Abstract
A Power flow control, in an existing transmission line, plays an imperative role in Power System. This study makes use of the Shunt Attached Compensation (STATCOM) FACTS device for the manipulation of voltage and the power flow in a transmission line. The proposed devices are used in different sites such as sending end of the, middle and receiving end of the transmission line. Simulations were carried out using MATLAB SIMULINK software. The apposite location and the performance of the proposed model were examined. In this study a STATCOM is cast off to standardize voltage in a power system. The STATCOM more proficiently boost the voltage stability and upsurge transmission size in a power system. In this study a semblance is also performed between SVC and STATCOM under burden state and it is shown that STATCOM have the adeptness to take care for more capacitive power during a slip over SVC. It is also shown that STATCOM revelations accelerated retort than SVC.
Highlights
The growth of power electronics brings into operation FACTS devices in power systems
Even though the prim devotion of shunt FACTS devices is to support bus voltage by pump out or suck up reactive power, they are adept of improving the transient stability by increasing or decreasing the power transfer capability when the machine angle increases or decreases, which is realized by operating the shunt FACTS devices in capacitive or inductive mode in a transmission line
In this study Shunt Attached Compensation (STATCOM) is employed as the shunt FACTS device
Summary
The growth of power electronics brings into operation FACTS devices in power systems. FACTS devices are adept for monitoring the network settings in a very profligate manner and this unique feature of FACTS devices can be put upon to titivate the stability of a system. For that shunt FACTS devices play a crucial starring role in controlling the reactive power flow to the power network. Even though the prim devotion of shunt FACTS devices is to support bus voltage by pump out or suck up reactive power, they are adept of improving the transient stability by increasing or decreasing the power transfer capability when the machine angle increases or decreases, which is realized by operating the shunt FACTS devices in capacitive or inductive mode in a transmission line
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