Achieving net-zero emissions in China’s passenger transport sector through regionally tailored mitigation strategies
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Title
Achieving net-zero emissions in China’s passenger transport sector through regionally tailored mitigation strategies
Authors
Keywords
Passenger transport, Net-zero emissions, Regional disparity, Provincial-level, CPPEC model
Journal
APPLIED ENERGY
Volume 284, Issue -, Pages 116265
Publisher
Elsevier BV
Online
2020-12-17
DOI
10.1016/j.apenergy.2020.116265
References
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- Regional disparity of urban passenger transport associated GHG (greenhouse gas) emissions in China: A review
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- Carbon dioxide emissions from passenger transport in China since 1949: Implications for developing sustainable transport
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- A system dynamics model of CO2 mitigation in China’s inter-city passenger transport
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- Taming of the few—The unequal distribution of greenhouse gas emissions from personal travel in the UK
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