Allocation Model of Carbon Emission Permits for the Electric Power Industry with a Combination Subjective and Objective Weighting Approach

Allocation Model of Carbon Emission Permits for the Electric Power Industry with a Combination Subjective and Objective Weighting Approach

The electric power industry plays a vital role in carbon emissions reduction efforts. The initial allocation of carbon emission permits to the electric power industry is the key to ensuring the effective operation of the carbon trading market. In this study, the multiple correlated factors that affe...

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Bibliographic Details
Published in:Energies (Basel) Vol. 13; no. 3; p. 706
Main Authors: Pan, Xianxian, Liu, Hong, Huan, Jiajia, Sui, Yu, Hong, Haifeng
Format: Journal Article
Language:English
Published: Basel MDPI AG 01-02-2020
Subjects:
allocation model
analytic hierarchy process
Carbon
carbon emission permits
Clean technology
Coal
Computer simulation
Correlation analysis
Costs
Decision making
Decomposition
Electric industries
Electric power
electric power industry
Electricity distribution
Emission analysis
Emissions control
Emissions trading
Energy management
entropy weight method
Jurisdiction
Methods
Power supply
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Summary:The electric power industry plays a vital role in carbon emissions reduction efforts. The initial allocation of carbon emission permits to the electric power industry is the key to ensuring the effective operation of the carbon trading market. In this study, the multiple correlated factors that affect the carbon emission permit allocation system were extracted. Then, based on the experts’ knowledge and experience, the subjective weight of each index was determined using an improved analytic hierarchy process. Subsequently, the indices were mapped using an improved entropy weight method, and the objective weight of each index was adaptively determined. Finally, the comprehensive weight of each index was determined by optimizing the combination of its subjective and objective weights, and an allocation model of carbon emission permits for the electric power industry was established. A case study of a province by comparative simulation was performed. The simulation results showed that compared with conventional allocation schemes that consider single factors, the theoretical estimates obtained using the proposed model more objectively reflected the actual situation of carbon emissions reduction permits and responsibilities in the region.
ISSN:1996-1073
1996-1073
DOI:10.3390/en13030706