4.7 Article

Modeling and analysis of a microgrid considering the uncertainty in renewable energy resources, energy storage systems and demand management in electrical retail market

期刊

JOURNAL OF ENERGY STORAGE
卷 33, 期 -, 页码 -

出版社

ELSEVIER
DOI: 10.1016/j.est.2020.102111

关键词

Demand management; Particle swarm optimization (PSO); Energy storage system (ESS); Electrical market price; Price reduction; Renewable energy sources' uncertainty

资金

  1. Natural Science Foundation of China [71702029]
  2. Postdoctoral Science Special Foundation of China [2020T130085]
  3. Postdoctoral Science Foundation of China [2018M631840]
  4. Social Science Foundation of Jilin Province Education Department [JJKH20180455SK]
  5. Social Science Foundation of Jilin Province [2018B94]

向作者/读者索取更多资源

This paper proposes a heuristic method for load demand management in microgrids, utilizing a new decision-making criterion and particle swarm optimization method to reduce consumer costs. Simulation results show that demand response can significantly reduce total costs, as well as improve voltage stability and power deviation in the microgrid.
The renewable energy resources (RESs) are naturally generated such as wind turbine, photovoltaic cell and etc., which can be used in microgrids. In this paper, a heuristic method has been proposed for load demand management based on the produced power and the forecasted market clearing price in which the uncertain parameters of uncontrolled resources and load demand is taken into consideration. With the intermittent output of RESs due to the uncertainty in solar irradiation and wind speed, the forecasting unit will inform the operator on the power production levels in the upcoming 24 h. The energy storage system (ESS) is added to the network based on the modeling of demand management to induce operation costs of the microgrid (MG). Afterwards, the optimization unit utilizes a new decision-making criterion and the particle swarm optimization (PSO) method to define generation schedule and resources' economic dispatch to reduce consumers' costs. Moreover, the proposed model is used to guarantee voltage stability and basic load support. The simulation results are presented by three scenarios with and without price-based demand response. The comparisons among the results illustrate the effectiveness of demand management on system costs. As shown in simulation results, demand response has highly reduced total cost (20-30% related to the case without that) where voltage dip (maximum 1.4%) and power deviation (maximum 1.25%) are also improved in the microgrid.

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