Sustainable microgrid design considering blockchain technology for real-time price-based demand response programs

•This study addresses the sustainable mircogrids design problem under competition.•Leveraging blockchain technology to provide the demand response programs.•Three sustainable objectives (economy, environment, and society) are considered.•A robust fuzzy multi-objective optimization approach is propos...

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Bibliographic Details
Published in:International journal of electrical power & energy systems Vol. 125; p. 106418
Main Authors: Tsao, Yu-Chung, Thanh, Vo-Van, Wu, Qiuwei
Format: Journal Article
Language:English
Published: Elsevier Ltd 01.02.2021
Subjects:
Blockchain technology
Demand response
Fuzzy programming
Microgrid
Robust multi-objective optimization
Sustainability
Robust multi-objective optimization
Demand response
Fuzzy programming
Microgrid
Sustainability
Blockchain technology
ISSN:0142-0615, 1879-3517
Online Access:Get full text
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Summary:•This study addresses the sustainable mircogrids design problem under competition.•Leveraging blockchain technology to provide the demand response programs.•Three sustainable objectives (economy, environment, and society) are considered.•A robust fuzzy multi-objective optimization approach is proposed.•The proposed model and solution approach are then applied to a case study in Vietnam. In recent years, rapidly increasing electric power demand and organizational concerns regarding social and environmental issues have resulted in significant attention being given to microgrids. However, sustainable microgrids that simultaneously address economic benefits and environmental and social issues have not been broadly explored by researches. This study addresses the sustainable microgrid design problem by leveraging blockchain technology to provide the real time-based demand response programs. Three sustainable objectives (economy, environment, and society) are formulated by a multi-objective mixed integer-linear programming model. A robust fuzzy multi-objective optimization approach is proposed to determine the optimal number, location, and capacity of renewable distributed generation units as well as the equilibrium supply and dynamic pricing decisions under uncertain demand, capacity, and economic, environmental, and social parameters. The proposed model and solution approach are then applied to a case study in Vietnam. We find that blockchain technology-based sustainable microgrid can result in a 1.68% and 2.61% increase of profitability and consumer satisfaction, respectively, and a 0.97% reduction of environmental impacts.
ISSN:0142-0615
1879-3517
DOI:10.1016/j.ijepes.2020.106418