Session
Energy Efficiency Engineering
Description
Electrical power systems are such nonlinear systems that the ever changing working environments. Generator outputs, loads and the electrical power system parameters are continuously changing. In recent years, because of economic and environmental conditions, electrical power systems have been forced to work nearly maximum load capacity with the most efficient operating conditions. Accordingly, also, power flow and critical fault conditions analysis is a significant criterion for operation of electrical power systems. Modern power systems are planned for high level, multi-variable dynamic systems. In this study, 16 busbar section from 118 busbar interconnected 420 and 170 kV Marmara region electrical power system transmission lines are discussed. Electrical power system stability is investigated under the critical fault conditions. Power flow and critical fault condition analysis of newly installed transmission lines, additional power transformers and power generating units possibly installed in coming future was performed. Power flow and fault analysis of mentioned electrical power system are solved by using the Power System Analysis Toolbox 2.1.9 (PSAT) software
Keywords:
Critical Fault Condition, Electrical Power System Stability, PSAT
Proceedings Editor
Edmond Hajrizi
ISBN
978-9951-550-10-9
First Page
91
Last Page
100
Location
Durres, Albania
Start Date
7-11-2015 9:00 AM
End Date
7-11-2015 5:00 PM
DOI
10.33107/ubt-ic.2015.50
Recommended Citation
Pamuk, Nihat, "Analysis of Marmara Region Electrical Power System Stability under the Critical Fault Conditions" (2015). UBT International Conference. 50.
https://knowledgecenter.ubt-uni.net/conference/2015/all-events/50
Included in
Analysis of Marmara Region Electrical Power System Stability under the Critical Fault Conditions
Durres, Albania
Electrical power systems are such nonlinear systems that the ever changing working environments. Generator outputs, loads and the electrical power system parameters are continuously changing. In recent years, because of economic and environmental conditions, electrical power systems have been forced to work nearly maximum load capacity with the most efficient operating conditions. Accordingly, also, power flow and critical fault conditions analysis is a significant criterion for operation of electrical power systems. Modern power systems are planned for high level, multi-variable dynamic systems. In this study, 16 busbar section from 118 busbar interconnected 420 and 170 kV Marmara region electrical power system transmission lines are discussed. Electrical power system stability is investigated under the critical fault conditions. Power flow and critical fault condition analysis of newly installed transmission lines, additional power transformers and power generating units possibly installed in coming future was performed. Power flow and fault analysis of mentioned electrical power system are solved by using the Power System Analysis Toolbox 2.1.9 (PSAT) software