An Expert System for Three-Phase Balancing of Distribution Feeders

In this paper, an expert system is designed to derive the rephasing strategy of laterals and distribution transformers to enhance three-phase balancing of distribution systems. The heuristic rules adopted by distribution engineers are incorporated in the knowledge base of the expert system in the problem-solving process. The neutral current reduction algorithm is developed to support the inference engine to derive the rephasing strategy to reduce the neutral current of distribution feeder so that the tripping of over-current relay can be prevented and the customer service interruption cost and labor cost to execute the rephasing strategy can be justified by the power loss reduction obtained. To demonstrate the effectiveness of the proposed expert system to enhance three-phase balance, a practical distribution feeder in Taiwan Power Company (Taipower) is selected for computer simulation. By minimizing the objective function subjected to the rephasing rules, the rephasing strategy has been derived to identify the laterals and distribution transformers for phasing adjustment. After executing the proposed rephasing strategy by Taipower engineers, the phase currents and neutral current of test feeder has been collected by the SCADA system to verify the reduction of neutral current. The power loss reduction obtained by three-phase balancing has been solved by three-phase load flow analysis, which is then used to justify the customer service interruption cost and labor cost for rephasing of test feeder.

[1]  Tsai-Hsiang Chen,et al.  Optimal phase arrangement of distribution transformers connected to a primary feeder for system unbalance improvement and loss reduction using a genetic algorithm , 1999, Proceedings of the 21st International Conference on Power Industry Computer Applications. Connecting Utilities. PICA 99. To the Millennium and Beyond (Cat. No.99CH36351).

[2]  G. L. Ockwell Implementation of network reconfiguration for Taiwan Power Company , 2003, 2003 IEEE Power Engineering Society General Meeting (IEEE Cat. No.03CH37491).

[3]  Chuo-Yean Chang,et al.  Effects of open-wye/open-delta transformers on the operation of distribution systems , 1986 .

[4]  R. Billinton,et al.  A Canadian customer survey to assess power system reliability worth , 1994 .

[5]  C. S. Chen,et al.  Application of load survey systems to proper tariff design , 1997 .

[6]  Kevin Tomsovic,et al.  A heuristic search approach to feeder switching operations for overload, faults, unbalanced flow and maintenance , 1991 .

[7]  S. S. Venkata,et al.  An expert system operational aid for restoration and loss reduction of distribution systems , 1988 .

[8]  Tsai-Hsiang Chen,et al.  Optimal phase arrangement of distribution transformers connected to a primary feeder for system unbalance improvement and loss reduction using a genetic algorithm , 1999 .

[9]  Chung-Sheng Li,et al.  Optimal placement of line switches for distribution automation systems using immune algorithm , 2006, IEEE Transactions on Power Systems.

[10]  J. C. Hwang Assessment of Air Condition Load Management by Load Survey in Taipower , 2001, IEEE Power Engineering Review.

[11]  Mo-Yuen Chow,et al.  Phase balancing using simulated annealing , 1999 .

[12]  Mo-Yuen Chow,et al.  Phase balancing using mixed-integer programming [distribution feeders] , 1998 .