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Energy cost reduction in residential nanogrid under constraints of renewable energy, customer demand fitness and binary battery operations

Dahiru, A. T. and Tan, C. W. and Bukar, A. L. and Lau, K. Y. (2021) Energy cost reduction in residential nanogrid under constraints of renewable energy, customer demand fitness and binary battery operations. Journal of Energy Storage, 39 . ISSN 2352-152X

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Official URL: http://dx.doi.org/10.1016/j.est.2021.102520

Abstract

Intermittence of renewable energy is a challenge to demand side management in distributed grid technologies. Time-of-use tariffs are often applied to implement traditional strategies such as peak shaving and valley filling that are more functional to conventional grids. Time-of-use tariffs are however not suitable to matching customer demands as the periodic charges are fixed and cannot be match with stochastic renewable power generations. This paper proposes a time-of-use fitness in a grid connected photovoltaic/wind/battery nanogrid for energy cost reduction and maintained customer comforts. The proposed method considers three configurations of the nanogrid optimized using nested integer linear programming. Fitness functions are applied to either critical or flexible demands based on real-time residential consumptions, renewable generation and main grid imported power. Demand criticalities and customer fitness are used in preserving customer comforts. The method achieves 1.72–5.75% and 15.63–21.88% reduction in energy consumption costs against $120.30 and $145.14 flat and conventional time-of-use rates respectively in the nanogrid configurations. Use of battery in binary states of operation, as demand or supply further reduces consumption costs by 13.38–43.40% and 28.20–53.09% against the benchmarks. It is envisaged that better performance of the method can be achieved by multiplying operational scenarios of the battery.

Item Type:Article
Uncontrolled Keywords:demand side management, fitness cost, fitness function
Subjects:T Technology > TK Electrical engineering. Electronics Nuclear engineering
Divisions:Electrical Engineering
ID Code:94520
Deposited By: Narimah Nawil
Deposited On:31 Mar 2022 14:55
Last Modified:31 Mar 2022 14:55

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