Assessing decarbonization pathways of China’s heavy-duty trucks in a well-to-wheels perspective

Purpose Decarbonizing the heavy-duty truck (HDT) sector is a climate imperative but also a challenging element to meet China’s carbon reduction commitment. Various technological and non-technological measures are emerging. However, a comprehensive understanding is still lacking regarding the extent...

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Bibliographic Details
Published in:The international journal of life cycle assessment 2023-07, Vol.28 (7), p.862-876
Main Authors: Xue, Xingyu, Li, Jianxin, Sun, Xin, Abdul-Manan, Amir F. N., Du, Sha, Liu, Huanran, Xu, Shujie, Zhao, Mingnan
Format: Article
Language:English
Subjects:
Alternative fuels
Carbon
Carbon content
Carbon sources
Decarbonization
Dynamic models
Earth and Environmental Science
Emission analysis
Emission measurements
Emissions
Emissions control
Energy demand
Energy distribution
Environment
Environmental Chemistry
Environmental Economics
Environmental Engineering/Biotechnology
Freight transportation
Fuel cells
Fuel production
Greenhouse gases
Heavy duty trucks
Hybridization
Hydrogen fuels
Internal combustion engines
Life cycle analysis
Life cycle assessment
Life Cycle Sustainability Assessment
Life cycles
Logistics
Powertrain
Sustainable transportation
Synthetic fuels
Trucks
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Summary:Purpose Decarbonizing the heavy-duty truck (HDT) sector is a climate imperative but also a challenging element to meet China’s carbon reduction commitment. Various technological and non-technological measures are emerging. However, a comprehensive understanding is still lacking regarding the extent to which these measures can decarbonize the HDT fleet. This study aims to provide a systematic assessment of near and long-term strategies toward decarbonizing the road freight sector in China from a well-to-wheels (WTW) life cycle perspective. Methods A fleet-based dynamic model is developed to estimate the prospective greenhouse gas (GHG) emissions of China’s HDT sector from 2020 to 2050. The case study considers the overall WTW life cycle GHG emissions including the fuel and energy production, distribution, and the use for vehicle operation. Relative to a base case scenario, four mitigation options are investigated: improvements in freight logistics, internal combustion engine vehicle (ICEV) efficiency improvements, adoption of advanced hybrid technology, and the use of alternative fuel types. The study quantifies the potential emission reduction and energy demand by deploying these measures synergistically through 2050. The implications of upstream fuel production pathways to the fleet GHG emissions are examined. Results and discussion The annual GHG emissions of China’s HDT fleet are projected to nearly double from 2020 to 2050 if no abatement technologies are implemented. Cumulative deployments of considered measures will enable the net GHG emissions to peak in 2029 and result in more than 60% emission reduction in 2050. Improving conventional vehicles through ICEV efficiency improvement and hybridization, complemented by improved logistics operations, presents important near-term opportunities to moderate the rise in GHG emissions. Meanwhile, the growing penetrations of battery electric and hydrogen fuel cell trucks, coupled with sufficient access to lower-carbon sources, could facilitate deeper reductions in emissions in the longer term. Furthermore, low carbon synthetic fuel offers an opportunity to accelerate the decarbonization of older trucks still existing within the fleet. Conclusions There is no silver bullet to decarbonize the HDTs, whereby, on its own, each measure is inadequate to fully mitigate emissions from China’s growing freight sector. A broad mix of energy, powertrain technologies, and logistical solutions is needed to support an orderly
ISSN:0948-3349
1614-7502
DOI:10.1007/s11367-022-02124-y