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Design of rotating electrical machines / Juha Pyrhönen, Tapani Jokinen, Valéria Hrabovcová.

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"This book is an in-depth essential reference of rotating electrical machine design theory and application. In the first part of the book the general theory governing the design of an electrical machine is presented; addressing the necessary fundamentals of electromagnetic theory; exploring pos...

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Bibliographic Details
Online Access: Full Text (via O'Reilly/Safari)
Main Authors: Pyrhönen, Juha (Author), Jokinen, Tapani, 1937- (Author), Hrabovcová, Valeria (Author)
Format: eBook
Language:English
Finnish
Published: Chichester, West Sussex, United Kingdom : Wiley, 2014.
Edition:Second edition.
Subjects:
Electric machinery > Design and construction.
Electric generators > Design and construction.
Electric motors > Design and construction.
Rotational motion.
Electric generators > Design and construction
Electric machinery > Design and construction
Electric motors > Design and construction
Rotational motion

MARC

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100 1 |a Pyrhönen, Juha,  |e author. 
245 1 0 |a Design of rotating electrical machines /  |c Juha Pyrhönen, Tapani Jokinen, Valéria Hrabovcová. 
250 |a Second edition. 
264 1 |a Chichester, West Sussex, United Kingdom :  |b Wiley,  |c 2014. 
300 |a 1 online resource (xxvii, 584 pages) :  |b illustrations (some color) 
336 |a text  |b txt  |2 rdacontent 
337 |a computer  |b c  |2 rdamedia 
338 |a volume  |b nc  |2 rdacarrier 
504 |a Includes bibliographical references and index. 
520 |a "This book is an in-depth essential reference of rotating electrical machine design theory and application. In the first part of the book the general theory governing the design of an electrical machine is presented; addressing the necessary fundamentals of electromagnetic theory; exploring possible winding arrangements and resistances; describing the behaviour of the magnetic circuit and flux leakage. After this introduction of principles the main body of the book focuses on the design of a rotating electrical machine. The book defines basic characteristics such as machine type (e.g. synchronous, asynchronous, DC and doubly salient reluctance machines) and type of construction (e.g. external pole, internal pole, axial flux and radial flux machines). It then moves on to provide a detailed analysis of the design process and properties of rotating electrical machines including the insulation and heat removal options. The book illustrates the necessary analytical calculations for machine design through direct design examples i.e. a permanent magnet motor for normal speeds with rotor surface magnets, traditional squirrel cage induction motor, a low speed high torque fractional slot permanent magnet motor etc."--  |c Provided by publisher 
546 |a Translated from the Finnish. 
588 0 |a Print version record. 
505 0 0 |g Machine generated contents note:  |g 1.  |t Principal Laws and Methods in Electrical Machine Design --  |g 1.1.  |t Electromagnetic Principles --  |g 1.2.  |t Numerical Solution --  |g 1.3.  |t The Most Common Principles Applied to Analytic Calculation --  |g 1.3.1.  |t Flux Line Diagrams --  |g 1.3.2.  |t Flux Diagrams for Current-Carrying Areas --  |g 1.4.  |t Application of the Principle of Virtual Work in the Determination of Force and Torque --  |g 1.5.  |t Maxwell's Stress Tensor; Radial and Tangential Stress --  |g 1.6.  |t Self-Inductance and Mutual Inductance --  |g 1.7.  |t Per Unit Values --  |g 1.8.  |t Phasor Diagrams --  |t Bibliography --  |g 2.  |t Windings of Electrical Machines --  |g 2.1.  |t Basic Principles --  |g 2.1.1.  |t Salient-Pole Windings --  |g 2.1.2.  |t Slot Windings --  |g 2.1.3.  |t End Windings --  |g 2.2.  |t Phase Windings --  |g 2.3.  |t Three-Phase Integral Slot Stator Winding --  |g 2.4.  |t Voltage Phasor Diagram and Winding Factor --  |g 2.5.  |t Winding Analysis --  |g 2.6.  |t Short Pitching --  |g 2.7.  |t Current Linkage of a Slot Winding --  |g 2.8.  |t Poly-Phase Fractional Slot Windings --  |g 2.9.  |t Phase Systems and Zones of Windings --  |g 2.9.1.  |t Phase Systems --  |g 2.9.2.  |t Zones of Windings --  |g 2.10.  |t Symmetry Conditions --  |g 2.10.1.  |t Symmetrical Fractional Slot Windings --  |g 2.11.  |t Base Windings --  |g 2.11.1.  |t First-Grade Fractional Slot Base Windings --  |g 2.11.2.  |t Second-Grade Fractional Slot Base Windings --  |g 2.11.3.  |t Integral Slot Base Windings --  |g 2.12.  |t Fractional Slot Windings --  |g 2.12.1.  |t Single-Layer Fractional Slot Windings --  |g 2.12.2.  |t Double-Layer Fractional Slot Windings --  |g 2.13.  |t Single- and Double-Phase Windings --  |g 2.14.  |t Windings Permitting a Varying Number of Poles --  |g 2.15.  |t Commutator Windings --  |g 2.15.1.  |t Lap Winding Principles --  |g 2.15.2.  |t Wave Winding Principles --  |g 2.15.3.  |t Commutator Winding Examples, Balancing Connectors --  |g 2.15.4.  |t AC Commutator Windings --  |g 2.15.5.  |t Current Linkage of the Commutator Winding and Armature Reaction --  |g 2.16.  |t Compensating Windings and Commutating Poles --  |g 2.17.  |t Rotor Windings of Asynchronous Machines --  |g 2.18.  |t Damper Windings --  |t Bibliography --  |g 3.  |t Design of Magnetic Circuits --  |g 3.1.  |t Air Gap and its Magnetic Voltage --  |g 3.1.1.  |t Air Gap and Carter Factor --  |g 3.1.2.  |t Air Gaps of a Salient-Pole Machine --  |g 3.1.3.  |t Air Gap of Nonsalient-Pole Machine --  |g 3.2.  |t Equivalent Core Length --  |g 3.3.  |t Magnetic Voltage of a Tooth and a Salient Pole --  |g 3.3.1.  |t Magnetic Voltage of a Tooth --  |g 3.3.2.  |t Magnetic Voltage of a Salient Pole --  |g 3.4.  |t Magnetic Voltage of Stator and Rotor Yokes --  |g 3.5.  |t No-Load Curve, Equivalent Air Gap and Magnetizing Current of the Machine --  |g 3.6.  |t Magnetic Materials of a Rotating Machine --  |g 3.6.1.  |t Characteristics of Ferromagnetic Materials --  |g 3.6.2.  |t Losses in Iron Circuits --  |g 3.7.  |t Permanent Magnets in Rotating Machines --  |g 3.7.1.  |t History and Development of Permanent Magnets --  |g 3.7.2.  |t Characteristics of Permanent Magnet Materials --  |g 3.7.3.  |t Operating Point of a Permanent Magnet Circuit --  |g 3.7.4.  |t Demagnetization of Permanent Magnets --  |g 3.7.5.  |t Application of Permanent Magnets in Electrical Machines --  |g 3.8.  |t Assembly of Iron Stacks --  |t Bibliography --  |g 4.  |t Inductances --  |g 4.1.  |t Magnetizing Inductance --  |g 4.2.  |t Leakage Inductances --  |g 4.2.1.  |t Division of Leakage Flux Components --  |g 4.3.  |t Calculation of Flux Leakage --  |g 4.3.1.  |t Skewing Factor and Skew Leakage Inductance --  |g 4.3.2.  |t Air-Gap Leakage Inductance --  |g 4.3.3.  |t Slot Leakage Inductance --  |g 4.3.4.  |t Tooth Tip Leakage Inductance --  |g 4.3.5.  |t End Winding Leakage Inductance --  |t Bibliography --  |g 5.  |t Resistances --  |g 5.1.  |t DC Resistance --  |g 5.2.  |t Influence of Skin Effect on Resistance --  |g 5.2.1.  |t Analytical Calculation of Resistance Factor --  |g 5.2.2.  |t Critical Conductor Height in Slot --  |g 5.2.3.  |t Methods to Limit the Skin Effect --  |g 5.2.4.  |t Inductance Factor --  |g 5.2.5.  |t Calculation of Skin Effect in Slots Using Circuit Analysis --  |g 5.2.6.  |t Double-Sided Skin Effect --  |t Bibliography --  |g 6.  |t Design Process of Rotating Electrical Machines --  |g 6.1.  |t Eco-Design Principles of Rotating Electrical Machines --  |g 6.2.  |t Design Process of a Rotating Electrical Machine --  |g 6.2.1.  |t Starting Values --  |g 6.2.2.  |t Main Dimensions --  |g 6.2.3.  |t Air Gap --  |g 6.2.4.  |t Winding Selection --  |g 6.2.5.  |t Air-Gap Flux Density --  |g 6.2.6.  |t The No-Load Flux of an Electrical Machine and the Number of Winding Turns --  |g 6.2.7.  |t New Air-Gap Flux Density --  |g 6.2.8.  |t Determination of Tooth Width --  |g 6.2.9.  |t Determination of Slot Dimensions --  |g 6.2.10.  |t Determination of the Magnetic Voltages of the Air Gap, and the Stator and Rotor Teeth --  |g 6.2.11.  |t Determination of New Saturation Factor --  |g 6.2.12.  |t Determination of Stator and Rotor Yoke Heights and Magnetic Voltages --  |g 6.2.13.  |t Magnetizing Winding --  |g 6.2.14.  |t Determination of Stator Outer and Rotor Inner Diameter --  |g 6.2.15.  |t Calculation of Machine Characteristics --  |t Bibliography --  |g 7.  |t Properties of Rotating Electrical Machines --  |g 7.1.  |t Machine Size, Speed, Different Loadings and Efficiency --  |g 7.1.1.  |t Machine Size and Speed --  |g 7.1.2.  |t Mechanical Loadability --  |g 7.1.3.  |t Electrical Loadability --  |g 7.1.4.  |t Magnetic Loadability --  |g 7.1.5.  |t Efficiency --  |g 7.2.  |t Asynchronous Motor --  |g 7.2.1.  |t Current Linkage and Torque Production of an Asynchronous Machine --  |g 7.2.2.  |t Impedance and Current Linkage of a Cage Winding --  |g 7.2.3.  |t Characteristics of an Induction Machine --  |g 7.2.4.  |t Equivalent Circuit Taking Asynchronous Torques and Harmonics into Account --  |g 7.2.5.  |t Synchronous Torques --  |g 7.2.6.  |t Selection of the Slot Number of a Cage Winding --  |g 7.2.7.  |t Construction of an Induction Motor --  |g 7.2.8.  |t Cooling and Duty Types --  |g 7.2.9.  |t Examples of the Parameters of Three-Phase Industrial Induction Motors --  |g 7.2.10.  |t Asynchronous Generator --  |g 7.2.11.  |t Wound Rotor Induction Machine --  |g 7.2.12.  |t Asynchronous Motor Supplied with Single-Phase Current --  |g 7.3.  |t Synchronous Machines --  |g 7.3.1.  |t Inductances of a Synchronous Machine in Synchronous Operation and in Transients --  |g 7.3.2.  |t Loaded Synchronous Machine and Load Angle Equation --  |g 7.3.3.  |t RMS Value Phasor Diagrams of a Synchronous Machine --  |g 7.3.4.  |t No-Load Curve and Short-Circuit Test --  |g 7.3.5.  |t Asynchronous Drive --  |g 7.3.6.  |t Asymmetric-Load-Caused Damper Currents --  |g 7.3.7.  |t Shift of Damper Bar Slotting from the Symmetry Axis of the Pole --  |g 7.3.8.  |t V Curve of a Synchronous Machine --  |g 7.3.9.  |t Excitation Methods of a Synchronous Machine --  |g 7.3.10.  |t Permanent Magnet Synchronous Machines --  |g 7.3.11.  |t Synchronous Reluctance Machines --  |g 7.4.  |t DC Machines --  |g 7.4.1.  |t Configuration of DC Machines --  |g 7.4.2.  |t Operation and Voltage of a DC Machine --  |g 7.4.3.  |t Armature Reaction of a DC machine and Machine Design --  |g 7.4.4.  |t Commutation --  |g 7.5.  |t Doubly Salient Reluctance Machine --  |g 7.5.1.  |t Operating Principle of a Doubly Salient Reluctance Machine --  |g 7.5.2.  |t Torque of an SR Machine --  |g 7.5.3.  |t Operation of an SR Machine --  |g 7.5.4.  |t Basic Terminology, Phase Number and Dimensioning of an SR Machine --  |g 7.5.5.  |t Control Systems of an SR Motor --  |g 7.5.6.  |t Future Scenarios for SR Machines --  |t Bibliography --  |g 8.  |t Insulation of Electrical Machines --  |g 8.1.  |t Insulation of Rotating Electrical Machines --  |g 8.2.  |t Impregnation Varnishes and Resins --  |g 8.3.  |t Dimensioning of an Insulation --  |g 8.4.  |t Electrical Reactions Ageing Insulation --  |g 8.5.  |t Practical Insulation Constructions --  |g 8.5.1.  |t Slot Insulations of Low-Voltage Machines --  |g 8.5.2.  |t Coil End Insulations of Low-Voltage Machines --  |g 8.5.3.  |t Pole Winding Insulations --  |g 8.5.4.  |t Low-Voltage Machine Impregnation --  |g 8.5.5.  |t Insulation of High-Voltage Machines --  |g 8.6.  |t Condition Monitoring of Insulation --  |g 8.7.  |t Insulation in Frequency Converter Drives --  |t Bibliography --  |g 9.  |t Losses and Heat Transfer --  |g 9.1.  |t Losses --  |g 9.1.1.  |t Resistive Losses --  |g 9.1.2.  |t Iron Losses --  |g 9.1.3.  |t Additional Losses --  |g 9.1.4.  |t Mechanical Losses --  |g 9.1.5.  |t Decreasing Losses --  |g 9.1.6.  |t Economics of Energy Savings --  |g 9.2.  |t Heat Removal --  |g 9.2.1.  |t Conduction --  |g 9.2.2.  |t Radiation --  |g 9.2.3.  |t Convection --  |g 9.3.  |t Thermal Equivalent Circuit --  |g 9.3.1.  |t Analogy between Electrical and Thermal Quantities --  |g 9.3.2.  |t Average Thermal Conductivity of a Winding --  |g 9.3.3.  |t Thermal Equivalent Circuit of an Electrical Machine --  |g 9.3.4.  |t Modeling of Coolant Flow --  |g 9.3.5.  |t Solution of Equivalent Circuit --  |g 9.3.6.  |t Cooling Flow Rate. 
650 0 |a Electric machinery  |x Design and construction. 
650 0 |a Electric generators  |x Design and construction. 
650 0 |a Electric motors  |x Design and construction. 
650 0 |a Rotational motion. 
650 7 |a Electric generators  |x Design and construction  |2 fast 
650 7 |a Electric machinery  |x Design and construction  |2 fast 
650 7 |a Electric motors  |x Design and construction  |2 fast 
650 7 |a Rotational motion  |2 fast 
700 1 |a Jokinen, Tapani,  |d 1937-  |e author.  |1 https://id.oclc.org/worldcat/entity/E39PBJm4XJTwxj8gFPXBYJCYT3 
700 1 |a Hrabovcová, Valeria,  |e author. 
758 |i has work:  |a Design of rotating electrical machines (Text)  |1 https://id.oclc.org/worldcat/entity/E39PCH97C4vJ7TGcYqHMBRf7wP  |4 https://id.oclc.org/worldcat/ontology/hasWork 
776 0 8 |i Print version:  |a Pyrhonen, Juha.  |t Design of rotating electrical machines.  |d Chichester, West Sussex, United Kingdom : Wiley, 2014  |h xxvii, 584 pages  |z 9781118581575  |w (DLC) 2013021891 
856 4 0 |u https://go.oreilly.com/UniOfColoradoBoulder/library/view/~/9781118581575/?ar  |z Full Text (via O'Reilly/Safari) 
915 |a - 
956 |a O'Reilly-Safari eBooks 
956 |b O'Reilly Online Learning: Academic/Public Library Edition 
956 |a Quesnalia testing - EUI 
994 |a 92  |b COD 
998 |b Added to collection ProQuest.ormac 
999 f f |s 1b6793fd-3e3a-4911-a183-cf8e145762a8  |i 4a8169ab-d36c-4458-a6b7-79a235747603 
952 f f |p Can circulate  |a University of Colorado Boulder  |b Online  |c Online  |d Online  |e TK2331 .P97 2014eb  |h Library of Congress classification  |i web 

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