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This paper proposes the application of potential energy boundary surface (PEBS) based transient energy function (TEF) method to evaluate fast and dynamically secured real time  available transfer capability (DATC ) for the effective power transactions in the deregulated electricity market. With the involvement of various power transactions in this electricity market at the same time, the system may subject to severe disturbances. Transient stability analysis is a valuable tool for the system operator to maintain the system operating conditions under severe disturbances.  In this paper, PEBS method of transient energy function is used to avoid the computational complexities in the transient stability analysis for the highly stressed power systems. The proposed method involves in assessing maximum Dynamic ATC at the critical point of energy margin. The prescreening of line outages using energy margin values is also carried out to reduce the computational burden in determining DATC. The proposed approach has been analyzed and tested on WSCC 3-machine 9-bus system and New England 10-machine 39-bus system.
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Available Transfer Capability; Deregulated Electricity Market; Energy Margin; Potential Energy Boundary Surface; Transient Energy Function

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