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Optimal composition of alternative energy sources to minimize power losses and maximize profits in distribution power network

I. Diahovchenko, V. Zalotov

7th IEEE International Conference on Energy Smart Systems - IEEE ESS 2020, Kiev (Ukraine). 12-14 May 2020


Summary:

Electrical power systems are transforming from the traditional centralized bulk systems, to more decentralized systems, with distributed generation installed close to demand consumption. Since several alternative energy technologies have become commercially available, distributed generators are often of a renewable nature. This paper proposes a two-stage approach to determine optimal alternative electricity generation mix. An optimal composition and capacities of generation units of different types are determined by means of the simplex method. Alongside with that, the problems of power losses minimization and voltage stability of distribution networks are also addressed. A backward-forward sweep method is applied for optimal sizing and placement of distributed energy resources. The IEEE 33-bus test system is employed to demonstrate the effectiveness of the proposed approach.


Keywords: distributed generation placement, radial distribution system, linear programming, simplex-method, backward-forward sweep method, renewable energy sources, wind energy, photovoltaic systems, biomass, biofuel power, microturbines, power system modeling, alternative energy sources


DOI: DOI icon https://doi.org/10.1109/ESS50319.2020.9160259

Published in IEEE ESS 2020, pp: 1-6, ISBN: 978-1-7281-9788-3

Publication date: 2020-05-12.



Citation:
I. Diahovchenko, V. Zalotov, Optimal composition of alternative energy sources to minimize power losses and maximize profits in distribution power network, 7th IEEE International Conference on Energy Smart Systems - IEEE ESS 2020, Kiev (Ukraine). 12-14 May 2020. In: IEEE ESS 2020: Conference proceedings, ISBN: 978-1-7281-9788-3

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