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使用美国环境保护局(EPA)的区域TIMES能源系统模型评估美国中型和重型卡车电气化对能源、二氧化碳及空气排放的影响。

Evaluation of energy, carbon dioxide, and air emission implications of medium- and heavy-duty truck electrification in the United States using EPA's regional TIMES energy systems model.

作者信息

Zalesak Andrew, Kittner Noah, Loughlin Daniel H, Kaplan Pervin Ozge

机构信息

ORISE Research Fellow (Former), U.S. Environmental Protection Agency, Durham, NC 27711, United States of America.

University of North Carolina at Chapel Hill, Chapel Hill, NC 27599-7400, United States of America.

出版信息

Environ Res Energy. 2024;1(4):045018-45018. doi: 10.1088/2753-3751/ad958b. Epub 2025 Jan 7.

DOI:10.1088/2753-3751/ad958b
PMID:40546387
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12180930/
Abstract

Electrifying on-road trucking is a strategy for decarbonizing the transportation sector. While battery-electric trucks have zero tailpipe emissions, the associated increase in electric sector grid emissions would offset a portion of on-road emission reductions. We utilize a techno-economic energy systems optimization model to assess the system-wide carbon dioxide (CO) and air pollutant emission implications of medium- and heavy-duty truck electrification in the United States of America. Results suggest that by transitioning to 100% battery-electric medium- and heavy-duty vehicles (MDVs and HDVs, together MHDVs), sales by 2050 would result in net CO emission benefits should the electric sector decarbonize simultaneously. Combining a tax of $100 per ton of CO, increasing at 5% per year, with electrification targets would yield a net 52% reduction in energy system CO emissions in 2050. Across regions, the transportation sector nitrogen oxide (NO emissions-an ozone precursor-further decrease by 9%-26% compared to the 'business-as-usual' (BAU) level in 2050. The level of emission reductions and the extent of transportation decarbonization are driven by vehicle cost and performance projections along with underlying assumptions on the time of charging.

摘要

电动化公路货运是交通运输部门脱碳的一项战略。虽然纯电动卡车尾气零排放,但电力部门电网排放的相应增加将抵消部分公路减排量。我们利用一个技术经济能源系统优化模型来评估美国中型和重型卡车电动化对全系统二氧化碳(CO)和空气污染物排放的影响。结果表明,到2050年,如果电力部门同时脱碳,向100%纯电动中型和重型车辆(MDV和HDV,合称MHDV)转型销售将带来净CO排放效益。将每吨CO征收100美元、每年增长5%的税与电动化目标相结合,到2050年能源系统的CO排放将净减少52%。在各地区,与2050年“照常营业”(BAU)水平相比,交通运输部门的氮氧化物(NO ,一种臭氧前体)排放量进一步减少9%-26%。减排水平和交通运输脱碳程度受车辆成本和性能预测以及充电时间的基本假设驱动。

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