[1] 李晓易, 谭晓雨, 吴睿, 等. 交通运输领域碳达峰、碳中和路径研究[J]. 中国工程科学, 2021, 23(6): 15-21. [LI
X Y, TAN X Y, WU R, et al. Paths for carbon peak and
carbon neutrality in transport sector in China[J].
Strategic Study of CAE, 2021, 23(6): 15-21.]
[2] 庄贵阳, 魏鸣昕. 城市引领碳达峰、碳中和的理论和路径[J].中国人口·资源与环境, 2021, 31(9): 114-121.
[ZHUANG G Y, WEI M X. Theory and pathway of city
leadership in emission peak and carbon neutrality[J].
China Population, Resources and Environment, 2021, 31
(9): 114-121.]
[3] 李振宇, 廖凯, 崔占伟, 等. 缓解城市交通拥堵的CO2减排效益评估方法研究[J]. 交通运输系统工程与信息,
2020, 20(2): 8-12. [LI Z Y, LIAO K, CUI Z W, et al. An
evaluation method of CO2 emissions reduction in urban
traffic congestion mitigation[J]. Journal of Transportation
Systems Engineering and Information Technology, 2020,
20(2): 8-12.]
[4] ABDULL N, YONEDA M, SHIMADA Y. Traffic
characteristics and pollutant emission from road
transport in urban area[J]. Air Quality Atmosphere &
Health, 2020, 13: 731-738.
[5] WANG Q, FENG H X, FENG H, et al. The impacts of
road traffic on urban air quality in Jinan based GWR and
remote sensing[J]. Scientific Reports, 2021, 11(1):
15512.
[6] LIMA M A, STHEL M S. Emission of air pollution in the
transport sector: Case study of the city of Campos dos
Goytacazes, Brazil[J]. Engineering, 2020, 12(12): 851-
862.
[7] 陆化普. 交通强国建设的机遇与挑战[J]. 科技导报,
2020, 38(9): 17-25. [LU H P. On the opportunities and
challenges of the construction of transportation power[J].
Science & Technology Review, 2020, 38(9): 17-25.]
[8] 王靖添, 马晓明. 低碳交通研究进展与启示[J]. 生态经济, 2021, 37(5): 57- 64. [WANG J T, MA X M.
Research progress of low-carbon transportation and its
enlightenment[J]. Ecological Economy, 2021, 37(5): 57-
64.]
[9] 王元庆, 李若彤. 城市群交通碳达峰与碳中和研究综述与展望[J]. 交通运输研究, 2021, 7(5): 2-9. [WANG
Y Q, LI R T. Review and prospects of carbon dioxideemissions peak and carbon neutrality in urban
agglomeration traffic[J]. Transport Research, 2021, 7(5):
2-9.]
[10] 胡晓伟, 包家烁, 安实, 等. 碳达峰下城市交通运输减排治理策略研究[J]. 交通运输系统工程与信息, 2021,
21(6): 244-256. [HU X W, BAO J S, AN S, et al. Urban
transportation emission reduction governance strategies
under peak carbon dioxide emissions[J]. Journal of
Transportation Systems Engineering and Information
Technology, 2021, 21(6): 244-256.]
[11] HU Y H, YAN Q Y. Response to carbon emission flow
from self-driving tours and its spatial relationship with
scenic spots: A traffic-related big data method[J]. Journal
of Cleaner Production, 2019, 247(2): 119540
[12] CHEN F, YIN Z, YE Y, et al. Taxi hailing choice
behavior and economic benefit analysis of emission
reduction based on multi-mode travel big data[J].
Transport Policy, 2020, 97(10): 73-84.
[13] RUSSO F, VILLAN M G, D'ELIA I, et al. A study of
traffic emissions based on floating car data for urban
scale air quality applications[J]. Atmosphere, 2021, 12
(8): 1064.
[14] 吕晨. 北京市高分辨率交通碳排放清单研究与低碳发展情景分析[D]. 北京: 北京工业大学, 2020. [LV C.
Research on high resolution transport carbon emission
inventory and analysis of low carbon development
scenario in Beijing[D]. Beijing: Beijing University of
Technology, 2020.]
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