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This book provides a systematic assessment of the performance of electric and hybrid buses in urban areas on a daily basis and presents a complete set of technical scenarios to promote their efficient exploitation. It will also help readers understand how future buses will perform on specific roads and how the latest technologies can be integrated into existing fleets by proposing a methodology for evaluating the energy consumption for general and specific routes and scenarios. Covering all aspects relating to the daily use of electric and hybrid buses, including maintenance strategies, power train configuration, battery replacements, route evaluation, and charging speed, emphasis is placed on energy efficiency and effective implementation. Addressing key developments in intelligent vehicle technologies, the book presents innovative transportation technologies and a broad range of topics in transportation-related sustainability research, from vehicle systems and design, to mass transit systems.
This report presents an up-to-date description of emerging hybrid-electric drive technology for transit buses in the United States. The technology and its status, benefits, life-cycle costs, and deployment issues are discussed. The report is intended to provide transit agencies with information to compare the emissions and fuel economy expected from hybrid-electric transit buses with those expected from clean diesel or alternatively fueled buses.
This book addresses various aspects of electric mobility deployment in public transport. These include transport policy-related issues as well as technical, organizational and technical dimensions of the fleet conversion process (from conventional one towards the increased share of electric vehicles in public transport). In the book, one may find, e.g. the determinants for the successful functioning of electrified transport systems (including charging facilities), models and methods for battery electric bus energy consumption, the analysis regarding the charging strategies (including power-grid) as well as electric vehicle battery issues. As the process of fleet conversion is multi-faceted, the book also contains the issues related to cybersecurity in public transport, autonomous vehicles and hyperloop. The book is dedicated to transport professionals, consulting companies and researchers in the field of electromobility and modern transport systems.
Please note that the content of this book primarily consists of articles available from Wikipedia or other free sources online. Pages: 183. Chapters: Hybrid electric bus manufacturers, Transit authorities with hybrid buses, General Motors, SEPTA, King County Metro, Port Authority of Allegheny County, San Francisco Municipal Railway, Hillsborough Area Regional Transit, Societe de transport de l'Outaouais, Niagara Frontier Transportation Authority, RTC Transit, San Diego Metropolitan Transit System, Los Angeles County Metropolitan Transportation Authority, Ljubljana Passenger Transport, TheBus, Omnitrans, Hampton Roads Transit, Societe de transport de Montreal, Hamilton Street Railway, Sound Transit, Chicago Transit Authority, Orange County Transportation Authority, Public transport in Christchurch, ABQ RIDE, Isuzu, Alexander Dennis Enviro500, New Flyer Industries, Metro Transit, Long Beach Transit, Central New York Regional Transportation Authority, Capital Area Transportation Authority, Motor Coach Industries, Bee-Line Bus System, Capital District Transportation Authority, St. Catharines Transit, MTA Regional Bus Operations, Spokane Transit Authority, Santa Rosa CityBus, North American Bus Industries, Wrightbus, Gillig Corporation, Montebello Bus Lines, Allison Transmission, Regional Transportation District, Charlotte Area Transit System, San Joaquin Regional Transit District, Mitsubishi Fuso Truck and Bus Corporation, QuayLink, Kelowna Regional Transit System, North County Transit District, Autoridad Metropolitana de Autobuses, Eureka Transit Service, Hino Motors, Nashville Metropolitan Transit Authority, Solaris Bus & Coach, Orion International, Regional Transportation Commission of Southern Nevada, DesignLine Corporation, Sound Transit Express, Alexander Dennis Enviro200 Dart, Alexander Dennis Enviro400, Hybrid buses in London, Mountain Area Regional Transit Authority, Madison Metro, Nova Bus, Volvo Buses, DART First State, Mitsubishi Fuso Aero Star, ..
TCRP Report 132: Assessment of Hybrid-Electric Transit Bus Technology provides decisionmaking guidelines coupled with a comprehensive life cycle cost model (LCCM) to assist transit managers in evaluating, selecting, and implementing hybrid-electric technology options for transit buses. The guidelines and the accompanying LCC model resulted from the gathering of site data coupled with a comprehensive review of both capital requirements and operating costs of hybrid-electric buses in comparison with those powered by traditional diesel engines. Information grew out of a sound, engineering-based, independent technical evaluation of the costs, performance, and reliability of hybrid-electric transit bus technology in actual service. The LCC model, contained on the accompanying CD-ROM (CRP-CD-71), allows the user to compare the total life cycle costs across several cost categories for up to 6 different "purchase scenarios." These scenarios let the user decide when the purchases will be made, the types of buses to be compared, the work load of the buses, and many other cost inputs in determining benefits and costs associated with alternative purchasing strategies.
Final results of the New York City Transit Hybrid-Electric Transit Bus Study. Hybrid buses had lower emissions, higher fuel economy, and higher operating costs compared with diesel buses. New York City Transit (NYCT), part of the Metropolitan Transportation Authority in New York, began operating the first of 10 heavy-duty diesel hybrid-electric transit bus prototypes (Model VI) from Orion Bus Industries in 1998. All 10 buses were in revenue service by mid-2000. The hybrid buses are intended to provide NYCT with increased fuel economy and lower levels of harmful exhaust emissions, compared with NYCT's diesel transit buses. Between 1999 and 2001 (over various predefined fuel and maintenance evaluation periods), these first 10 hybrid buses were part of a data collection and analysis project sponsored by the U.S. Department of Energy (DOE). The operating costs, efficiency, emissions, and overall performance of these low-floor hybrid buses were compared against those of 14 conventional high-floor diesel transit buses (7 each from NovaBUS Corporation and Orion) operated by NYCT in similar service. Results indicate that the hybrid buses operate with greater fuel efficiency and much lower emissions, compared with the diesel buses. Maintenance costs for the prototype hybrid buses were significantly higher than those of the diesel buses during this evaluation. However, these costs are expected to decline for the next-generation Orion VII buses, currently being procured by NYCT, as repair technicians become more familiar with the advanced hybrid propulsion systems.
This publication discusses the real-world performance data of low-carbon buses in the People's Republic of China. It also reviews the environmental and financial impacts, as well as the policies used to promote them. The People's Republic of China has taken the lead in the deployment of low-carbon buses and is moving toward full electrification to address climate change and reduce greenhouse gas emissions. Data and information in this publication can benefit countries interested in promoting low-carbon buses to design appropriate climate change policies.
Cities around the world face enormous problems of transport sustainability. Rapidly increasing populations and vehicle usage have created gridlock and sprawl, even in very poor cities, as well as unacceptably high levels of air pollution, noise, and accident rates. But improvements can be made. This book explores how the provision of better bus services can bring concrete solutions. "Bus rapid transit" systems emerging in Latin America provide fast, reliable and efficient urban travel for large numbers of people. Express busways, employing high-capacity buses and new technologies such as GPS-based bus tracking systems, can conveniently and reliably move up to 10 times as many people along a route as can cars - and be profitable. This book shows how bus rapid transit differs from traditional bus systems and how it can be developed around the world. There is a detailed look at clean fuels and advanced technologies such as "clean diesel", CNG, hybrid-electric and fuel cells. Case studies are made of six cities and of the steps each might take to encourage more sustainable transport systems