Distribution System Modeling and Analysis, Third Edition

William H. Kersting received his BSEE from New Mexico State University (NMSU), Las Cruces, and his MSEE from the Illinois Institute of Technology. He joined the faculty at New Mexico State University in 1962 and served as professor of electrical engineering and director of the Electric Utility Management Program until his retirement in 2002. He is currently a consultant for Milsoft Utility Solutions. He is also a partner in WH Power Consultants, Las Cruces, New Mexico. Professor Kersting is a life fellow of the Institute of Electrical and Electronics Engineers. He received the Edison Electric Institute’s Power Engineering Educator Award in 1979 and the NMSU Westhafter Award for Excellence in Teaching in 1977. Prior to joining NMSU, he was employed as a distribution engineer at El Paso Electric Company. Professor Kersting has been an active member of the IEEE Power Engineering Education Committee and the Distribution System Analysis Subcommittee.

Introduction to Distribution Systems


Distribution System


Distribution Substations


Radial Feeders


Distribution Feeder Map


Distribution Feeder Electrical Characteristics






Nature of Loads


Definitions


Individual Customer Load


Distribution Transformer Loading


Feeder Load






Approximate Method of Analysis


Voltage Drop


Line Impedance


"K" Factors


Uniformly Distributed Loads


Lumping Loads in Geometric Configurations






Series Impedance of Overhead and Underground Lines


Series Impedance of Overhead Lines


Series Impedance of Underground Lines


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Shunt Admittance of Overhead and Underground Lines


General Voltage Drop Equation


Overhead Lines


Concentric Neutral Cable Underground Lines


Tape-Shielded Cable Underground Lines


Sequence Admittance


Shunt Admittance of Parallel Underground Lines


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Distribution System Line Models


Exact Line Segment Model


Modified Line Model


Approximate Line Segment Model


Modified "Ladder" Iterative Technique


General Matrices for Parallel Lines


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Voltage Regulation


Standard Voltage Ratings


Two-Winding Transformer Theory


Two-Winding Autotransformer


Step-Voltage Regulators


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Three-Phase Transformer Models


Introduction


Generalized Matrices


Delta–Grounded Wye Step-Down Connection


Delta–Grounded Wye Step-Up Connection


Ungrounded Wye–Delta Step-Down Connection


Ungrounded Wye–Delta Step-Up Connection


Grounded Wye–Delta Step-Down Connection


Open Wye–Open Delta


Grounded Wye–Grounded Wye Connection


Delta–Delta Connection


Open Delta–Open Delta


Thevenin Equivalent Circuit


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Load Models


Wye-Connected Loads


Delta-Connected Loads


Two-Phase and Single-Phase Loads


Shunt Capacitors


Three-Phase Induction Machine


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Distribution Feeder Analysis


Power-Flow Analysis


Short-Circuit Studies


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Center-Tapped Transformers and Secondaries


Center-Tapped Single-Phase Transformer Model


Ungrounded Wye–Delta Transformer Bank with a Center-Tapped Transformer


Leading Open Wye–Open Delta Transformer Connection


Lagging Open Wye–Open Delta Connection


Four-Wire Secondary


Putting It All Together


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Appendix A: Conductor Data


Appendix B: Underground Cable Data