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This book attempts to eliminate the existing “imbalance” between the theory of electric machines and the theory of electromagnetic fields. In order to develop viable methods for engineering calculations, the author applies field equations. The resulting, new methods consist of traditional calculation elements represented in a refined form (circuit-loops, parameters, equivalent circuits and voltage equations). These calculation methods should be effective both for researchers and engineering practitioners, especially, in relation to the modern electric machines, such as powerful turbine generators, large high-speed synchronous motors, etc.…mehr
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This book attempts to eliminate the existing “imbalance” between the theory of electric machines and the theory of electromagnetic fields. In order to develop viable methods for engineering calculations, the author applies field equations. The resulting, new methods consist of traditional calculation elements represented in a refined form (circuit-loops, parameters, equivalent circuits and voltage equations). These calculation methods should be effective both for researchers and engineering practitioners, especially, in relation to the modern electric machines, such as powerful turbine generators, large high-speed synchronous motors, etc.
Produktdetails
- Produktdetails
- Verlag: Springer International Publishing
- Erscheinungstermin: 5. Juli 2022
- Englisch
- ISBN-13: 9783030922849
- Artikelnr.: 64277826
- Verlag: Springer International Publishing
- Erscheinungstermin: 5. Juli 2022
- Englisch
- ISBN-13: 9783030922849
- Artikelnr.: 64277826
Dr. Valentin Asanbayev was born in Russia in 1939. He graduated from Kiev Polytechnic Institute (Ukraine) in 1966. From 1966 to 1995, he worked at the National Academy of Science of Ukraine (Institute of Electrodynamics), dealing with problems related to the research and development of powerful turbine generators. The last position he held was the leading research fellow. In 1995, he immigrated to the United States.
Introduction to Theory of Calculating Asynchronous Machines.- Electromechanical Interactions in Asynchronous Machines: Basic Physical Phenomena.- Interconnections of Basic Physical Phenomena: Kirchhoff’s Equations.- Rotating Magnetic Field and Electromagnetic Torque: Practical Expressions for Calculating.- Voltage Equations through Space Vectors.- Voltage Equations and Machine Equivalent Circuit: Formation of Fragments.- Air Gap EMF Equations: Self-and Mutual Induction Reactances.- Equivalent Circuits of Machine Design Fragments: “No-Load and Under-Load” Concept.- “No-Load and Under-Load” Concept: Techniques for Implementing.- Machine Equivalent Circuit in Phase System of Units: Techniques for Constructing.- Calculation Elements by Using Resulting Magnetic Field: Phase System of Units.- Calculation Elements in Specific System of Units: Techniques for Determining.- Calculation Elements by Using Resulting Magnetic Field: Specific System of Units.- L-shaped Equivalent Circuits for MachineDesign Fragments.- Calculation Elements of Machine with Single-Cage Rotor: “Field” Concept.- Calculation Elements of Machine with Wound Rotor: “Field” Concept.
Introduction to Theory of Calculating Asynchronous Machines.- Electromechanical Interactions in Asynchronous Machines: Basic Physical Phenomena.- Interconnections of Basic Physical Phenomena: Kirchhoff's Equations.- Rotating Magnetic Field and Electromagnetic Torque: Practical Expressions for Calculating.- Voltage Equations through Space Vectors.- Voltage Equations and Machine Equivalent Circuit: Formation of Fragments.- Air Gap EMF Equations: Self-and Mutual Induction Reactances.- Equivalent Circuits of Machine Design Fragments: "No-Load and Under-Load" Concept.- "No-Load and Under-Load" Concept: Techniques for Implementing.- Machine Equivalent Circuit in Phase System of Units: Techniques for Constructing.- Calculation Elements by Using Resulting Magnetic Field: Phase System of Units.- Calculation Elements in Specific System of Units: Techniques for Determining.- Calculation Elements by Using Resulting Magnetic Field: Specific System of Units.- L-shaped Equivalent Circuits for MachineDesign Fragments.- Calculation Elements of Machine with Single-Cage Rotor: "Field" Concept.- Calculation Elements of Machine with Wound Rotor: "Field" Concept.
Introduction to Theory of Calculating Asynchronous Machines.- Electromechanical Interactions in Asynchronous Machines: Basic Physical Phenomena.- Interconnections of Basic Physical Phenomena: Kirchhoff’s Equations.- Rotating Magnetic Field and Electromagnetic Torque: Practical Expressions for Calculating.- Voltage Equations through Space Vectors.- Voltage Equations and Machine Equivalent Circuit: Formation of Fragments.- Air Gap EMF Equations: Self-and Mutual Induction Reactances.- Equivalent Circuits of Machine Design Fragments: “No-Load and Under-Load” Concept.- “No-Load and Under-Load” Concept: Techniques for Implementing.- Machine Equivalent Circuit in Phase System of Units: Techniques for Constructing.- Calculation Elements by Using Resulting Magnetic Field: Phase System of Units.- Calculation Elements in Specific System of Units: Techniques for Determining.- Calculation Elements by Using Resulting Magnetic Field: Specific System of Units.- L-shaped Equivalent Circuits for MachineDesign Fragments.- Calculation Elements of Machine with Single-Cage Rotor: “Field” Concept.- Calculation Elements of Machine with Wound Rotor: “Field” Concept.
Introduction to Theory of Calculating Asynchronous Machines.- Electromechanical Interactions in Asynchronous Machines: Basic Physical Phenomena.- Interconnections of Basic Physical Phenomena: Kirchhoff's Equations.- Rotating Magnetic Field and Electromagnetic Torque: Practical Expressions for Calculating.- Voltage Equations through Space Vectors.- Voltage Equations and Machine Equivalent Circuit: Formation of Fragments.- Air Gap EMF Equations: Self-and Mutual Induction Reactances.- Equivalent Circuits of Machine Design Fragments: "No-Load and Under-Load" Concept.- "No-Load and Under-Load" Concept: Techniques for Implementing.- Machine Equivalent Circuit in Phase System of Units: Techniques for Constructing.- Calculation Elements by Using Resulting Magnetic Field: Phase System of Units.- Calculation Elements in Specific System of Units: Techniques for Determining.- Calculation Elements by Using Resulting Magnetic Field: Specific System of Units.- L-shaped Equivalent Circuits for MachineDesign Fragments.- Calculation Elements of Machine with Single-Cage Rotor: "Field" Concept.- Calculation Elements of Machine with Wound Rotor: "Field" Concept.