Prediction Model of Electric Power Carbon Emissions Based on Extended System Dynamics

In response to global climate change, China has committed to peaking carbon emissions by 2030 and achieving carbon neutrality by 2060, commonly known as the “30–60 Dual Carbon”. Under the background of “30–60 Dual Carbon”, this article takes the electric power industry, which is the main industry co...

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Bibliographic Details
Published in:Energies (Basel) 2024-01, Vol.17 (2), p.472
Main Authors: Wu, Zhenfen, Wang, Zhe, Yang, Qiliang, Li, Changyun
Format: Article
Language:English
Subjects:
Accuracy
Carbon
carbon neutrality
Coal
Coal-fired power plants
Consumption
Decomposition
EKC
Electric utilities
Electricity
electricity carbon emission
Electricity distribution
Energy
Environmental Kuznets curve
Feedback
Forecasts and trends
Global temperature changes
Impact factors
Neural networks
Optimization algorithms
stochastic impacts by regression on population, affluence, and technology (STIRPAT) model
system dynamics
Urbanization
Wang Zhe
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Summary:In response to global climate change, China has committed to peaking carbon emissions by 2030 and achieving carbon neutrality by 2060, commonly known as the “30–60 Dual Carbon”. Under the background of “30–60 Dual Carbon”, this article takes the electric power industry, which is the main industry contributing to China’s carbon emission, as the research object, explores the time and peak value of the carbon peak of the electric power industry, and analyzes whether carbon neutrality can be realized under the peak method, so as to get the carbon neutrality path of the electric power industry and serve as the theoretical basis for the formulation of relevant policies. The Environmental Kuznets Curve inspection and the relationship analysis are carried out, then the system dynamics model is constructed, the carbon emissions from 2020 to 2040 are simulated, and the peak time is predicted. Three different scenarios are set to explore the path of electricity carbon neutralization under the premise of a fixed peak. It is shown that Gross Domestic Product per capita index factors have the largest positive contribution, and thermal power share index factors have the largest negative contribution to electricity carbon emissions. Based on the current efforts of the new policy, carbon emissions can achieve the peak carbon emissions’ target before 2030, and it is expected to peak in 2029, with a peak range of about 4.95 billion tons. After the power industry peaks in 2029, i.e., Scenario 3, from coal 44%, gas 9% (2029) to coal 15%, gas 7% (2060), where the CCUS technology is widely used, this scenario can achieve carbon neutrality in electricity by 2060. Adjusting the power supply structure, strictly controlling the proportion of thermal power, optimizing the industrial structure, and popularization of carbon capture, utilization, and storage technology will all contribute to the “dual carbon” target of the power sector.
ISSN:1996-1073
1996-1073
DOI:10.3390/en17020472