Title :
The effects of precision and small impedance branches on power flow robustness
Author :
Tylavsky, Daniel J. ; Crouch, Peter E. ; Jarriel, Leslie F. ; Singh, Jagjit ; Adapa, Rambabu
Author_Institution :
Center for Syst. Sci. & Eng., Arizona State Univ., Tempe, AZ, USA
fDate :
2/1/1994 12:00:00 AM
Abstract :
Renewed interest at EPRI on improved power flow techniques is due to the recent improvements in the robustness of fast power flow algorithms. In this paper the authors investigate two interacting parameters which affect convergence in power flow algorithms, limited precision and small impedance branches. Analytical methods and experimental results are given for predicting the minimum convergence tolerance achievable by an algorithm as a function of the infimum of the set of branch impedance values, and the number of bits of mantissa precision. Methods are suggested for increasing the virtual precision at minimal computational cost and for scanning power flow input data to determine whether available precision is sufficient
Keywords :
convergence of numerical methods; digital simulation; electric impedance; load flow; power system analysis computing; EPRI; algorithms; computational cost; mantissa; minimum convergence tolerance; power flow robustness; power systems; precision; small impedance branches; Algorithm design and analysis; Computational efficiency; Convergence; Impedance; Load flow; Power engineering and energy; Rivers; Robustness; Senior members; Software packages;
Journal_Title :
Power Systems, IEEE Transactions on
