An Optimal Allocation Strategy for Multienergy Networks Based on Double-Layer Nondominated Sorting Genetic Algorithms

An Optimal Allocation Strategy for Multienergy Networks Based on Double-Layer Nondominated Sorting Genetic Algorithms

Aiming at the problems of complex structures, variable loads, and fluctuation of power outputs of multienergy networks, this paper proposes an optimal allocation strategy of multienergy networks based on the double-layer nondominated sorting genetic algorithm, which can optimize the allocation of di...

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Main Authors: Min Mou, Da Lin, Yuhao Zhou, Wenguang Zheng, Jiongming Ruan, Dongdong Ke
Format: Article
Language:English
Published: Hindawi-Wiley 2019-01-01
Series:Complexity
Online Access:http://dx.doi.org/10.1155/2019/5367403
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spelling doaj-a0e5895a29f145578c7a03a73947aba82020-11-25T01:27:34ZengHindawi-WileyComplexity1076-27871099-05262019-01-01201910.1155/2019/53674035367403An Optimal Allocation Strategy for Multienergy Networks Based on Double-Layer Nondominated Sorting Genetic AlgorithmsMin Mou0Da Lin1Yuhao Zhou2Wenguang Zheng3Jiongming Ruan4Dongdong Ke5Huadian Electric Power Research Institute Co., Ltd., Hangzhou, Zhejiang 310013, ChinaHuadian Electric Power Research Institute Co., Ltd., Hangzhou, Zhejiang 310013, ChinaHuadian Electric Power Research Institute Co., Ltd., Hangzhou, Zhejiang 310013, ChinaHuadian Electric Power Research Institute Co., Ltd., Hangzhou, Zhejiang 310013, ChinaHuadian Electric Power Research Institute Co., Ltd., Hangzhou, Zhejiang 310013, ChinaHuadian Electric Power Research Institute Co., Ltd., Hangzhou, Zhejiang 310013, ChinaAiming at the problems of complex structures, variable loads, and fluctuation of power outputs of multienergy networks, this paper proposes an optimal allocation strategy of multienergy networks based on the double-layer nondominated sorting genetic algorithm, which can optimize the allocation of distributed generation (DG) and then improve the system economy. In this strategy, the multiobjective nondominated sorting genetic algorithm is adopted in both layers, and the second-layer optimization is based on the optimization result of the first layer. The first layer is based on the structure and load of the multienergy network. With the purpose of minimizing the active power loss and the node voltage offset, an optimization model of the multienergy network is established, which uses the multiobjective nondominated sorting genetic algorithm to solve the installation location and the capacity of DGs in multienergy networks. In the second layer, according to the optimization results of the first layer and the characteristics of different DGs (wind power generator, photovoltaic panel, microturbine, and storage battery), the optimization model of the multienergy network is established to improve the economy, reliability, and environmental benefits of multienergy networks. It uses the multiobjective nondominated sorting genetic algorithm to solve the allocation capacity of different DGs so as to solve the optimal allocation problem of node capacity in multienergy networks. The double-layer optimization strategy proposed in this paper greatly promotes the development of multienergy networks and provides effective guidance for the optimal allocation and reliable operation of multienergy networks.http://dx.doi.org/10.1155/2019/5367403
collection DOAJ
language English
format Article
sources DOAJ
author Min Mou
Da Lin
Yuhao Zhou
Wenguang Zheng
Jiongming Ruan
Dongdong Ke
spellingShingle Min Mou
Da Lin
Yuhao Zhou
Wenguang Zheng
Jiongming Ruan
Dongdong Ke
An Optimal Allocation Strategy for Multienergy Networks Based on Double-Layer Nondominated Sorting Genetic Algorithms
Complexity
author_facet Min Mou
Da Lin
Yuhao Zhou
Wenguang Zheng
Jiongming Ruan
Dongdong Ke
author_sort Min Mou
title An Optimal Allocation Strategy for Multienergy Networks Based on Double-Layer Nondominated Sorting Genetic Algorithms
title_short An Optimal Allocation Strategy for Multienergy Networks Based on Double-Layer Nondominated Sorting Genetic Algorithms
title_full An Optimal Allocation Strategy for Multienergy Networks Based on Double-Layer Nondominated Sorting Genetic Algorithms
title_fullStr An Optimal Allocation Strategy for Multienergy Networks Based on Double-Layer Nondominated Sorting Genetic Algorithms
title_full_unstemmed An Optimal Allocation Strategy for Multienergy Networks Based on Double-Layer Nondominated Sorting Genetic Algorithms
title_sort optimal allocation strategy for multienergy networks based on double-layer nondominated sorting genetic algorithms
publisher Hindawi-Wiley
series Complexity
issn 1076-2787
1099-0526
publishDate 2019-01-01
description Aiming at the problems of complex structures, variable loads, and fluctuation of power outputs of multienergy networks, this paper proposes an optimal allocation strategy of multienergy networks based on the double-layer nondominated sorting genetic algorithm, which can optimize the allocation of distributed generation (DG) and then improve the system economy. In this strategy, the multiobjective nondominated sorting genetic algorithm is adopted in both layers, and the second-layer optimization is based on the optimization result of the first layer. The first layer is based on the structure and load of the multienergy network. With the purpose of minimizing the active power loss and the node voltage offset, an optimization model of the multienergy network is established, which uses the multiobjective nondominated sorting genetic algorithm to solve the installation location and the capacity of DGs in multienergy networks. In the second layer, according to the optimization results of the first layer and the characteristics of different DGs (wind power generator, photovoltaic panel, microturbine, and storage battery), the optimization model of the multienergy network is established to improve the economy, reliability, and environmental benefits of multienergy networks. It uses the multiobjective nondominated sorting genetic algorithm to solve the allocation capacity of different DGs so as to solve the optimal allocation problem of node capacity in multienergy networks. The double-layer optimization strategy proposed in this paper greatly promotes the development of multienergy networks and provides effective guidance for the optimal allocation and reliable operation of multienergy networks.
url http://dx.doi.org/10.1155/2019/5367403
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