COMPARATIVE STUDY OF QUADRATURE BOOSTER IN DIFFERENT LOCATIONS

Published 30 Jun 2019 •  vol 12  •  no 1  • 


Authors:

 

Suresh Babu Daram, Dept. of EEE & Research Coordinator, Centre for Energy, Sree Vidyanikethan Engineering College, Tirupati, India
Mallepogu Nagasrinivasulu, Dept. of EEE, Sree Vidyanikethan Engineering College, Tirupati, India
Kumar Reddy Cheepati, EEE, JNTUK & Assistant Professor, Dept. of EEE, Sree Vidyanikethan Engineering College, Tirupati, India
P. S. Venkataramu, Presidency University, Bangalore, India

Abstract:

 

Among latest Flexible Alternating Current Transmission System (FACTS) devices, Quadrature Booster (QB) is one of them. QB has the ability to control the voltage magnitude and voltage angle at the buses. The power flow in transmission lines can be controlled in the system. In this paper, the quadrature booster is used to rewrite the Newton- Raphson load flow technique. QB has been incorporated in different locations and compared without QB in the system. A study on variation of power flow in all transmission lines and voltages at all buses for different values of QB control parameters has been carried out on standard 2 machine 5 bus system. MATLAB environment is used for simulation purpose.

Keywords:

 

Power Flow Analysis, Modified Jacobian, FACTS, Quadrature Booster

References:

 

[1] Alberto D. Del Rosso and Claudio A. Cañizares. “A Study of TCSC Controller Design for Power System Stability Improvement.” IEEE Transactions on Power Systems, vol. 18, no. 4, November (2003).
[2] Garisapati Dheeraj Krishna, Suresh Babu Daram, P. S. Venkataramu and M. S. Nagaraj. “Effect of Current Based Unified Power Flow Controller under Single Line Outage Condition.” IOSR Journal of Electrical and Electronics Engineering, pp 01-07, (2016).
[3] Suresh Babu Daram, P. S. Venkataramu, M. S. Nagaraj. “An Improved Steady-State Model of an Interline Power Flow Controller for the Multi-Transmission System.” International Journal of Grid and Distributed Computing, Vol. 9, No. 5,pp.13-24 , (2016).
[4] Sandeep Sadanandan and Dr. Ghadir Radman. “Power Flow Control using Quadrature Boosters With a suggested Optimal Power Flow Analysis.” IEEE Southeast Con., (2015).
[5] A Al-Riyami,K Burt,P Dyer,P Pretlove,G Manhangwe and S Georgiopoulos. “The Protection of a Quadrature-Booster Connected on the Distribution Network.” 12th IET International Conference on Developments in Power System Protection (DPSP), pp.1-5, (2014).
[6] Zhu, M. “Application and Modelling of Quadrature Boosters for the HV Transmission System.” International Conference on Power System Technology, August (1998).
[7] Y.J. Fang and D.C. Macdonald. “Dynamic quadrature booster as an aid to system stability.” IEE Proc-Gener. Transm. Distrib., vol. 145, no. I , January (1998).
[8] Luiz A. C. Lopes, Geza Joos and Boon-Teck Ooi. “PWM Quadrature Booster Phase-shifter For FACTS.” IEEE Transactions on Power Delivery, Vol. 11, No. 4, October (1996).
[9] Mallepogu Nagasrinivasulu, Suresh Babu Daram, U.Kamal Kumar and S.Jayachadra, Sairam Seshapalli, P.S.Venkataramu, “Analysis of Power Transmission System using Quadrature Booster.” Proccedings of International Conference on Emerging Trends in Engineering (ICECTE), pp.150, March (2019).
[10] William D .Stevenson,Jr. “Elements of Power System Analysis, 4th ed, McGraw-Hill.” International edition ISBN 0-07-066584-2, pp.198-199,(1982).
[11] G.W.Stagg, El-Abiad. “Computer Methods in Power Systems Analysis.” International Students Edition, McGraw-Hill, Kogakusha Ltd, (1968).
[12] Hadi Sadat. Power System Analysis.: Tata McGraw-Hill Edition (2001)

Citations:

 

APA:
Daram, S. B., Nagasrinivasulu, M., Cheepati, K. R., & Venkataramu, P. S. (2019). Comparative Study of Quadrature Booster in Different Locations. International Journal of Grid and Distributed Computing (IJGDC), ISSN: 2005-4262 (Print); 2207-6379 (Online), NADIA, 12(1), 53-60. doi: 10.33832/ijgdc.2019.12.1.05.

MLA:
Daram, Suresh Babu, et al. “Comparative Study of Quadrature Booster in Different Locations.” International Journal of Grid and Distributed Computing (IJGDC), ISSN: 2005-4262 (Print); 2207-6379 (Online), NADIA, vol. 12, no. 1, 2019, pp. 53-60. IJGDC, http://article.nadiapub.com/IJGDC/vol12_no1/5.html.

IEEE:
[1] S. B. Daram, M. Nagasrinivasulu, K. R. Cheepati and P. S. Venkataramu, "Comparative Study of Quadrature Booster in Different Locations." International Journal of Grid and Distributed Computing (IJGDC), ISSN: 2005-4262 (Print); 2207-6379 (Online), NADIA, vol. 12, no. 1, pp. 53-60, Jun 2019.