cost discount rate%= 15 Baht/$= 42.7 change in ug/m3 per TPY emissions reduced 0.00205 Annual benefits ($/capita/change in µg/m3) 3.4 Population (million) 10 Population growth rate (%/yr) 0.41% Number of MCs in use in Bangkok 690,500 MC population growth rate 5% % MC retirement per year 24% %Deterioration factor (EF) increase (g/km/yr) 1% VKT (km/day) 40 Fuel economy (l/km) 0.03 Price of fuel ($/l) 0.2 Fuel savings (remanufactured and scrapped) 40%a 36 This large increase in fuel economy comes about because vehicles replaced have old two-stroke engines, and all new vehicles purchased are assumed to be of four-stroke engine design which has inherently higher fuel economy than two-stroke. Base emission factor (g/km) 0.3 New MC emission factor (g/km), four-stroke 0.03 General MC population emission factor decrease (%/yr) 5% Major repair deterioration factor (%/yr) 10% Total motorcycles for MUP 300,000 Project year MCs for MUP No. of MCs 1 46% 136,940 2 39% 115,680 3 16% 47,380 Pass Tune- Major Leave Remanufacture Scrap MCs up repair outside project Number, % 68.6% 17.2% 1.3% 3.0% 5.0% 5.0% Emission factor 2.5% 10% 25% 2.5% 90% 90% 1% reduction Scrappage allowance = 5,000 baht per vehicle scrapped First year cost of new MC= $1,090 First year salvage value = $ 250 Salvage value reduction/yr 25% 76 Thailand: Reducing Emissions from Motorcycles in Bangkok Table A2.4 Sensitivity analysis / Switching values of critical items(in million US$) Cost Benefits Net benefit Benefit/Cost IRR Base case 9.7 29.9 20.2 3.1 102% Sensitivity analysis examples: Discount rate Cost Benefits NB B/C IRR 10% 8.6 33.7 25.1 3.9 102% 15% 9.7 29.9 20.2 3.1 102% 20% 10.4 26.8 16.4 2.6 102% Annual benefits ($/Capita/ change in Cost Benefits NB B/C IRR ug/m3) 1.5 9.7 14.4 4.7 1.5 28% 3.4 9.7 29.9 20.2 3.1 102% 5.0 9.7 43.0 33.3 4.4 251% Change in ug/m3 per TPY emissions Cost Benefits NB B/C IRR reduced 0.00103 9.7 16.1 6.4 1.7 34% 0.00205 9.7 29.9 20.2 3.1 102% 0.00308 9.7 43.8 34.1 4.5 266% Annex 3 Bangkok Motorcycle Fleet Upgrade Program Trade-in and Additional Upgrade Program Background A3.1 The Bangkok Metropolitan Administration (BMA) and the World Bank launched the urban air quality­improving project, the "Bangkok Motorcycle Fleet Upgrade Clinic" in 2000. The project involved the inspection of the motorcycle fleet, data collection, and the motorcycle trade-in program. The first motorcycle inspection (clinic) was arranged in Bangkok during May 15­17, 2000. Approximately 1,400 motorcycles took part; 566 questionnaires were collected and used for further analysis. The second motorcycle clinic was carried out during July 11­13, 2000 in Bangkok. More than 1,500 motorcycles participated in the second clinic. Combined data from the two motorcycle clinics were used for statistical analysis and were compiled in the report. The Trade-In Program A3.2 Based on the analysis of all collected data, the number of motorcycles that failed the emissions test was determined. Then the owners of the motorcycles were contacted and informed about the trade-in program. There were 43 owners of highly polluted motorcycles who indicated their interest in the trade-in program. The details of the motorcycles--for example, brand, model, registered number, chassis number, model year, engine size, and estimated motorcycle value--for exchange are illustrated in Table A3.1. Some of the 43 motorcycles were selected for the fuel consumption test and emissions test before and after the reconditioning process. The selection criteria were as follows: ?? The motorcycles were used for more than 3 years. ?? The engine sizes were in the range of 100­150 cc. ?? The accumulated distance for each motorcycle exceeded 30,000 km. ?? All of the samples were two-stroke motorcycles since there was only one four- stroke motorcycle participating in the trade-in program. 77 78 Annex 3: Bangkok Motorcycle Fleet Upgrade Program Table A3.1 Details of 43 Motorcycles Involved in the Trade-In Program No. Registered Brand37 / model Chassis number Model Evaluated Swept number year value38, baht volume, cc 1 8?-0338 S / CRYTAL BE12A-TH230202 1991 15,400 110 2 1ª-3245 S / ROYAL BE121-TH110244 1995 23,300 110 3 ?¥? 949 S / RC100 BE11-TH591763 1996 21,100 100 4 1¦-6695 S / RGV XG11A-TH241696 1994 12,000 150 5 5·-0711 S / AKIRA BE13B-TH110979 1991 12,000 110 6 ??? 762 Y / RXZ 3XX-044106 1993 19,000 135 7 ??? 114 Y / TZR 3RR-059106 1993 30,900 150 8 1¢-9355 Y / JR-S 4AC-069971 1993 19,000 120 9 9?-3697 Y / BELLE- R 3PP031831 1990 10,000 100 10 1?-3402 Y / TZR 3RR-023149 1981 27,500 150 11 7?-6001 Y / RX100 IVI-K38979 1980 4,000 100 12 ? ¨ ? 195 Y / RX 29M-16247K 1984 7,000 135 13 7¦-7341 Y / JR 4MA-009310 1994 23,000 120 14 8 -5068 Y / JR 4AC-044953 1993 21,000 120 15 6?-6838 Y / BELL 3PP-028292 1989 8,500 100 16 9?-6536 K / GTO GTO-M-62186 1992 14,657 125 17 3·-1910 K / KR125 ARR-12581 1987 5,000 125 18 ? ? ¬ 307 KR150E K / KR A68826 1995 46,800 150 19 ¦ -2162 H / DASH NL125N-0014787 1993 32,000 125 20 7¢-8154 H / NSR NS150P-0007572 1993 35,100 150 21 5®-6625 H / DASH NZ125N-0181632 1995 37,300 125 22 1®-9757 H / DASH NZ125N-0181016 1995 38,400 125 23 5¦-5791 H / LS LS110N-0071088 1994 38,300 125 24 9 -0300 H / NOVA NZ110L-134312 1993 22,919 105 25 ??ª 79 H / WING TG125E-B1179 1984 8,000 125 26 5¥-4262 H / NSR NS150-0055661 1994 40,800 150 27 ??¡ -35 K / KR KR150B-A26253 1993 36,000 150 28 ?·¬ 599 H / NZ125 NZ125TS-0060967 1997 39,000 125 29 4- -4382 K / KR KG150A-A21843 1995 36,000 150 30 ???-144 H / DASH NZ125TS-0027126 1996 35,000 125 31 ???-333 K / KR150 KR150B-A30476 1994 46,875 150 32 ? ? ? 490 K / KR150 KR150C-A54786 1996 39,000 150 33 2ª-2052 H / DASH NZ125N-0127135 1995 30,000 125 34 7?-9436 H / NSR NS150-029173 1992 26,000 150 35 9·-9736 H / NOVA NZ110K-134833 1991 17,000 110 36 ??? 953 K / GTO GTO-M55344 1991 12,000 125 37 8ª-6872 Y / TZM 4AP-016481 1995 35,000 150 38 8¡ -7283 H / DASH NZ125N-0013365 1993 30,000 125 39 ??ª 338 H / NSR NS150-018642 1991 28,000 150 Annex 3: Bangkok Motorcycle Fleet Upgrade Program 79 No. Registered Brand37 / model Chassis number Model Evaluated Swept number year value38, baht volume, cc 40 ??? 195 S / AKIRA BE13A-TH196351 1992 14,000 110 41 ??·91 H / DASH NZ125TS-0045416 1997 35,000 125 42 ??¬ 254 K / NEON AH110A-A13005 1995 18,000 110 43 9 -3108 K / KR150 KR150B-A22467 1993 37,000 150 37Brand of motorcycle. H = HONDA S = SUZUKI K = KAWASAKI Y = YAMAHA 38Evaluated values used information from the Finance Association. A3.3 The 20 motorcycles selected from the list of the trade-in program were categorized into two groups of 10. The details of the motorcycles in Group 1 and Group 2 are displayed in Tables 2.5 and 2.6, respectively. There were different testing conditions for Group 1 and Group 2. For the motorcycles in Group 1, the testing included emissions test at idle, fuel consumption test, and mass emission using facilities at Thailand Automotive Institute (TAI). For the motorcycles in Group 2, the testing excluded the mass emissions test at TAI. The motorcycles in both groups were tested twice, before and after reconditioning. The Fuel Consumption Pretest A3.4 Before the motorcycles selected for trade-in were reconditioned, they were tested to monitor fuel consumption rate (Figure A3.1). This test was carried out at the PDK test site in Samutprakarn. The test procedure was as follows. First the speedometer of each motorcycle was adjusted to work properly. Then the devices to measure fuel consumption were installed on the tested motorcycle. This allowed a driver to turn the fuel switch on at the beginning point and off at the end point. The test site was a straight private track longer than 200 meters (annex Figures 3.2 and 3.3). The tests were set at constant speeds of 30, 50, and 80 km/hr. The motorcycles with engine sizes smaller than 125 cc were tested at 30 and 50 km/hr, while those with engine sizes between 126 and 150 cc were tested at all three speeds. For each speed, the motorcycles were tested twice and the average fuel consumption rate was computed and recorded. The device for measuring the fuel consumption rate is shown in Figure A3.1. The photograph of actual testing environment is shown in Figure A3.2 and the diagram of the testing track is displayed in Figure A3.3. The results of the fuel consumption rates for 20 motorcycles are shown in Tables 2.7 and 2.8. At speeds of 30 and 50 km/hr, the fuel consumption rates of the motorcycles in Group 1 were in the range of 25­74 km/liter and 21-60 km/liter, respectively. For Group 2, the fuel consumption rates were in the range of 32­56 km/liter and 28­51 km/liter for the two speeds of 30 and 50 km/hr, respectively. Generally, at higher speed the fuel consumption rate increased. 80 Annex 3: Bangkok Motorcycle Fleet Upgrade Program Figure A3.1 Device to Measure Fuel Consumption Rate Source: Project Study Team. Annex 3: Bangkok Motorcycle Fleet Upgrade Program 81 Figure A3.2 The Fuel Consumption Testing Area Source: Project Study Team. Figure A3.3 The Fuel Consumption Testing Track Diagram Source: Project Study Team. 82 Annex 3: Bangkok Motorcycle Fleet Upgrade Program The Emission Pretest at Idle A3.5 Before the reconditioning, emissions of the 20 motorcycles at idle were measured using the NDIR emission analyzers (Figure A3.4). There were two analyzers to measure carbon monoxide and hydrocarbon. The first one was the Horiba MEXA 554JA and the second was the Hermann. The limits of CO and HC were 4.5 percent and 10,000 ppm, respectively. For white smoke, the measuring device was a full flow opacity type, which has two photo-sensors, a light- emitting sensor and a light-receiving sensor. The white smoke was allowed to flow between these sensors. The amount of light received by the receiving sensor was inversely proportional to the opacity of the white smoke. The opacity limit was set so that it would not be greater than 30 percent on the device scale (annex figures 3.5, 3.6, and 3.7). The results of emissions at idle were shown in Tables 2.9 and 2.10. The results of Group 1 show that CO levels were in the range of 1.1­4.3 percent and HC levels were 3,460­9,310 ppm (except motorcycle number 7). White smoke levels of six motorcycles were in the range of 0­21 percent and another four motorcycles emitted white smoke that exceeded the limit of 30 percent. Figure A3.4 HERMANN CO and HC Emissions Analyzer Source: Project Study Team. Annex 3: Bangkok Motorcycle Fleet Upgrade Program 83 Figure A3.5 Emissions Testing at Idle Source: Project Study Team. 84 Annex 3: Bangkok Motorcycle Fleet Upgrade Program Figure A3.6 Device to Measure White Smoke Source: Project Study Team. Annex 3: Bangkok Motorcycle Fleet Upgrade Program 85 Figure A3.7 Measuring the White Smoke Level Source: Project Study Team. The Mass Emissions Pretest A3.6 The third test for the motorcycles before reconditioning was the mass emissions test. Only 10 motorcycles in Group 1 were selected to participate in the mass emissions test. The facilities at Thailand Automotive Institute in Samutprakarn were used for this test. The test cycle was an ECE R-40 driving pattern. For the ECE test, two types of testing were conducted. The type 1 test was the mass emissions and the results were in g/km. The type 2 test was the emissions concentration at idle, which was measured following the driving cycle. Figures 3.8 and 3.9 show activities during the mass emissions test. The results of the test are presented in Table 2.11. The results show that CO emissions of three motorcycles were above the limit of 16 g/km and HC emissions of eight motorcycles were above the limit of 7.0 g/km. 86 Annex 3: Bangkok Motorcycle Fleet Upgrade Program Figure A3.8 The Mass Emissions Test Cell at Thailand Automotive Institute Source: Project Study Team. Annex 3: Bangkok Motorcycle Fleet Upgrade Program 87 Figure A3.9 Testing the Motorcycle Mass Emissions Using the ECE R-40 Driving Cycle Source: Project Study Team. The Additional Upgrade Program A3.7 After conducting testing for emissions and fuel consumption on the 20 trade-in motorcycles, all 43 motorcycles were cleaned, adjusted, and reconditioned. The reconditioning process varied from one motorcycle to another depending on the motorcycle's condition. Engine parts such as cylinder jacket, cylinder head, piston, crankshaft, spark plug, oil pump, carburetor, air filter, and exhaust pipe were cleaned, checked, adjusted, or changed. The details of the reconditioning processes for Group 1, Group 2, and the rest are shown in Tables 2.12 and 2.13, respectively. The cost for reconditioning could be estimated as follows: The oil change cost 82 baht/motorcycle (for 2T-oil change approximately 86 baht/motorcycle) and a spark plug replacement cost 36 baht. The labor cost for cleaning and checking a motorcycle was 100 baht if the engine size was smaller than 125 cc, and 150 baht if it was larger than 126 cc. The costs of other spare parts can be determined by studying market prices. The Fuel Consumption Post-Test A3.8 After all the motorcycles were cleaned, checked, adjusted, or changed some parts of them, the reconditioning processes were completed. To investigate the effect of reconditioning motorcycles on the improvement of fuel consumption and emissions, tests similar to those conducted before the reconditioning were done. Tables 2.7 and 2.8 show the results of the fuel consumption test before and after reconditioning for motorcycles in Group 1 and Group 2, respectively. After the reconditioning process, the fuel consumption rates of the motorcycles 88 Annex 3: Bangkok Motorcycle Fleet Upgrade Program seemed to increase moderately. It is noted that in Group 1 the average fuel consumption rates changed from 51.25 km/liter to 36.35 km/liter at the speed of 30 km/hr and 43.92 km/liter to 37.68 km/liter at the speed of 50 km/hr. For Group 2, the average fuel consumption rates changed from 43.37 km/liter to 41.22 km/liter at the speed of 30 km/hr and 39.74 km/liter to 38.93 km/liter at the speed of 50 km/hr. Table A3.2 Details of Estimated Values, Reconditioning Costs, and Sale Prices of the Remaining 23 Motorcycles No. Registered Estimated values Reconditioning Sale prices after number (baht) costs reconditioning (baht) (baht) 1 1ª-3245 23,300.00 3,927 18,500 2 ?¥? 949 21,100.00 3,061 20,000 339 1¦-6695 12,000.00 --------- --------- 4 1?-3402 27,500.00 2,921 23,000 540 7?-6001 4,000.00 -------- --------- 6 7¦-7341 23,000.00 2,898 20,000 7 8 -5068 21,000.00 3,136 19,000 8 6?-6838 8,500.00 6,187 9,000 941 3·-1910 5,000,00 --------- --------- 10 ? ? ¬ 307 46,800.00 1,123 30,000 11 7¢-8154 35,100.00 1,745 23,500 12 1®-9757 38,400.00 1,885 22,500 13 5¦-5791 38,300.00 11,882 23,000 14 5¥-4262 40,800.00 2,414 27,000 15 ??¡ -35 36,000.00 11,224 26,000 16 4- -4382 36,000.00 5,694 23,500 17 ???-333 46,875.00 756 27,500 18 ? ? ? 490 39,000.00 6,615 19,000 19 2ª-2052 30,000.00 667 21,500 20 7?-9436 26,000.00 2,414 18,500 21 ??? 195 14,000.00 643 14,000 2241 8ª-6872 35,000.00 2,177 -------- 23 ??ª 79 8,000.00 1,485 8,000 39The motorcycle was stolen while it was kept at the PDK factory. 40The reconditioning costs of these two motorcycles were so high that they might not be worth repairing. 41This motorcycle is waiting for spare parts. The Emission Post-Test at Idle A3.9 Emissions test at idle was also repeated after the reconditioning process. The results before and after the reconditioning are shown in Tables 2.9 and 2.10. It is noteworthy that after the reconditioning process CO and HC levels at idle generally increase while white smoke levels decrease. Annex 3: Bangkok Motorcycle Fleet Upgrade Program 89 The Mass Emission Post-Test A3.10 For the mass emissions test at Thailand Automotive Institute in Samutprakarn, only 10 motorcycles in Group 1 were used. The results of the mass emissions test (type 1) expressed in g/km and the emissions concentration (type 2) before and after reconditioning are shown in Table 2.11. The Table demonstrates that the reconditioning process can yield a modest reduction in CO mass emissions. After reconditioning, only one motorcycle failed the CO mass emissions test (three had failed before reconditioning). Although the reconditioning process can reduce the HC mass emissions slightly, its amount both before and after reconditioning is still higher than the limit of 7.0 g/km. The results of the type 2 test show that CO and HC concentrations are reduced slightly after the reconditioning process. Summary of the Study A3.11 Bangkok Motorcycle Upgrade Project was launched in 2000 by the BMA and the World Bank team. The program started with two motorcycle clinics in May and July 2000, which collected baseline data of motorcycles running in Bangkok to arrive at the number of highly polluting motorcycles. After the data were collected and analyzed, the trade-in program was launched. The details of trade-in program were summarized in this report. A3.12 There were 43 highly polluting motorcycles that were selected for the trade-in program--16 Hondas, 10 Kawasakis, 6 Suzukis, and 11 Yamahas. The engine sizes ranged from list either in alphabetical order by brand name or numerically by number of motorcycles. 100 to 150 cc and the model years from 1980 to 1997. The exchange values ranged from 4,000 to 46,875 baht. A3.13 Before the motorcycles were reconditioned, 20 were tested to determine fuel consumption rates and emissions. The reconditioning process included cleaning, adjusting, and changing some engine parts such as spark plugs, air filters, ignition coils, and so on. The costs of reconditioning ranged from 100 to 11,882 baht per unit. A3.14 The results revealed, surprisingly, that the fuel consumption rates of motorcycles after reconditioning increased modestly; and CO and HC emissions increased slightly as well. (For example, the average fuel consumption at the test speed of 50 km/hr changed from 43.92 km/liter to 37.68 km/liter.) It is believed that the reconditioning process involves adjusting motorcycle carburetors to the manufacturing set point. This set point usually yields good engine performance and produces certain concentrations of CO and HC at idle--hence the increases. A3.15 However, the results from the mass emissions test show that the reconditioning process can help to reduce the amount of CO moderately and HC slightly. Also, the reconditioning process generally helps reduce white smoke levels.