DOI:https://doi.org/10.1007/s40565-019-0566-x |
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Reliability evaluation of integrated electricity–gas system utilizing network equivalent and integrated optimal power flow techniques |
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Net amount: 528 |
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Author:
Sheng WANG1, Yi DING1, Chengjin YE1, Can WAN1, Yuchang MO2
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Author Affiliation:
1.College of Electrical Engineering, Zhejiang University, Hangzhou, China;2.School of Mathematical Sciences, Huaqiao University, Quanzhou, China
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Foundation: |
This work was supported by National Natural Science Foundation of China (No. 71871200). |
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Abstract: |
The wide utilization of gas-fired generation and the rapid development of power-to-gas technologies have led to the intensified integration of electricity and gas systems. The random failures of components in either electricity or gas system may have a considerable impact on the reliabilities of both systems. Therefore, it is necessary to evaluate the reliabilities of electricity and gas systems considering their integration. In this paper, a novel reliability evaluation method for integrated electricity–gas systems (IEGSs) is proposed. First, reliability network equivalents are utilized to represent reliability models of gas-fired generating units, gas sources (GSs), power-to-gas facilities, and other conventional generating units in IEGS. A contingency management schema is then developed considering the coupling between electricity and gas systems based on an optimal power flow technique. Finally, the time-sequential Monte Carlo simulation approach is used to model the chronological characteristics of the corresponding reliability network equivalents. The proposed method is capable to evaluate customers’ reliabilities in IEGS, which is illustrated on an integrated IEEE Reliability Test System and Belgium gas transmission system. |
Keywords: |
Integrated electricity–gas system, Integrated electricity and gas optimal power flow, Reliability network equivalent, Time-sequential Monte Carlo simulation |
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Online Time:2019/11/27 |
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