Abstract
Operation of power system within specified limits of voltage and frequency are the major concerns in power system stability studies. As power system is always prone to disturbances, which consequently affect the voltage instability and optimal power flow, and therefore risks the power systems stability and security. In this paper, a novel technique based on the “Artificial Algae Algorithm” (AAA) is introduced, to identify the optimal location and the parameters setting of Unified Power Flow Controller (UPFC) under N-1 contingency criterion. In the first part, we have carried out a contingency operation and ranking process for the most parlous lines outage contingencies while taking the transmission lines overloading (NOLL) and voltage violation of buses (NVVB) as a performance parameter (PP = NOLL + NVVB). As UPFC possesses too much prohibitive cost and larger size, its optimal location and size must be identified before the actual deployment. In the second part, we have applied a novel AAA technique to identify the optimal location and parameters setting of UPFC under the discovered contingencies. The simulations have been executed on IEEE 14 bus and 30 bus networks. The results reveals that the location of UPFC is significantly optimized using AAA technique, which has improved the stability and security of the power system by curtailing the overloaded transmission lines and limiting the voltage violations of buses.
Highlights
The demand of efficient and improved quality of electrical energy is presently growing daily.Nowadays, power networks are expected to be efficient and versatile in terms of electric power regulation
MATLAB programs for Algae Algorithm” (AAA) and modified N-R power flow algorithm integrated with the Unified Power Flow Controller (UPFC) are established for simulation purposes
AAA is implemented on Flexible AC Transmission Systems (FACTS) (UPFC) placement problem for the first time, so we select the AAA parameter ranges according to its best performance
Summary
The demand of efficient and improved quality of electrical energy is presently growing daily. The leading role of this technology are voltage regulation, rise power transmission capacity, reduction in heavily loaded lines and improved power system stability This technology is fruitful for improving the power systems stability and security under contingency criterion. We have considered the improvement in power systems stability and security, by reducing the overloaded transmission lines and improving the voltage profile of buses through optimal placing of UPFC. This operation is conducted under the single line contingency analysis.
Sign-in/Register to view highlights & summary 
Published Version (
Free)
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call