Introduction of Five
Bus Power System
The prime concern of the project to
determine the parameters of five bus power system. The power world simulator
(PWS) is used for the analysis and visualization of the process. The project of
five bus bars is based on the specific input data (Glover, Overbye, & Sarma, 2015). The bus node is
used to join the power system. In the electrical power distribution system the
electrical apparatus is used to conduct the electricity (Glover, Overbye, & Sarma, 2015). The project of five
bus power system provides the complete design to be analyzed by the simulator.
The design analyzed is used to determine flow of current and voltages in
different components (Web. ecs. baylor. edu, 2018).
Problem analysis of
Five Bus Power System
The problem analysis of the five bus power system is complex
and skilled operation that is related to the input data and buses. The project
measures transformer data and line data and in the present research work there
are four variables in all the bus including voltage magnitude Vk, real power
Pk, phase angle , and the reactive power
is Qk.
Software analysis
of Five Bus Power System
The prime objective of the project was concerned with the
modelling according to the requirement and the five bus system was modelled by
using the Power world Simulator. The simulation was based on the technical
skills and general principles for the five bus power system is used for the
simulation of problem (Web. eecs. utk. edu, 2017). The one line
diagram was used for the bus data process, transformer required for the five
bus power system, transmission line data in the five bus power system. The
input data of the bus enables to differentiate process and role of each
individual bus (Al-roomi. org, 2017).
Problem solution of Five Bus
Power System
The analytical foundations is used for the simulation of
single line diagram. The input data was provided for three buses including
slack bus, load bus, and voltage controlled bus. The (P and V input data) was
used for the transmission line input data, series shunt charging, reactance,
series resistance for the one line diagram provided by the software. The bus 1
is swing bus and it is connected to the generator.
Figure
2:
Power System Analysis
Figure
3:
Power System Analysis
References of Five Bus Power
System
Al-roomi. org. (2017). 5-Bus System (Glover's Book
Test Case). Retrieved from www.al-roomi.org: https://www.al-roomi.org/power-flow/5-bus-systems/system-ii
Glover, J. D., Overbye, T., & Sarma, M. S. (2015).
Power System Analysis and Design, SI Edition. Cengage Learning.
Glover, J. D., Overbye, T., & Sarma, M. S. (2016).
Power System Analysis and Design. Cengage Learning.
Web. ecs. baylor. edu. (2018). POWER FLOWS.
Retrieved from web.ecs.baylor.edu:
http://web.ecs.baylor.edu/faculty/lee/ELC4340/Lecture%20note/Chapter6_GSO5.pdf
Web. eecs. utk. edu. (2017). THE POWER-FLOW PROBLEM
. Retrieved from web.eecs.utk.edu: http://web.eecs.utk.edu/~ktomsovi/ECE%20325/Glover%20Example%206.9.pdf