Electromechanical machinery :theory and performance /

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Electromechanical machinery :theory and performance /

Ortmeyer, Thomas, - Personal Name; Institute of Physics (Great Britain), - Personal Name;

"Version: 20231001"--Title page verso.Includes bibliographical references.1. Energy and power -- 1.1. Energy -- 1.2. Power--single phase -- 1.3. Three-phase power -- 1.4. Summary2. Magnetic circuits -- 2.1. Rectangular core magnetic circuit -- 2.2. Magnetic circuits with small air gap -- 2.3. Three-legged core -- 2.4. Properties of magnetic materials3. Single phase transformers -- 3.1. Single-phase two-winding transformer -- 3.2. The ideal transformer -- 3.3. The real transformer -- 3.4. Transformer ratings -- 3.5. Determining equivalent circuit parameters by test -- 3.6. Power transformer thermal model -- 3.7. Frequency response of signal transformers4. Three-phase transformer banks -- 4.1. Three-phase transformer cores -- 4.2. Three-phase transformer windings -- 4.3. Wye-wye transformers -- 4.4. Delta-wye transformers -- 4.5. Delta-delta transformers -- 4.6. Per-phase analysis of three-phase transformers5. Rotating AC machine basics -- 5.1. The two-pole one-phase machine -- 5.2. Machines with higher pole numbers -- 5.3. Three-phase machines -- 5.4. Stator current and flux -- 5.5. Synchronous-generator per-phase equivalent circuit -- 5.6. Mechanical power and torque--generator convention -- 5.7. Distributed windings and salient pole designs -- 5.8. Salient pole machines -- 5.9. Summary6. Synchronous generator performance -- 6.1. Synchronous generators -- 6.2. Determining synchronous machine parameters by test -- 6.3. Synchronous generator operation -- 6.4. Grid connected operation7. Induction machines -- 7.1. Overview -- 7.2. Theory -- 7.3. Stator and rotor rotating flux waves -- 7.4. Torque and power -- 7.5. Squirrel cage machines -- 7.6. Induction motor operation -- 7.7. Squirrel cage motor performance -- 7.8. Direct connection motor starting -- 7.9. Induction generator8. Power electronic converters and speed control of AC machines -- 8.1. Pulse width modulated converters : the full bridge converter -- 8.2. Three-phase PWM converter -- 8.3. Converter connected synchronous machines -- 8.4. The ideal DC drive -- 8.5. Variable speed control of round-rotor permanent-magnet synchronous motors -- 8.6. Variable-speed induction motor drives -- 8.7. AC motor drive performance and control9. Grid-connected photovoltaic farms -- 9.1. Photovoltaic cell basics -- 9.2. Photovoltaic modules -- 9.3. Solar insolation -- 9.4. PV arrays -- 9.5. PV farm performance -- 9.6. PV farm capacity factor -- 9.7. Summary.Electromechanical Machinery Theory and Performance presents a detailed explanation of electromagnetic machines, giving specific focus on transformers and AC rotating machines that can be used in the generation, transmission and utilization preservation and transference of electrical energy and power. This book is developed for students at both graduate and undergraduate level, and can be used by practicing engineers as well. Electromechanics combines processes and procedures drawn from electrical engineering and mechanical engineering. Electromechanics focuses on the interaction of electrical and mechanical systems as a whole and how the two systems interact with each other. This process is especially prominent in systems such as those of DC or AC rotating electrical machines which can be designed and operated to generate power from the mechanical process or used to power mechanical motors. Electrical engineering, in this context, also encompasses electronics engineering.Professional and scholarly.Also available in print.Mode of access: World Wide Web.System requirements: Adobe Acrobat Reader, EPUB reader, or Kindle reader.Thomas Howard Ortmeyer began his career at Commonwealth Edison Company in the Operations Analysis Department. He then returned to Iowa State University to pursue graduate studies. Upon completion of his PhD degree, he joined the Electrical and Computer Engineering department faculty at Clarkson University, where he is currently Research Professor. At Clarkson, he has taught many courses in the power engineering area. He is currently involved in research in the areas of power distribution, distributed generation interconnection, microgrids, and power system protection. He is a Life Fellow of IEEE.Title from PDF title page (viewed on November 1, 2023).

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Series Title: -
Call Number: -
Publisher: : .,
Collation: 1 online resource (various pagings) :illustrations (some color).
Language: English
ISBN/ISSN: 9780750360845
Classification: 621.31/04/2
Content Type: -
Media Type: -
Carrier Type: -
Edition: Second edition, including photovoltaic energy conv
Subject(s): Electrical engineering.
Electric machinery.
TECHNOLOGY & ENGINEERING / Electrical.
Specific Detail Info: -
Statement of Responsibility: Thomas Howard Ortmeyer.

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