Abstract
Power systems are usually expected to become heavily loaded as the demand for electrical energy grows and economic consideration limits the installation of additional transmission and generating capacity. Keeping the bus voltage in the power system within the standard permissible limits is an important concern to improve the voltage stability and avoid voltage collapse of the whole power system. The common and effective way to achieve this purpose is by adding flexible AC transmission line devices to the power system. One of these devices is static synchronous compensator. In this paper an approach is proposed to find optimal location and size of static synchronous compensator for improving bus voltage in the power system. A load flow is conducted to identify the low voltage buses which are the weak buses in the system and they are considered as suitable buses for static synchronous compensator connection. An objective function is formulated for optimization process which contains four parts, the voltage deviation, static synchronous compensator size, active and reactive power losses of the whole power system. Whale optimization algorithm is used for the optimization process. The proposed approach is applied on the real power system of Kurdistan Region using power system simulator for engineering software for simulating the power system and finding the optimal size and location of static synchronous compensator for bus voltage improvement. The results are encouraging for applying the approach to any power system. What distinguishes this method is that it accomplishes two things, namely reducing the bus voltage deviation to zero which means that all bus voltages are within the permissible limits and minimizing losses as well.
Highlights
Electrical Power systems are complex because they have many generating units and transmission lines
Bus voltage magnitudes and angles are controlled by using Flexible AC Transmission System (FACTS) devices such as Static Synchronous Compensator STATCOM [2]
Power System Simulator for Engineering (PSSE) software is used for simulating the large scale power system of Kurdistan Region (KR) and conducting the load flow for identifying the weak buses and selecting the optimal location from these buses to add STATCOM device with optimal size to improve the voltage of all weak buses
Summary
Electrical Power systems are complex because they have many generating units and transmission lines. Day by day the power demand increases as a result of that the utilities operate the generating units and transmission lines at their full capacity. This reduces power system stability in terms of bus voltage. Bus voltage magnitudes and angles are controlled by using FACTS devices such as Static Synchronous Compensator STATCOM [2]. Because of the increasing power demand and inability to add new transmission lines due to their complexity, new power systems are operating close to the system stability limits
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
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
