Power transformer design practices
By: Zhu, Fang.
Contributor(s): Yang, Baitun.
Publisher: Boca Raton CRC Press 2021Description: xv, 266p.ISBN: 9780367418434.Subject(s): Electric power distribution -- Equipment and supplies | Electric transformersDDC classification: 621.314 | Z61p Summary: The book presents basic theories of transformer operation, design principles and methods used in power transformer designing work, and includes limitation criteria, effective utilization of material, and calculation examples to enhance readers’ techniques of transformer design and testing. It includes: Core and winding commonly used, and their performances Insulation structures and materials, methods for improvements on dielectric strengths on partial discharge, breakdown and electrical creepage Losses and impedance calculations, major influential factors, and methods to minimize load loss Cooling design and the method to obtain effective cooling Short-circuit forces calculations, the ways to reduce the short-circuit forces, and measures to raise withstand abilities No-load and load-sound levels, the influential factors and trends, and abatement techniques In-depth discussion of an autotransformer’s special features, its stabilizing winding function, and its adequate size Tests and diagnosticsItem type | Current location | Collection | Call number | Status | Date due | Barcode | Item holds |
---|---|---|---|---|---|---|---|
Books | PK Kelkar Library, IIT Kanpur | General Stacks | 621.314 Z61p (Browse shelf) | Available | A185601 |
The book presents basic theories of transformer operation, design principles and methods used in power transformer designing work, and includes limitation criteria, effective utilization of material, and calculation examples to enhance readers’ techniques of transformer design and testing.
It includes:
Core and winding commonly used, and their performances
Insulation structures and materials, methods for improvements on dielectric strengths on partial discharge, breakdown and electrical creepage
Losses and impedance calculations, major influential factors, and methods to minimize load loss
Cooling design and the method to obtain effective cooling
Short-circuit forces calculations, the ways to reduce the short-circuit forces, and measures to raise withstand abilities
No-load and load-sound levels, the influential factors and trends, and abatement techniques
In-depth discussion of an autotransformer’s special features, its stabilizing winding function, and its adequate size
Tests and diagnostics
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