Title :
Generalised approach for finding crossing point in power system transient stability boundary
Author :
Roy, Subhasis Mitra ; Bhatti, T.S. ; Verma, Ashu
Author_Institution :
Centre for Energy Studies, IIT Delhi, New Delhi, India
Abstract :
In this paper generalized MATLAB program is developed to find crossing point at potential energy boundary surface (PEBS) through a generalized mathematical approach. In direct method of power system transient stability analysis, an energy function is formulated and then an approximate stability boundary is estimated with unstable equilibrium points at the boundary or region of attraction. However for multi-machine system finding relevant UEP for a fault trajectory is a difficult step. This program is helpful to find crossing point (exit point) at energy boundary through systematic steps for a post-fault system. This PEBS crossing in terms provide critical energy, critical clearing time and stability margin for a particular fault contingency.
Keywords :
mathematics computing; power system analysis computing; power system faults; power system transient stability; PEBS; approximate stability boundary; critical clearing time; critical energy; energy function; fault contingency; fault trajectory; generalized MATLAB program; generalized mathematical approach; multimachine system; post-fault system; potential energy boundary surface; power system transient stability boundary; region of attraction; stability margin; unstable equilibrium points; Numerical stability; Potential energy; Power system stability; Stability criteria; Transient analysis; MATLAB; PEBS crossing; dot product; energy function; transient stability;
Conference_Titel :
Power India International Conference (PIICON), 2014 6th IEEE
Print_ISBN :
978-1-4799-6041-5
DOI :
10.1109/34084POWERI.2014.7117723
