Add to ORKGThere are numerous assumptions made to dene the stability of power system models.\ud Step-by-Step numerical integrations of power system models are used to simulate the\ud system dynamic behavior. This type of power system stability analysis is based on the\ud time-domain approach. The typical simulation period of post-fault system is 10s and can\ud go beyond 15s if multi-swing instability is of concern. Energy Function theory is a method\ud to describe the stability of power system and it eliminates the post-fault integration which\ud reduces the simulation time
This dissertation attempts to apply the transient energy function (TEF) method of direct stability a...
Power system transient stability studies are complex and can take a substantial amount of time to si...
Using the classical model of power system, Fouad and Vittal developed individual machine energy func...
There are numerous assumptions made to dene the stability of power system models.\ud Step-by-Step nu...
Power-system stability is a term applied to alternating-current electric power systems, denoting a c...
The power system transient stability studies depend on the state of sudden disturbance to which the ...
[No abstract available]226228Kundur, P., (1994) Power System Stability and Control, , New York: McGr...
The transient stability analysis of large scale power systems is an important problem in power syste...
Power system stability is a problem that has challenged power system engineers for many years. This ...
"This technical report is a reprint of the thesis written by M. R. Baranek as partial fulfillment of...
Determination of stability characteristics of a power system is considered as a substantial issue wi...
Stability analysis programs are a primary tool used by power system planning and operating engineers...
The stability of a system is its ability to return to normal or stable operation after having been s...
In recent years considerable progress has been achieved in power system transient stability assessme...
Power system stability has been one of the utmost importance in power engineering. Power system stab...
This dissertation attempts to apply the transient energy function (TEF) method of direct stability a...
Power system transient stability studies are complex and can take a substantial amount of time to si...
Using the classical model of power system, Fouad and Vittal developed individual machine energy func...
There are numerous assumptions made to dene the stability of power system models.\ud Step-by-Step nu...
Power-system stability is a term applied to alternating-current electric power systems, denoting a c...
The power system transient stability studies depend on the state of sudden disturbance to which the ...
[No abstract available]226228Kundur, P., (1994) Power System Stability and Control, , New York: McGr...
The transient stability analysis of large scale power systems is an important problem in power syste...
Power system stability is a problem that has challenged power system engineers for many years. This ...
"This technical report is a reprint of the thesis written by M. R. Baranek as partial fulfillment of...
Determination of stability characteristics of a power system is considered as a substantial issue wi...
Stability analysis programs are a primary tool used by power system planning and operating engineers...
The stability of a system is its ability to return to normal or stable operation after having been s...
In recent years considerable progress has been achieved in power system transient stability assessme...
Power system stability has been one of the utmost importance in power engineering. Power system stab...
This dissertation attempts to apply the transient energy function (TEF) method of direct stability a...
Power system transient stability studies are complex and can take a substantial amount of time to si...
Using the classical model of power system, Fouad and Vittal developed individual machine energy func...