Multi-objective home energy management with battery energy storage systems

•An efficient home energy management (HEM) model with the battery energy storage system is proposed.•Multi-objective mixed integer linear programming is used to solve the objectives of the proposed HEM model.•Six different scenarios are considered to investigate the impacts of battery storage system...

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Published in:Sustainable cities and society Vol. 47; p. 101458
Main Authors: Lokeshgupta, B., Sivasubramani, S.
Format: Journal Article
Language:English
Published: Elsevier Ltd 01.05.2019
Subjects:
Cash payback period
Mixed integer linear programming
Multi-objective home energy management
Optimal battery scheduling
Peak demand reduction
Multi-objective home energy management
Optimal battery scheduling
Mixed integer linear programming
Peak demand reduction
Cash payback period
ISSN:2210-6707, 2210-6715
Online Access:Get full text
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Abstract •An efficient home energy management (HEM) model with the battery energy storage system is proposed.•Multi-objective mixed integer linear programming is used to solve the objectives of the proposed HEM model.•Six different scenarios are considered to investigate the impacts of battery storage system on the proposed HEM problem.•Finally, an economic analysis for each consumer's battery investment is also done.•Simulation results show that the proposed scheme is able to enhance the benefits of both consumers and utilities. Home energy management (HEM) is one of the crucial requirements for future smart grid environment. Usually, utility companies motivate residential consumers to participate in household demand side management (DSM) techniques. The residential consumers’ main intention is to reduce their electricity bills whereas utilities’ primary goal is to reduce their system peak load demand. The benefits of DSM can be enhanced with smart energy storage systems. In this paper, an intelligent multi-objective household DSM with battery storage systems is proposed to minimize both the objectives simultaneously. Generally, the residential DSM deals with various controllable appliances that normally have different operating time priorities according to the consumers’ preferences. Because of this, the DSM problem is modelled as a mixed integer optimization problem. In this paper, the multi-objective mixed integer linear programming technique (MOMILP) is used to solve the proposed residential DSM problem. The proposed model is tested on a system having four different residential consumers. The benefits of the battery energy storage systems are analysed by taking six different scenarios. An economic analysis of each residential consumer's battery storage system with load uncertainty modelling is also done in this paper. Simulation results of various scenarios with different objectives demonstrate the effectiveness of the proposed model.
AbstractList •An efficient home energy management (HEM) model with the battery energy storage system is proposed.•Multi-objective mixed integer linear programming is used to solve the objectives of the proposed HEM model.•Six different scenarios are considered to investigate the impacts of battery storage system on the proposed HEM problem.•Finally, an economic analysis for each consumer's battery investment is also done.•Simulation results show that the proposed scheme is able to enhance the benefits of both consumers and utilities. Home energy management (HEM) is one of the crucial requirements for future smart grid environment. Usually, utility companies motivate residential consumers to participate in household demand side management (DSM) techniques. The residential consumers’ main intention is to reduce their electricity bills whereas utilities’ primary goal is to reduce their system peak load demand. The benefits of DSM can be enhanced with smart energy storage systems. In this paper, an intelligent multi-objective household DSM with battery storage systems is proposed to minimize both the objectives simultaneously. Generally, the residential DSM deals with various controllable appliances that normally have different operating time priorities according to the consumers’ preferences. Because of this, the DSM problem is modelled as a mixed integer optimization problem. In this paper, the multi-objective mixed integer linear programming technique (MOMILP) is used to solve the proposed residential DSM problem. The proposed model is tested on a system having four different residential consumers. The benefits of the battery energy storage systems are analysed by taking six different scenarios. An economic analysis of each residential consumer's battery storage system with load uncertainty modelling is also done in this paper. Simulation results of various scenarios with different objectives demonstrate the effectiveness of the proposed model.
ArticleNumber 101458
Author Sivasubramani, S.
Lokeshgupta, B.
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Keywords Multi-objective home energy management
Optimal battery scheduling
Mixed integer linear programming
Peak demand reduction
Cash payback period
Language English
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Snippet •An efficient home energy management (HEM) model with the battery energy storage system is proposed.•Multi-objective mixed integer linear programming is used...
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StartPage 101458
SubjectTerms Cash payback period
Mixed integer linear programming
Multi-objective home energy management
Optimal battery scheduling
Peak demand reduction
Title Multi-objective home energy management with battery energy storage systems
URI https://dx.doi.org/10.1016/j.scs.2019.101458
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