Method of on-line transient stability assessment of electrical power systems
First Claim
1. A method of operating an electrical power network at a stable state by predicting the transfer limit or the amount of remedial action required to maintain stability of a power system in the event of a study contingency by determining a transient energy margin, and taking said amount of remedial action in the event of an actual fault in the power system, comprising the steps of:
- a) providing a computer model of the system, including calculating a corrected kinetic energy;
b) simulating the study contingency using a step by step time integration method;
c) measuring the effect on the energy properties in the system which resulted from the study contingency, and if the measured energy properties indicate instability, calculating the transient energy margin from the corrected kinetic energy; and
d) if the measured energy properties indicate stability, introducing an artificial contingency into the model which is of sufficient duration to make the system unstable, and measuring the transient energy margin as the difference between the corrected kinetic energy after the artificial contingency and the minimum value of the corrected kinetic energy after the artificial contingency, after compensating for the potential energy change introduced into the system by the artificial contingency; and
e) using the transient energy margin so calculated to calculate an amount of remedial action required to maintain stability of the power system in the event of said study contingency, and taking said amount of remedial action is the event of an actual fault in the power system.
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Abstract
In the past, in electrical power networks, the effects on the system of particular contingencies, such as a given power line being interrupted, have been modelled off-line, so that the proper response to that contingency can be planned ahead of time and acted upon quickly in the event of such contingency. Such models have generally been overly conservative adding considerable cost to power systems. The present invention provides a method of predicting the transfer limit or the amount of remedial action required to maintain stability of a power system in the event of a study contingency by determining a transient energy margin, comprising the steps of:
a) providing a computer model of the system;
b) simulating the study contingency using a step by step time integration method;
c) measuring the effect on the energy properties in the system which resulted from the study contingency, and if the measured energy properties indicate instability, calculating the transient energy margin from the corrected kinetic energy; and
d) if the measured energy properties indicate stability, introducing an artificial contingency into the model which is of sufficient duration to make the system unstable, and measuring the transient energy margin as the difference between the corrected kinetic energy after the artificial contingency and the minimum value of the corrected kinetic energy after the artificial contingency, after compensating for the potential energy change introduced into the system by the artificial contingency.
25 Citations
2 Claims
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1. A method of operating an electrical power network at a stable state by predicting the transfer limit or the amount of remedial action required to maintain stability of a power system in the event of a study contingency by determining a transient energy margin, and taking said amount of remedial action in the event of an actual fault in the power system, comprising the steps of:
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a) providing a computer model of the system, including calculating a corrected kinetic energy; b) simulating the study contingency using a step by step time integration method; c) measuring the effect on the energy properties in the system which resulted from the study contingency, and if the measured energy properties indicate instability, calculating the transient energy margin from the corrected kinetic energy; and d) if the measured energy properties indicate stability, introducing an artificial contingency into the model which is of sufficient duration to make the system unstable, and measuring the transient energy margin as the difference between the corrected kinetic energy after the artificial contingency and the minimum value of the corrected kinetic energy after the artificial contingency, after compensating for the potential energy change introduced into the system by the artificial contingency; and e) using the transient energy margin so calculated to calculate an amount of remedial action required to maintain stability of the power system in the event of said study contingency, and taking said amount of remedial action is the event of an actual fault in the power system.
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2. A method of operating an electrical power network at a stable state by assessing the dynamic security limits of a power system by determining a transient energy margin, predicting the required remedial action in the form of transfer limits or remedial steps in the event of a fault in the power system and taking remedial action in the form of transfer limits or remedial steps in the event of an actual fault in the power system, comprising the steps of:
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a) providing a real-time computer model of the power system; b) simulating a study contingency using a step by step time integration method; c) determining Kemin1 and Tkmin1 after the study contingency; d) if Kemin1 is larger than zero, then the transient energy margin=[-Kemin1 ], If Kemin1 =0 go to step e); e) at Tkmin1 apply a long fixed duration fault and continue the simulation for one more time step; f) get the values of the Dot Product at Tkemin1 and Trec2 and calculate Tpebs using the relationship;
##EQU7## where DP is the Dot Product g) go back to step c), apply another fault shorter than Tpebs and simulate until the corrected kinetic energy is minimum (Tkemin2);h) determine the transient energy margin taking into account the margin compensation; i) use the transient energy margin to calculate the transfer limits or the remedial steps required to maintain the power system in a stable state in the event of the contingency; j) taking remedial action in the form of said calculated transfer limits or remedial steps in the event of an actual fault in the power system.
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Specification