Analysis and optimization of the steady state voltage deviation demand for reactive power planning using installed reactive power sources
Conference: NEIS 2022 - Conference on Sustainable Energy Supply and Energy Storage Systems
09/26/2022 - 09/27/2022 at Hamburg, Germany
Proceedings: NEIS 2022
Pages: 8Language: englishTyp: PDF
Authors:
Rauch, Johannes; Brueckl, Oliver (Ostbayerische Technische Hochschule Regensburg, Germany)
Engel, Bernd (Technische Universität Braunschweig, Germany)
Abstract:
The provision of reactive power is one option for maintaining the grid voltage, that is defined as an ancillary service in Germany. This paper presents an approach for determining deficient voltage deviation demands within an electrical grid for long term reactive power planning investigations. In contrast to previous approaches, which evaluate the Q-behavior of extended ward elements or grid assets, voltage deviations are analyzed bus-specifically. So further reactive power planning investigations are able to scale and optimize additional reactive power sources directly on planning voltage limits using load flow sensitivity techniques. The focus lies on the analysis of the steady state demand at base case conditions. Therefore, a grid planning process is conceptualized. An optimal power flow algorithm based on Differential Evolution is used for an optimal reactive power dispatch of installed reactive power sources, e. g. reactive power compensation systems or (renewable) energy sources to minimize the total voltage deviation according to voltage limits of Transmission System Operators planning principles. Methodological and processuals specifications as well as an application use case with an exemplary transmission system are presented in this paper.