Risk Identification and Optimization of Clean Energy Supply Chain under the "Dual Carbon" Goal
DOI:
https://doi.org/10.54691/rms4er41Keywords:
Risk Assessment; Clean Energy Supply Chains; Risk Identification; Optimization Mechanism.Abstract
The rational development and utilization of renewable clean energy resources such as hydropower, wind energy, and biomass energy is in line with the trajectory of energy development, and plays a major role in establishing a sustainable energy system and promoting national economic development and environmental protection.The race to net zero will redefine global energy security, with secure, resilient and sustainable clean energy supply chains at the heart of the global energy transition.This paper firstly screens and analyzes the risk factors of clean energy supply chain in the context of China's "dual carbon" goals, and preliminarily constructs a risk assessment index system with reference to the SCOR model.The fuzzy comprehensive evaluation method and entropy value method were used to evaluate the impact of risk factors in China's clean energy supply chain, establish a risk assessment model, and then analyze the risk factors of China's clean energy supply chain.Finally, based on the previous research, some suggestions are put forward for the risk management and optimization of China's energy supply chain.
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References
SunXiaoqi.Supply chain risks of critical metals: Sources, propagation, and responses[J].frontiers in energy research,2022,10.
WuTao.Carbon emissions, technology upgradation and financing risk of the green supply chain competition[J].Technological forecasting and social change,2020,152.
Jiskani,Izhar.Implications to secure mineral supply for clean energy technologies for developing countries: A fuzzy based risk analysis for mining projects[J].Journal of cleaner production,2022,358.
HotchkissEliza.Comparing methods for criticality and security in minerals for clean energy[J]. Extractive industries and society,2024,17.
BustamanteMichele.Challenges in assessment of clean energy supply-chains based on byproduct minerals: A case study of tellurium use in thin film photovoltaics[J].Applied energy,2014,123:397-414.
ZhouBaolu.Rare Earth Elements supply vs. clean energy technologies: new problems tobe solve[J].Gospodarka surowcami mineralnymi-mineral resources management,2016,32(4):29-44.
GarciaJolly.A practical model for the supply chain growth optimization for automotive fuels in Mexico[J].Canadian journal of chemical engineering,2021,99(4):898-914.
KuAnthony.Materials scarcity during the clean energy transition: Myths, challenges, and opportunities[J]. Mrs energy & sustainability,2024,11(1):173-180.
ZengHongjun.Measuring the extreme linkages and time-frequency co-movements among artificial intelligence and clean energy indices[J].International review of financial analysis,2024,92.
MertensJan.From emissions to resources: mitigating the critical raw material supply chain vulnerability of renewable energy technologies[J].Mineral economics,2024:1-8.
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