Power Flow Solution Using GS Method
Learn the GS method algorithm for power flow solution in power system analysis. Understand the iterative steps, line power flows computation, convergence acceleration, and more to efficiently solve power flow problems.
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Lecture No:15 Topic: Power Flow Solution GS-Method-Algorithm Course: Power System Analysis Presented by Dr M.S.Giridhar Professor, Department of EEE Lakireddy Bali Reddy College of Engineering (Autonomous) Developed by Jawaharlal Nehru Technological University Kakinada www.jntuk.edu.in
CASE-I (1-slack bus and all other buses are PQ-buses) Algorithm for power flow solution: The slack bus voltage magnitude and angle are assumed, usually V1 00 p.u. with the load profile known at each bus (i.e PDi and QDi are known). We allocate PGi and QGi to all generating stations. With this step, bus injections (Pi+jQi) are known at all buses other than the slack bus. Form YBUS using singular transformation method from the selected graph for the given one-line diagram of the power system. Compute the bus voltages using the iterative voltage equation as
Iterative steps 1 i n A = k = i k Y ik + + = = 1 1 r r r i 1,2....n i V B V B V ( ) i V i ik k ik k * r + 1 1 P jQ = = 3 , 2 .... B k n k i = i i A ik Y i Y ii ii + + = = 1 1 r r r 3 , 2 ,.... V V V i n Check for the convergence i i i Is V V V i i i min max = If then fix V V V V i i i i min min = If then fix V V V V i i i i max max
Line power Flows Compute the line flow from the obtained bus voltages in step-3 = + = + V ( ) I I I V Y V Y 1 ik iko ik i k ik i iko Compute the power flow from the obtained bus voltages in step-3 and currents from step-5 = + = = + * * * * V ( ) S P jQ V I V V Y V V Y ik ik ik i ik i i k ik i i iko BUS-i ??????1??????1??? BUS-k
Convergence Acceleration of Convergence Convergence in the gauss-seidal method can some times be speeded up by the use of the acceleration factor + + = + 1 1 r r r r ( ) V V V V i i i i Where is a real number (generally = 1.6)
