Performance analysis of different control models for smart demand–supply energy management system

Loading...
Thumbnail Image

Authors

Mbungu, Nsilulu T.
Bansal, Ramesh C.
Naidoo, Raj
Siti, Mukwanga W.
Ismail, Ali Ahmed
Elnady, A.
Abokhali, Ahmed G.
Hamid, Abdul Kadir

Journal Title

Journal ISSN

Volume Title

Publisher

Elsevier

Abstract

Several features of innovative grid technologies can be deployed to improve the overall performance of the power system environment. This can be seen from the generation to the consumption of energy. The two-way communication of smart metering introduces the novel functionalities of the energy management system. This paper presents a practical implementation of using the intelligent metering system. It consists of implementing a nanogrid that optimally coordinates the energy from the solar panel, battery storage and utility grid to supply the end user. The developed model is validated with an optimal value of the state of charge of the distributed energy storage to maximise energy from the solar panel and battery storage while minimising the power received from the utility grid. A demand response scheme is employed to formulate the performance index of the energy management system using three optimal control models: adaptive open-loop control, adaptive closed-loop control and model predictive control schemes. The formulation of the performance index of each approach is a function of the energy flow from different resources depending on the power consumption. The three models have given different insights into the performance of the smart nanogrid, which may be used to the advantage of the grid owner or end user. Through the performance of the optimal strategies, it can be observed that energy management is ensured, and real-time monitoring of the entire system is guaranteed. The performance models facilitate the minimisation of the power from the utility, resulting in savings between 23.7% and 39.240% of the total energy demand from the end user. Besides, the system design is validated by an electrical system to form a real-world innovative nanogrid application in residential environments.

Description

DATA AVAILABILITY : Data will be made available on request.

Keywords

Battery energy storage, Microgrid, Nanogrid, Optimal control, Photovoltaic, Smart home, Smart grid, SDG-07: Affordable and clean energy

Sustainable Development Goals

SDG-07:Affordable and clean energy

Citation

Mbungu, N.T., Bansal, R.C., Naidoo, R.M. et al. 2024, 'Performance analysis of different control models for smart demand–supply energy management system', Journal of Energy Storage, vol. 90, art. 111829, pp. 1-13. https://DOI.org/10.1016/j.est.2024.111809