China's Energy Structure Problems and Optimization Suggestions from the Perspective of Low-carbon Economy
DOI:
https://doi.org/10.54097/fbem.v11i2.12591Keywords:
Low carbon economy, China's energy structure issues, Optimization.Abstract
Energy consumption, technological level, and sustainable industrial system are crucial for developing a low-carbon economy. China's excessive reliance on coal has led to low energy utilization efficiency, which has become an important factor affecting the optimization of China's energy structure and further constraining the sustainable development of the economy. In this regard, this article attempts to explore the issues of China's energy structure from the perspective of a low-carbon economy, and proposes strategies for optimizing China's energy structure from the perspective of a low-carbon economy. In the context of developing a low-carbon economy, starting from China's specific national conditions, the government should play a guiding role, optimize China's energy structure step by step, and promote the development of new energy projects. Based on China's actual technological situation, technological upgrading and industrial structure transformation, we will focus on developing low-carbon related industries and strategic emerging industries. Only by continuously innovating and applying new energy can we achieve the transformation of energy application structure in the production and living fields, gradually shifting from high pollution and high emissions to low pollution and low emissions.
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References
Li Y, Dai G.Energy saving and emission reduction of fossil energy based on low carbon economy and its consumption structure optimization[J].International journal of low carbon technologies, 2019, 14(3):381-385.
Yingchun S, Aijie L I.Research on Industrial Structure Optimization of Beijing-Tianjin-Hebei from the Perspective of Low-carbon Economy[J].Journal of Beijing University of Aeronautics and Astronautics(Social Sciences Edition), 2019, 23(10):41-46.
Yang Z, Shi Q, Lv X,et al.Heterogeneous low-carbon targets and energy structure optimization: Does stricter carbon regulation really matter?[J].Structural change and economic dynamics, 2022, 12(60-Mar.):9-13.
Liu E B, Peng Y, Peng S B,et al.Research on low carbon emission optimization operation technology of natural gas pipeline under multi-energy structure[J].Petroleum Science: English Version, 2022, 19(6):3046-3058.
Wang W, Yu H, Gao Q,et al.Energy conversion path and optimization model in COVID-19 under low carbon constraints based on statistical learning theory[J].Journal of Intelligent & Fuzzy Systems: Applications in Engineering and Technology, 2020, 15(2):39-44.
Wang M, Zhang L, Su X,et al.Assessing the technology impact for industry carbon density reduction in China based on C3IAM-Tice[J].Natural Hazards, 2021, 99(12):22-26.
Zhang Z, Yu L.Joint emission reduction dynamic optimization and coordination in the supply chain considering fairness concern and reference low-carbon effect[J].Journal of Industrial and Management Optimization, 2022, 18(6):4201-4229.
Xiran W, Ke S, Xuan Y,et al.Optimal allocation method of hybrid energy storage capacity of multi-energy system under low-carbon background[J].International Journal of Low-Carbon Technologies, 2023, 26(7):19-24.
Kim Y J, Soh M, Cho S H.Identifying optimal financial budget distributions for the low-carbon energy transition between emerging and developed countries[J].Applied energy, 2022, 11(9):15-18.
Ming Y Y, Dong S J, Sheng L Q,et al.Status and Prospect of Research on China's Energy Structure Optimization[J].Coal Engineering, 2019, 20(7):16-19.
Mei H, Li Y P, Suo C,et al.Analyzing the impact of climate change on energy-economy-carbon nexus system in China[J].Applied Energy, 2020, 262(5):114568-114572.
