دسترسی نامحدود
برای کاربرانی که ثبت نام کرده اند
دانلود کتاب Power System Transients: Modelling Simulation and Applications
دانلود کتاب گذرا سیستم قدرت: شبیه سازی مدل سازی و برنامه های کاربردی
مشخصات کتاب
Power System Transients: Modelling Simulation and Applications
ویرایش: نویسندگان: Gevork Gharehpetian, Atousa Yazdani, Behrooz Zaker سری: ISBN (شابک) : 1032185589, 9781032185583 ناشر: CRC Press سال نشر: 2023 تعداد صفحات: 248 [249] زبان: English فرمت فایل : PDF (درصورت درخواست کاربر به PDF، EPUB یا AZW3 تبدیل می شود) حجم فایل: 17 Mb
قیمت کتاب (تومان) : 80,000
در صورت ایرانی بودن نویسنده امکان دانلود وجود ندارد و مبلغ عودت داده خواهد شد
در صورت تبدیل فایل کتاب Power System Transients: Modelling Simulation and Applications به فرمت های PDF، EPUB، AZW3، MOBI و یا DJVU می توانید به پشتیبان اطلاع دهید تا فایل مورد نظر را تبدیل نمایند.
توجه داشته باشید کتاب گذرا سیستم قدرت: شبیه سازی مدل سازی و برنامه های کاربردی نسخه زبان اصلی می باشد و کتاب ترجمه شده به فارسی نمی باشد. وبسایت اینترنشنال لایبرری ارائه دهنده کتاب های زبان اصلی می باشد و هیچ گونه کتاب ترجمه شده یا نوشته شده به فارسی را ارائه نمی دهد.
توضیحاتی در مورد کتاب گذرا سیستم قدرت: شبیه سازی مدل سازی و برنامه های کاربردی
توضیحاتی درمورد کتاب به خارجی
In this textbook, a variety of transient cases that have occurred or are possible to occur in power systems are discussed and analyzed. It starts by categorizing transients\' phenomena and specifying unfavorable situations in power systems raised by transients. It then moves on to different protective measures that have been implemented in the system to prevent disasters caused by those transients. It also explains different methodologies used to analyze transients in power systems. This book discusses the modeling of components very extensively and provides analysis cases to assess a wide variety of transients, their possible effects on the system, and the types of protection commonly used for each case, along with methods fordesigning a sound protection system. FEATURES - Detailed models of system components along with power systems computer- aided design (PSCAD) implementation and analysis - Comprehensive reference of transient cases in power systems along with design considerations and protective solutions - The cases are not limited to classical transients such as lightning strikes and switching, but rather the book discusses transient cases that power system operators and engineers have to deal with, such as ferroresonance, in detail, accompanied by computer simulations - A chapter on original materials related to transformer windings with induced traveling waves Power System Transients: Modelling Simulation and Applications provides a comprehensive resource to mainly educate graduate students in the area of power system transients. It also serves as a reference for industry engineers challenged by transient problems in the system. .
فهرست مطالب
Cover Half Title Title Page Copyright Page Table of Contents Preface Authors Chapter 1: Overview 1.1 Introduction 1.2 Categories of Transient Phenomenon in Power Systems 1.3 Transients and Their Effect on Design and Operation of Power Systems 1.4 Catastrophic Cases 1.4.1 High Voltage Transients 1.4.1.1 Required Studies 1.4.1.2 Causes of Overvoltages 1.4.1.3 Insulation Coordination and System Protection Against Transients 1.5 Overcurrent Transients 1.5.1 Circuit Breaker Design 1.5.2 Mechanical Stress 1.5.3 Thermal Stress 1.6 Abnormal Waveforms 1.6.1 Importance of the Study 1.7 Electromechanical Transients 1.8 Study Techniques for Transient Studies 1.8.1 Modeling and Simulation 1.8.2 Simulations Tools 1.8.3 Important Considerations for Transient Analysis 1.9 An Introduction to PSCAD/EMTDC Bibliography Chapter 2: Traveling Waves 2.1 Transmission Line Equations 2.1.1 Lossless Lines 2.1.2 Lossy Lines 2.2 Reflection Rules for Sinusoidal Waves 2.2.1 Transmission Line Reflection 2.2.2 End of the Line Reflection 2.2.3 Reflection at the Beginning of the Line 2.2.4 Voltage Distribution across a Lossless Line 2.2.5 Frequency-dependent Wave Speed Propagation Variation 2.2.6 Frequency-dependent Characteristic Impedance Variations 2.3 Step-form Traveling Waves 2.3.1 Solving Equations 2.3.2 Current Equations (D’Alembert’s Solution) 2.3.3 Forward and Backward Waves 2.3.4 Reflection Rules for Step Waves 2.3.5 Loss Consideration in Line 2.4 PSCAD Examples Bibliography Chapter 3: Lattice Diagram and Its Applications 3.1 Traveling Wave as a Function of Time and Location 3.2 Cable Connection to Transmission Line 3.3 Closing Resistance Circuit Breakers 3.3.1 Source Internal Resistance 3.3.2 Dead Line Connection to Live Line 3.4 Reflection in Branches 3.5 Special Cases in Reflection 3.5.1 Capacitor Connection at the End of the Line 3.5.2 Inductors Connection at the End of the Line 3.5.3 Parallel LC Connection at the End of the Line 3.5.4 Series LC Connection at the End of the Line 3.5.5 Combination of Inductors and Capacitors in the Middle of the Line 3.6 PSCAD Examples 3.6.1 Overhead Line and Cable Connection 3.7 Closing Breaker in Line Energization 3.8 Capacitor Connection at the End of the Line 3.9 Inductor Connection at the End of the Line 3.10 Parallel Filter LC Connection at the End of the Line Bibliography Chapter 4: Lightning-Induced Transients 4.1 Introduction 4.2 General Characteristics of Lightning Surges 4.3 Types of Stroke 4.3.1 Direct Stroke to Phase Conductor 4.3.2 Ground Conductor or Tower Stroke 4.3.3 Nearby Strokes 4.4 System Response to Voltage Arbitrary Pulses 4.5 Application of Lattice Diagram 4.6 Tower Modeling for Transient Studies 4.7 PSCAD Examples Bibliography Chapter 5: Energization Overvoltages 5.1 Source-type Effect 5.1.1 Step Source Energization through Inductance 5.1.2 Sinusoidal Source Energization through Inductance 5.1.3 Line Energization through Energized Lines 5.1.4 Source Energization through Inductance Adjacent to Parallel Lines 5.2 Asynchronous Closing of Three Phase Circuit Breaker Contactors 5.3 Reactive Compensation 5.4 Trapped Charge 5.5 System Losses 5.6 Switching Location 5.7 Terminal Type of Effects 5.8 Capacitive Bank Closing 5.9 PSCAD Examples 5.9.1 Sinusoidal Source Energization through Inductance 5.9.2 Source Energization through Inductance Adjacent to Parallel Lines 5.9.3 Terminal-type Effects Bibliography Chapter 6: Transients Induced by De-energization 6.1 Transient Recovery Voltages 6.2 Rate of Rise of Recovery Voltage 6.3 Current Injection Methodology 6.4 Factors Affecting Transient Recovery Voltages 6.4.1 Power Factor Effect on Transient Recovery Voltages 6.4.2 Natural Frequency Effect on Transient Recovery Voltages 6.4.3 Effect of Existence of Two Natural Frequencies on Transient Recovery Voltages 6.4.4 Damping Effect on Transient Recovery Voltages 6.4.5 Effect of Type of Short Circuit 6.4.6 Arc Voltage Effect on TRV 6.5 Fault Interruption in a Short Line 6.6 Magnetizing Current Chopping 6.7 Residual Flux Effect on Transformer Inrush Current 6.8 Capacitive Current Interruption 6.9 Disconnectors Opening 6.10 PSCAD Examples 6.10.1 Transient Recovery Voltages 6.10.2 Effect of Existence of Two Natural Frequencies on Transient Recovery Voltage 6.10.3 Magnetizing Current Chopping Bibliography Chapter 7: Traveling Wave Influence on Power Transformers Windings 7.1 Winding Modeling without Mutual Inductances 7.1.1 Voltage Initial Distribution 7.1.2 Equivalent Capacitance of the Winding at t = 0 7.1.3 Final Distribution 7.1.4 Solution for Main Partial Differential Equation 7.1.5 Traveling Wave Response Justification 7.2 Winding Modeling with Mutual Coupling and Resistances 7.2.1 Winding Detailed Model 7.3 MATLAB ® /Simulink ® Example Bibliography Chapter 8: Ferroresonance 8.1 Linear Circuit Resonance 8.2 Nonlinear Circuit Resonance 8.2.1 Stability Assessment of Operating Points in a Nonlinear Resonance Circuit 8.2.1.1 Effect of ω 8.2.1.2 Effect of u 0 8.3 Ferroresonance Practical Cases in Power Systems 8.3.1 One Phase Open 8.3.2 Overload Relay Malfunction 8.3.3 De-energization of One Circuit of Two-circuit Transmission Line 8.3.4 Single-Phase Fault and Capacitive Voltage Transformer 8.4 Simulations Bibliography Index
نظرات کاربران
کتاب های تصادفی
دانلود کتاب Must We Divide History Into Periods?
دانلود کتاب Physics of Lakes: Volume 1: Foundation of the Mathematical and Physical Background
