Abstract
Focused on the challenges raised by the large-scale integration of renewable energy resources and the urgent goal of energy saving, a novel control scheme for the unified power flow controller (UPFC) series converter is proposed to achieve line loss reduction and security enhancement in distribution systems with a high penetration of renewable energy. Firstly, the line loss minimum conditions of a general distribution system with loop configurations are deduced. Secondly, security constraints including the permissible voltage range, the line loading limits and the UPFC ratings are considered. System security enhancement with the least increase in line loss is tackled by solving a much reduced optimal power flow (OPF) problem. The computational task of the OPF problem is reduced by deducing the security-constrained line loss minimum conditions and removing the equality constraints. Thirdly, a hybrid control scheme is proposed. Line loss minimization is achieved through a dynamic controller, while an OPF calculator is integrated to generate corrective action for the dynamic controller when the security constraints are violated. The validity of the proposed control strategies is verified in a modified IEEE 33 bus test system.
Highlights
With global warming issues drawing more and more public concern, efforts to achieve reductions in greenhouse gas emissions are made in various fields
The current phasor in the unified power flow controller (UPFC) installed line can be controlled at a reference value so that the designated power system parameters are regulated at their desired settings [21,22,23]
For the purpose of this paper, the control scheme developed is to provide the current reference of the UPFC installed line, controlled at which line loss minimization and system security enhancement can be achieved simultaneously
Summary
With global warming issues drawing more and more public concern, efforts to achieve reductions in greenhouse gas emissions are made in various fields. Line loss minimization in distribution systems is critical to achieve energy saving. Voltage violations and line overload issues in distribution systems integrated with high levels of renewable energy can be quite severe, if precautions are not taken [4, 5]. The challenges raised by the large-scale integration of renewable energy resources and the urgent goal of energy saving require multi-functioned operational control, including line loss reduction, voltage regulation and line overload relieving. OPF algorithms have been used to seek comprehensive optimizations of line loss, voltage profile and power flow distribution using UPFC [10,11,12,13].
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