Reducing Greenhouse Emissions and Fuel Consumption

Climate change is rapidly becoming known as a tangible issue that must be addressed to avoid major environmental consequences in the future. Recent change in public opinion has been caused by the physical signs of climate change-melting glaciers, rising sea levels, more severe storm and drought even...

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Main Authors: Shaheen, Susan, Lipman, Timothy
Format: Report
Language:unknown
Subjects:
Canada
glacier*
Online Access:https://www.escholarship.org/uc/item/69c427zk.pdf;origin=repeccitec
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spelling ftrepec:oai:RePEc:cdl:itsdav:qt69c427zk 2024-04-14T08:12:03+00:00 Reducing Greenhouse Emissions and Fuel Consumption Shaheen, Susan Lipman, Timothy https://www.escholarship.org/uc/item/69c427zk.pdf;origin=repeccitec unknown https://www.escholarship.org/uc/item/69c427zk.pdf;origin=repeccitec preprint ftrepec 2024-03-19T10:28:22Z Climate change is rapidly becoming known as a tangible issue that must be addressed to avoid major environmental consequences in the future. Recent change in public opinion has been caused by the physical signs of climate change-melting glaciers, rising sea levels, more severe storm and drought events, and hotter average global temperatures annually. Transportation is a major contributor of carbon dioxide (CO2) and other greenhouse gas emissions from human activity, accounting for approximately 14 percent of total anthropogenic emissions globally and about 27 percent in the U.S. Fortunately, transportation technologies and strategies are emerging that can help to meet the climate challenge. These include automotive and fuels technologies, intelligent transportation systems (ITS), and mobility management strategies that can reduce the demand for private vehicles. While the climate change benefits of innovative engine and vehicle technologies are relatively well understood, there are fewer studies available on the energy and emission impacts of ITS and mobility management strategies. In the future, ITS and mobility management will likely play a greater role in reducing fuel consumption. Studies are often based on simulation models, scenario analysis, and limited deployment experience. Thus, more research is needed to quantify potential impacts. Of the nine ITS technologies examined, traffic signal control, electronic toll collection, bus rapid transit, and traveler information have been deployed more widely and demonstrated positive impacts (but often on a limited basis). Mobility management approaches that have established the greatest CO2 reduction potential in Europe and Canada, to date, include road pricing policies (congestion and cordon) and carsharing (short-term auto access). Other approaches have also indicated CO2 reduction potential including: low-speed modes, integrated regional smart cards, park-and-ride facilities, parking cash out, smart growth, telecommuting, and carpooling. UCD-ITS-RP-07-14, ... Report glacier* RePEc (Research Papers in Economics) Canada
institution Open Polar
collection RePEc (Research Papers in Economics)
op_collection_id ftrepec
language unknown
description Climate change is rapidly becoming known as a tangible issue that must be addressed to avoid major environmental consequences in the future. Recent change in public opinion has been caused by the physical signs of climate change-melting glaciers, rising sea levels, more severe storm and drought events, and hotter average global temperatures annually. Transportation is a major contributor of carbon dioxide (CO2) and other greenhouse gas emissions from human activity, accounting for approximately 14 percent of total anthropogenic emissions globally and about 27 percent in the U.S. Fortunately, transportation technologies and strategies are emerging that can help to meet the climate challenge. These include automotive and fuels technologies, intelligent transportation systems (ITS), and mobility management strategies that can reduce the demand for private vehicles. While the climate change benefits of innovative engine and vehicle technologies are relatively well understood, there are fewer studies available on the energy and emission impacts of ITS and mobility management strategies. In the future, ITS and mobility management will likely play a greater role in reducing fuel consumption. Studies are often based on simulation models, scenario analysis, and limited deployment experience. Thus, more research is needed to quantify potential impacts. Of the nine ITS technologies examined, traffic signal control, electronic toll collection, bus rapid transit, and traveler information have been deployed more widely and demonstrated positive impacts (but often on a limited basis). Mobility management approaches that have established the greatest CO2 reduction potential in Europe and Canada, to date, include road pricing policies (congestion and cordon) and carsharing (short-term auto access). Other approaches have also indicated CO2 reduction potential including: low-speed modes, integrated regional smart cards, park-and-ride facilities, parking cash out, smart growth, telecommuting, and carpooling. UCD-ITS-RP-07-14, ...
format Report
author Shaheen, Susan
Lipman, Timothy
spellingShingle Shaheen, Susan
Lipman, Timothy
Reducing Greenhouse Emissions and Fuel Consumption
author_facet Shaheen, Susan
Lipman, Timothy
author_sort Shaheen, Susan
title Reducing Greenhouse Emissions and Fuel Consumption
title_short Reducing Greenhouse Emissions and Fuel Consumption
title_full Reducing Greenhouse Emissions and Fuel Consumption
title_fullStr Reducing Greenhouse Emissions and Fuel Consumption
title_full_unstemmed Reducing Greenhouse Emissions and Fuel Consumption
title_sort reducing greenhouse emissions and fuel consumption
url https://www.escholarship.org/uc/item/69c427zk.pdf;origin=repeccitec
geographic Canada
geographic_facet Canada
genre glacier*
genre_facet glacier*
op_relation https://www.escholarship.org/uc/item/69c427zk.pdf;origin=repeccitec
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