TRANSIENT AND DYNAMIC PERFORMANCE OF A HIGH-LOADED SYNCHRONOUS GENERATOR WITH PID POWER SYSTEM STABILIZER
SHANAB, M., KHALIFA, F., SABRY, W. (1993). TRANSIENT AND DYNAMIC PERFORMANCE OF A HIGH-LOADED SYNCHRONOUS GENERATOR WITH PID POWER SYSTEM STABILIZER. EKB Journal Management System, 5(ASAT CONFERENCE 4 - 6 May 1993, CAIRO), 517-526. doi: 10.21608/asat.1993.25653
M. A. MORSY SHANAB; F. A. KHALIFA; W. SABRY. "TRANSIENT AND DYNAMIC PERFORMANCE OF A HIGH-LOADED SYNCHRONOUS GENERATOR WITH PID POWER SYSTEM STABILIZER". EKB Journal Management System, 5, ASAT CONFERENCE 4 - 6 May 1993, CAIRO, 1993, 517-526. doi: 10.21608/asat.1993.25653
SHANAB, M., KHALIFA, F., SABRY, W. (1993). 'TRANSIENT AND DYNAMIC PERFORMANCE OF A HIGH-LOADED SYNCHRONOUS GENERATOR WITH PID POWER SYSTEM STABILIZER', EKB Journal Management System, 5(ASAT CONFERENCE 4 - 6 May 1993, CAIRO), pp. 517-526. doi: 10.21608/asat.1993.25653
SHANAB, M., KHALIFA, F., SABRY, W. TRANSIENT AND DYNAMIC PERFORMANCE OF A HIGH-LOADED SYNCHRONOUS GENERATOR WITH PID POWER SYSTEM STABILIZER. EKB Journal Management System, 1993; 5(ASAT CONFERENCE 4 - 6 May 1993, CAIRO): 517-526. doi: 10.21608/asat.1993.25653

TRANSIENT AND DYNAMIC PERFORMANCE OF A HIGH-LOADED SYNCHRONOUS GENERATOR WITH PID POWER SYSTEM STABILIZER

International Conference on Aerospace Sciences and Aviation Technology
Article 43, Volume 5, ASAT CONFERENCE 4 - 6 May 1993, CAIRO, May 1993, Page 517-526  XML PDF (1.55 MB)
Document Type: Original Article
DOI: 10.21608/asat.1993.25653
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Authors
M. A. MORSY SHANAB1; F. A. KHALIFA2; W. SABRY3
1Maj. Gen. Prof. Dr. Eng., Dpt. of Elect. Power and Energy, M.T.C., Cairo, Egypt.
2Col. Dr. Eng., Dpt. of Elect. Power and Energy, M.T.C., Cairo, Egypt.
3Capt. Eng., Ass. Teacher, Dpt. of Elect. Power and Energy, M.T.C., Cairo, Egypt.
Abstract
This paper presents a study of the control and stability of a synchronous generator connected to an infinite bus via two parallel transmission lines when the system operate at high loading conditions and subjected to different disturbances.
An effective mean of damping the oscillations resulting from the disturbances is to provide the synchronous generator with power system stabilizer (PSS). An adaptive proportional-plus-integral-plus-derivative (PID) PSS is suggested in this paper. In this technique, the controller parameters (propor-tional, integral, and derivative constants) are not fixed but they are computed and updated according to the system operating conditions. Different stabilizing signals are used for the PID-PSS. Each signal is weighted by a factor used arbitrary to get the best performance of the generator under these conditions. The computer results obtained from simulation study are compared with the results of the system without a controller.
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