ELECTRICAL MACHINE FUNDAMENTALS WITH NUMERICAL SIMULATION USING MATLAB/SIMULINK 2021 <JW>

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【簡介】 Electrical Machine Fundamentals with Numerical Simulation using MATLAB/Simulink provides readers with a basic understanding of all key concepts related to electrical machines (including working principles, equivalent circuit, and analysis). It elaborates the fundamentals and offers numerical problems for students to work through. Uniquely, this text includes simulation models of every type of machine described in the book, enabling students to design and analyse machines on their own. Unlike other books on the subject, this book meets all the needs of students in electrical machine courses. It balances analytical treatment, physical explanation, and hands-on examples and models with a range of difficulty levels. The authors present complex ideas in simple, easy-to-understand language, allowing students in all engineering disciplines to build a solid foundation in the principles of electrical machines. Electrical Machine Fundamentals with Numerical Simulation using MATLAB/Simulink is a well-balanced textbook perfect for undergraduate students in all engineering majors. Additionally, its comprehensive treatment of electrical machines makes it suitable as a reference for researchers in the field. 【目錄】 1 Fundamentals of Electrical Machines 2 Magnetic Circuits 3 Single-Phase and Three-Phase Transformers 4 Fundamentals of Rotating Electrical Machines and Machine Windings 5 DC Machines 6 Three-Phase Induction Machine 7 Synchronous Machines 8 Single-Phase and Special Machines 9 Motors for Electric Vehicles and Renewable Energy Systems 10 Multiphase (More than Three-Phase) Machines Concepts and Characteristics 11 Numerical Simulation of Electrical Machines using the Finite Element Method

ELECTRIC POWER SYSTEMS WITH RENEWABLES: SIMULATIONS USING PSS®E

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DESCRIPTION Electric Power Systems with Renewables Concise, balanced, and fundamentals-based resource providing coverage of power system operation and planning, including simulations using PSS®E software Electric Power Systems with Renewables provides a comprehensive treatment of various topics related to power systems with an emphasis on renewable energy integration into power systems. The updated use cases and methods in the book build upon the climate change science and renewables currently being integrated with the grid and the ability to manage resilience for electrifying transportation and related power systems as societies identify more ways to move towards a carbon-free future. Simulation examples and software support are provided by integrating the educational version of PSS®E. The newly revised edition includes new topics on the intelligent use of PSS®E simulation software, presents a short introduction to Python (a widely used software in the power industry), and provides new examples and back-of-the-chapter homework problems to further aid in information retention. Written by two highly qualified authors with significant experience in the field, Electric Power Systems with Renewables also contains information on: Electric energy and the environment, covering hydro power, fossil-fuel based power plants, nuclear power, renewable energy, and distributed generation (DG) Power flow in power system networks covers basic power flow equations, the Newton-Raphson procedure, sensitivity analysis, and a new remote bus voltage control concept Transformers and generators in power systems, covering basic principles of operation, a simplified model, and per-unit representation High voltage DC (HVDC) transmission systems-current-link, and voltage-link systems Associated with this textbook, there is a website from which the simulation files can be downloaded for use in PSS®E and Python. It also contains short videos to simplify the use of these software. This website will be regularly updated. Electric Power Systems with Renewables serves as a highly useful textbook for both undergraduate and graduate students in Electrical and Computer Engineering (ECE). It is also an appropriate resource for students outside of ECE who have the prerequisites, such as in mechanical, civil, and chemical engineering. Practicing engineers will greatly benefit with its industry-relevant approach to meet the present-day needs.

Principles of Electrical Machines (IA) (3版)

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【簡介】 ●The book is suitable for both electrical engineering and non-electrical engineering students (e.g., Mechanical Engineering students). ●Coverage of both electric machines and power electronics is integrated in one volume. 【目錄】 CHAPTER 1: MAGNETIC CIRCUITS CHAPTER 2: TRANSFORMERS CHAPTER 3: ELECTROMECHANICAL ENERGY CONVERSION CHAPTER 4: MACHINE WINDINGS, MMF DISTRIBUTION, AND MAGNETIC FIELDS CHAPTER 5: DC MACHINES CHAPTER 6: INDUCTION (ASYNCHRONOUS) MACHINES CHAPTER 7: SYNCHRONOUS MACHINES CHAPTER 8: SINGLE-PHASE MOTORS CHAPTER 9: SPECIAL MACHINES APPENDIX A: BALANCED THREE-PHASE CIRCUITS APPENDIX B: UNITS AND CONSTANTS APPENDIX C: LAPLACE TRANSFORMS APPENDIX D: ANSWERS TO SELECTED

ELECTRICAL AND GEOMETRICAL PROPERTIES OF ORGANIC M

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This book addresses the physical mechanisms involved in the characteristic electrical properties and the geometrical structures that are observed from dipolar monolayers composed of organic molecules by using dielectric physics, electrostatics, the physics of liquid crystal, and soft matter physics. The orientational order parameters, introduced to quantify the orientational structures of monolayers, guide us towards this goal. Dielectric polarizations are spontaneously generated from monolayers because of their orientational structures, and electrostatic energies due to these dielectric polarizations play a key role in forming the geometrical structures that are observed from monolayers. Free energy minimization is a powerful tool to understand the physical mechanisms that stabilize these geometrical structures because of the soft matter nature of monolayers. The approach using mathematical differential geometry method makes this book unique among the literatures of monolayers. Sample Chapter(s) Preface Chapter 1: Introduction Contents: Introduction Dielectric Physics of Monolayers; Theory of Dielectric Polarization of Monolayers Dielectric Physics of Monolayers: Experimental Techniques to Measure Dielectric Polarizations of Monolayers Liquid Crystalline Properties of Monolayers on Water Surface Differential Geometry Method for Analyzing Domain Shapes Differential Geometry Method for Analyzing Domain Shapes II Comprehensive Approach for Analyzing Domain Shapes Readership: This book would be useful for physicists, chemists, biologists and electronic engineers of the field to understand their experimental results and to develop new theories.