Fundamentals of Electromagnetic Levitation: Engineering sustainability through efficiency
Electromagnetic levitation is commonly associated with transport applications, principally 'MagLev' trains. However, the technology has many potential applications across engineering, particularly where there is a requirement to improve efficiency of electrical products and devices, propelled by the desire to minimise frictional and bearing losses and ohmic losses in conductors, which are the major causes of machine inefficiency.

Fundamentals of Electromagnetic Levitation: Engineering sustainability through efficiency is an introductory text encompassing the enabling electrical technologies associated with magnetic levitation, electrostatic suspension, diamagnetic levitation and superconduction, high frequency magnetic levitation, high frequency electric suspension, and levitation using microwave pressure. It aims to make aspiring and existing electrical engineers aware of the efficiency implications of frictionless machines and hence, of how important this may be in a post-fossil fuel world in which the energy available from renewable sources is strictly limited.

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Fundamentals of Electromagnetic Levitation: Engineering sustainability through efficiency
Electromagnetic levitation is commonly associated with transport applications, principally 'MagLev' trains. However, the technology has many potential applications across engineering, particularly where there is a requirement to improve efficiency of electrical products and devices, propelled by the desire to minimise frictional and bearing losses and ohmic losses in conductors, which are the major causes of machine inefficiency.

Fundamentals of Electromagnetic Levitation: Engineering sustainability through efficiency is an introductory text encompassing the enabling electrical technologies associated with magnetic levitation, electrostatic suspension, diamagnetic levitation and superconduction, high frequency magnetic levitation, high frequency electric suspension, and levitation using microwave pressure. It aims to make aspiring and existing electrical engineers aware of the efficiency implications of frictionless machines and hence, of how important this may be in a post-fossil fuel world in which the energy available from renewable sources is strictly limited.

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Fundamentals of Electromagnetic Levitation: Engineering sustainability through efficiency

Fundamentals of Electromagnetic Levitation: Engineering sustainability through efficiency

by Alan J. Sangster
Fundamentals of Electromagnetic Levitation: Engineering sustainability through efficiency

Fundamentals of Electromagnetic Levitation: Engineering sustainability through efficiency

by Alan J. Sangster

Overview

Electromagnetic levitation is commonly associated with transport applications, principally 'MagLev' trains. However, the technology has many potential applications across engineering, particularly where there is a requirement to improve efficiency of electrical products and devices, propelled by the desire to minimise frictional and bearing losses and ohmic losses in conductors, which are the major causes of machine inefficiency.

Fundamentals of Electromagnetic Levitation: Engineering sustainability through efficiency is an introductory text encompassing the enabling electrical technologies associated with magnetic levitation, electrostatic suspension, diamagnetic levitation and superconduction, high frequency magnetic levitation, high frequency electric suspension, and levitation using microwave pressure. It aims to make aspiring and existing electrical engineers aware of the efficiency implications of frictionless machines and hence, of how important this may be in a post-fossil fuel world in which the energy available from renewable sources is strictly limited.

Product Details

ISBN-13: 9781849196635
Publisher: The Institution of Engineering and Technology
Publication date: 12/11/2012
Series: Materials, Circuits and Devices
Pages: 248
Product dimensions: 6.14(w) x 9.21(h) x (d)

About the Author

Professor Alan Sangster is a microwave consultant. He was formerly Professor of Electromagnetic Engineering at the Electrical and Electronic Engineering Department, Heriot-Watt University, UK, where he was on the faculty for almost four decades following successful careers with Ferranti and Plessey Radar. He is a Fellow of the IET and Member of the Electromagnetics Academy of New York, and author of over 230 papers and two books that connect engineering to environmental concerns.

Table of Contents

  • Chapter 1: Introduction - thirst for energy
  • Chapter 2: Electromagnetic fundamentals
  • Chapter 3: Invisible forces of suspension
  • Chapter 4: Magnetic levitation and suspension
  • Chapter 5: Electrostatic suspension
  • Chapter 6: Electrical engineering perspective on superconductors
  • Chapter 7: Diamagnetic and eddy current levitation
  • Chapter 8: High-frequency electric suspension
  • Chapter 9: High-frequency magnetic levitation
  • Chapter 10: Sustainability through engineering efficiency
  • Appendices
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