Optimal and stochastic performance of an energy hub-based microgrid consisting of a solar-powered compressed-air energy storage system and cooling storage system by modified grasshopper optimization algorithm

Simultaneous operation of different energy generation and transmission infrastructures is a subject that has been considered under the concept of energy hub. This subject is highly regarded in the field of microgrids. One of the basic issues for investors is to properly utilize the energy hub for op...

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Published inInternational journal of hydrogen energy Vol. 47; no. 27; pp. 13351 - 13370
Main Authors Wen, Peng, Xie, Yunfang, Huo, Limin, Tohidi, Akbar
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 29.03.2022
Subjects
Combined cooling-heating-power system
Compressed air energy storage system
Cooling storage conditioner system
Energy hub
Energy storage system
Microgrid
Energy hub
Cooling storage conditioner system
Microgrid
Combined cooling-heating-power system
Energy storage system
Compressed air energy storage system
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Abstract Simultaneous operation of different energy generation and transmission infrastructures is a subject that has been considered under the concept of energy hub. This subject is highly regarded in the field of microgrids. One of the basic issues for investors is to properly utilize the energy hub for optimally managing energy carriers, especially in the energy price prediction. In the present paper, a new strategy is introduced for the energy hub in order to achieve the optimal performance of a microgrid (MG) that includes different energy carriers for each day. The objective of this strategy is to minimize the operation cost and consider the environmental issues. The proposed energy hub consists of a combined cooling-heating-power (CCHP) system along with a wind turbine and photovoltaic cells. The studied energy hub system is composed of an ice storage conditioner (ISC) system and an energy storage system (ESS) as the energy storage resource (ESR). One of the goals of the present work is to investigate the effect of solar-powered compressed-air energy storage (SPCAES) on the performance of the energy hub. The proposed strategy takes into account the uncertainty of the energy resources such as the wind and sun for meeting the electric, thermal, and cooling needs in different scenarios. In the present paper, to produce various scenarios, the Latin hypercube sampling (LHS) method is used. Also, the k-means method is used to reduce the number of scenarios. The objective function is solved using the modified grasshopper optimization algorithm (MGOA). According to the modeling results, the ESS can exhibit successful performance in the energy management strategy. •Considering the effects of the SPCAES and ISC on optimal performance of the energy hub.•Considering the effects of the SPCAES and ISC on the optimal performance.•Application of generations sources as PV, WT, CHP system, and TESS.
AbstractList Simultaneous operation of different energy generation and transmission infrastructures is a subject that has been considered under the concept of energy hub. This subject is highly regarded in the field of microgrids. One of the basic issues for investors is to properly utilize the energy hub for optimally managing energy carriers, especially in the energy price prediction. In the present paper, a new strategy is introduced for the energy hub in order to achieve the optimal performance of a microgrid (MG) that includes different energy carriers for each day. The objective of this strategy is to minimize the operation cost and consider the environmental issues. The proposed energy hub consists of a combined cooling-heating-power (CCHP) system along with a wind turbine and photovoltaic cells. The studied energy hub system is composed of an ice storage conditioner (ISC) system and an energy storage system (ESS) as the energy storage resource (ESR). One of the goals of the present work is to investigate the effect of solar-powered compressed-air energy storage (SPCAES) on the performance of the energy hub. The proposed strategy takes into account the uncertainty of the energy resources such as the wind and sun for meeting the electric, thermal, and cooling needs in different scenarios. In the present paper, to produce various scenarios, the Latin hypercube sampling (LHS) method is used. Also, the k-means method is used to reduce the number of scenarios. The objective function is solved using the modified grasshopper optimization algorithm (MGOA). According to the modeling results, the ESS can exhibit successful performance in the energy management strategy. •Considering the effects of the SPCAES and ISC on optimal performance of the energy hub.•Considering the effects of the SPCAES and ISC on the optimal performance.•Application of generations sources as PV, WT, CHP system, and TESS.
Author Wen, Peng
Huo, Limin
Tohidi, Akbar
Xie, Yunfang
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Keywords Energy hub
Cooling storage conditioner system
Microgrid
Combined cooling-heating-power system
Energy storage system
Compressed air energy storage system
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Snippet Simultaneous operation of different energy generation and transmission infrastructures is a subject that has been considered under the concept of energy hub....
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StartPage 13351
SubjectTerms Combined cooling-heating-power system
Compressed air energy storage system
Cooling storage conditioner system
Energy hub
Energy storage system
Microgrid
Title Optimal and stochastic performance of an energy hub-based microgrid consisting of a solar-powered compressed-air energy storage system and cooling storage system by modified grasshopper optimization algorithm
URI https://dx.doi.org/10.1016/j.ijhydene.2022.02.081
Volume 47
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