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Home / Journals / ENERGY / Online First / doi:10.32604/ee.2024.052268
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Distributed Robust Scheduling Optimization of Wind-Thermal-Storage System Based on Hybrid Carbon Trading and Wasserstein Fuzzy Set

Gang Wang*, Yuedong Wu, Xiaoyi Qian, Yi Zhao
Institute of Electric Power, Shenyang Institute of Engineering, Shenyang, 110036, China
* Corresponding Author: Gang Wang. Email: email

Energy Engineering https://doi.org/10.32604/ee.2024.052268

Received 28 March 2024; Accepted 23 May 2024; Published online 28 June 2024

Abstract

A robust scheduling optimization method for wind–fire storage system distribution based on the mixed carbon trading mechanism is proposed to improve the rationality of carbon emission quota allocation while reducing the instability of large-scale wind power access systems. A hybrid carbon trading mechanism that combines short-term and long-term carbon trading is constructed, and a fuzzy set based on Wasserstein measurement is proposed to address the uncertainty of wind power access. Moreover, a robust scheduling optimization method for wind–fire storage systems is formed. Results of the multi scenario comparative analysis of practical cases show that the proposed method can deal with the uncertainty of large-scale wind power access and can effectively reduce operating costs and carbon emissions.

Keywords

Carbon trading; wind power uncertainty; optimal scheduling; robust optimization

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