Two-Stage Chance-Constrained Coordinated Operation of an Integrated Gas–Electric System

Under the background that the high penetration of renewable energy generation, which mainly consists of wind power, will have a significant impact on electric power systems due to the volatility and uncertainty of renewable energy, energy systems with gas–electric coupling and interconnections have...

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Vydané v:	Energies (Basel) Ročník 15; číslo 12; s. 4458
Hlavní autori:	Zhang, Yuqi, He, Chuan, Xv, Anqi, Tang, Xiaoxiao
Médium:	Journal Article
Jazyk:	English
Vydavateľské údaje:	Basel MDPI AG 01.06.2022
Predmet:	Alternative energy sources Approximation chance constraint Compressed air Decision theory Electric power production Electricity Electricity distribution Energy storage integrated gas–electric systems Linear programming Methods MILP Natural gas Optimization penetration Power supply Renewable resources Scheduling Simulation Supply chains Taylor series expansion two-stage Wind farms Wind power China
ISSN:	1996-1073, 1996-1073
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Abstract	Under the background that the high penetration of renewable energy generation, which mainly consists of wind power, will have a significant impact on electric power systems due to the volatility and uncertainty of renewable energy, energy systems with gas–electric coupling and interconnections have been widely studied to accommodate renewable energy generation. This paper proposes a two-stage chance-constrained coordinated operation model of an integrated gas–electric system and fully considers the uncertainty and high penetration of wind power. The Taylor series expansion method is used to linearize the Weymouth gas flow equation of a natural gas system and finally obtains a mixed integer linear programming model. Case studies show the effectiveness of the integrated energy system for peak shaving, valley filling, and promoting wind power accommodation. The proposed model ensures the consumption of wind power generation and also reduces the operation cost by about 0.7%.
AbstractList	Under the background that the high penetration of renewable energy generation, which mainly consists of wind power, will have a significant impact on electric power systems due to the volatility and uncertainty of renewable energy, energy systems with gas–electric coupling and interconnections have been widely studied to accommodate renewable energy generation. This paper proposes a two-stage chance-constrained coordinated operation model of an integrated gas–electric system and fully considers the uncertainty and high penetration of wind power. The Taylor series expansion method is used to linearize the Weymouth gas flow equation of a natural gas system and finally obtains a mixed integer linear programming model. Case studies show the effectiveness of the integrated energy system for peak shaving, valley filling, and promoting wind power accommodation. The proposed model ensures the consumption of wind power generation and also reduces the operation cost by about 0.7%.
Audience	Academic
Author	He, Chuan Xv, Anqi Tang, Xiaoxiao Zhang, Yuqi
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SubjectTerms	Alternative energy sources Approximation chance constraint Compressed air Decision theory Electric power production Electricity Electricity distribution Energy storage integrated gas–electric systems Linear programming Methods MILP Natural gas Optimization penetration Power supply Renewable resources Scheduling Simulation Supply chains Taylor series expansion two-stage Wind farms Wind power
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Title	Two-Stage Chance-Constrained Coordinated Operation of an Integrated Gas–Electric System
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