Simplified changeable single-feeding-end fuzzy feeder models for distribution system calculations

Shyi Wen Wang; Wei-Tzer Huang

doi:10.1109/POWERI.2006.1632551

Simplified changeable single-feeding-end fuzzy feeder models for distribution system calculations

Shyi Wen Wang, Wei-Tzer Huang

Department of Industrial Education and Technology

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

1 Citation (Scopus)

Abstract

Using the fuzzy set theory, this study presents three changeable single-feeding-end fuzzy feeder models that simplify complicated distribution system calculations. The proposed models are generated using lumped loads to represent discretely distributed tapped-off loads along a feeder. These models accurately simulate total series voltage drop at the end of given feeder, total copper loss and a hybrid to accurately simulate voltage drop and feeder loss. Moreover, power can be fed into either feeder end. To demonstrate the accuracy of the proposed fuzzy feeder models, a physical feeder is utilized as a sample feeder. Simulation results indicate that reducing numerous complex feeders to simple equivalent models is possible when investigating feeder voltage profiles and losses with negligible error.

Original language	English
Title of host publication	2006 IEEE Power India Conference
Pages	438-444
Number of pages	7
DOIs	https://doi.org/10.1109/POWERI.2006.1632551
Publication status	Published - 2005 Dec 1
Event	2006 IEEE Power India Conference - New Delhi, India Duration: 2006 Apr 10 → 2006 Apr 12

Publication series

Name	2006 IEEE Power India Conference
Volume	2005

Other

Other	2006 IEEE Power India Conference
Country	India
City	New Delhi
Period	06-04-10 → 06-04-12

All Science Journal Classification (ASJC) codes

Engineering(all)

Access to Document

10.1109/POWERI.2006.1632551

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title = "Simplified changeable single-feeding-end fuzzy feeder models for distribution system calculations",

abstract = "Using the fuzzy set theory, this study presents three changeable single-feeding-end fuzzy feeder models that simplify complicated distribution system calculations. The proposed models are generated using lumped loads to represent discretely distributed tapped-off loads along a feeder. These models accurately simulate total series voltage drop at the end of given feeder, total copper loss and a hybrid to accurately simulate voltage drop and feeder loss. Moreover, power can be fed into either feeder end. To demonstrate the accuracy of the proposed fuzzy feeder models, a physical feeder is utilized as a sample feeder. Simulation results indicate that reducing numerous complex feeders to simple equivalent models is possible when investigating feeder voltage profiles and losses with negligible error.",

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AU - Huang, Wei-Tzer

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N2 - Using the fuzzy set theory, this study presents three changeable single-feeding-end fuzzy feeder models that simplify complicated distribution system calculations. The proposed models are generated using lumped loads to represent discretely distributed tapped-off loads along a feeder. These models accurately simulate total series voltage drop at the end of given feeder, total copper loss and a hybrid to accurately simulate voltage drop and feeder loss. Moreover, power can be fed into either feeder end. To demonstrate the accuracy of the proposed fuzzy feeder models, a physical feeder is utilized as a sample feeder. Simulation results indicate that reducing numerous complex feeders to simple equivalent models is possible when investigating feeder voltage profiles and losses with negligible error.

AB - Using the fuzzy set theory, this study presents three changeable single-feeding-end fuzzy feeder models that simplify complicated distribution system calculations. The proposed models are generated using lumped loads to represent discretely distributed tapped-off loads along a feeder. These models accurately simulate total series voltage drop at the end of given feeder, total copper loss and a hybrid to accurately simulate voltage drop and feeder loss. Moreover, power can be fed into either feeder end. To demonstrate the accuracy of the proposed fuzzy feeder models, a physical feeder is utilized as a sample feeder. Simulation results indicate that reducing numerous complex feeders to simple equivalent models is possible when investigating feeder voltage profiles and losses with negligible error.

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