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A study on static voltage collapse proximity indicators

In the time of rapid growth, there is an increase of demand for a reliable and stable power supply. Due to this, utility companies are forced to operate their power system nearer to its maximum capabilities since system expansion may be a costly option. As a result, the power system will be at risk...

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Bibliographic Details
Main Authors: Verayiah R., Abidin I.Z.
Other Authors: 26431682500
Format: Conference paper
Published: 2023
Subjects:
Fast Voltage Stability Index(FVSI)
Line Stability Index
LQP
Voltage Stability
Aircraft instruments
Competition
Electric power distribution
Electric power transmission networks
Electric utilities
Gas discharge tubes
MATLAB
Power transmission
Proximity indicators
Voltage control
Voltage stabilizing circuits
Basic concepts
Contingency rankings
Correlation studies
Line outages
Loading conditions
Matlab environments
Maximum power transfers
No-load conditions
On-line monitoring
Power flows
Power supplies
Power system stabilities
Power systems
Rapid growths
Standard tests
System collapse
System expansions
Test systems
Two lines
Utility companies
Voltage collapse
Voltage collapse proximity indicators
Voltage instabilities
Voltage stability analysis
Weak lines
System stability
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Summary:In the time of rapid growth, there is an increase of demand for a reliable and stable power supply. Due to this, utility companies are forced to operate their power system nearer to its maximum capabilities since system expansion may be a costly option. As a result, the power system will be at risk to voltage collapse. Voltage collapse phenomenon is known to be complex and localised in nature but with a widespread effect. The ultimate effect of voltage collapse would be total system collapse which would incur high losses to utility companies. Thus, online monitoring of power system stability has become a vital factor for electric utility companies.This paper looks into combining a power flow program in MATLAB environment with two line stability indices, which are Fast Voltage Stability Index (FVSI) and Line Stability Index, LQP for automatic contingency ranking. The IEEE 14 Bus Test System is used as a standard test system. This approach investigates each line of the system through calculating an indicator that varies from zero (no load condition) to unity (maximum permissible loading condition). The basic concept of maximum power transfer through a line is utilized. Correlation study on the results obtained from contingency ranking and voltage stability analysis were conducted and it is found that line outages at the weak lines would cause voltage instability condition to a system. Subsequently, using the result from the contingency ranking, weak areas in the system can be identified. Verification of this technique with other existing technique shows a strong agreement between them. �2008 IEEE.

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