Electric Systems, Dynamics, and Stability with Artificial Intelligence Applications. (1999)
- Record Type:
- Book
- Title:
- Electric Systems, Dynamics, and Stability with Artificial Intelligence Applications. (1999)
- Main Title:
- Electric Systems, Dynamics, and Stability with Artificial Intelligence Applications
- Further Information:
- Note: James A. Momoh, Mohamed E. El-Hawary.
- Authors:
- Momoh, James A
El-Hawary, Mohamed E - Contents:
- 2.4 REACTIVE CAPABILITY LIMITS2.5 STATIC LOAD MODELS; CONCLUSIONS; 3 Dynamic Electric Network Models; INTRODUCTION; 3.1 EXCITATION SYSTEM MODEL; 3.2 PRIME MOVER AND GOVERNING SYSTEM MODELS; 3.2.1 Hydraulic Turbines and Governing System Model; 3.2.2 Steam Turbines and Governing System Model; 3.3 MODELING OF LOADS; 3.3.1 Dynamic Load Models; CONCLUSIONS; 4 Philosophy of Security Assessment; INTRODUCTION; 4.1 THE SWING EQUATION; 4.2 SOME ALlERNATIVE FORMS; 4.2.1 Machine Inertia Constants; 4.3 TRANSIENT AND SUBTRANSIENT REACTANCES; 4.4 SYNCHRONOUS MACHINE MODEL IN STABILITY ANALYSIS 4.4.1 Steady-State Equations4.4.2 Salient Pole Synchronous Machine; 4.4.3 Transient Equations; 4.5 SUBTRANSIENT EQUATIONS; 4.6 MACHINE MODELS; 4.6.1 Model 1; 4.6.2 Model 2; 4.6.3 Model 3; 4.6.4 Model 4; 4.6.5 Model 5; 4.7 GROUPS OF MACHINES AND THE INFINITE BUS; 4.7.1 Model 0; 4.8 STABILITY ASSESSMENT; 4.9 CONCEPTS IN TRANSIENT STABILITY; 4.10 A METHOD FOR STABILITY ASSESSMENT; 4.11 MATHEMATICAL MODELS AND SOLUTION METHODS IN TRANSIENT STABILITY ASSESSMENT FOR GENERAL NETWORKS; 4.11.1 System Representation; 4.11.2 Synchronous Machine Representation in the Network 4.11.3 Load Representation in the Network4.11.4 System Faults and Switching; 4.11.5 Branch Switching; 4.11.6. Machine Switching; 4.12 INTEGRATION TECHNIQUES; 4.12.1 Predictor Corrector Methods; 4.12.2 The Euler Method; 4.12.3 The Modified Euler Method; 4.12.4 Trapezoidal Method; 4.12.5 Runge-Kutta Methods; 4.12.6 The Sampling Method (James2.4 REACTIVE CAPABILITY LIMITS2.5 STATIC LOAD MODELS; CONCLUSIONS; 3 Dynamic Electric Network Models; INTRODUCTION; 3.1 EXCITATION SYSTEM MODEL; 3.2 PRIME MOVER AND GOVERNING SYSTEM MODELS; 3.2.1 Hydraulic Turbines and Governing System Model; 3.2.2 Steam Turbines and Governing System Model; 3.3 MODELING OF LOADS; 3.3.1 Dynamic Load Models; CONCLUSIONS; 4 Philosophy of Security Assessment; INTRODUCTION; 4.1 THE SWING EQUATION; 4.2 SOME ALlERNATIVE FORMS; 4.2.1 Machine Inertia Constants; 4.3 TRANSIENT AND SUBTRANSIENT REACTANCES; 4.4 SYNCHRONOUS MACHINE MODEL IN STABILITY ANALYSIS 4.4.1 Steady-State Equations4.4.2 Salient Pole Synchronous Machine; 4.4.3 Transient Equations; 4.5 SUBTRANSIENT EQUATIONS; 4.6 MACHINE MODELS; 4.6.1 Model 1; 4.6.2 Model 2; 4.6.3 Model 3; 4.6.4 Model 4; 4.6.5 Model 5; 4.7 GROUPS OF MACHINES AND THE INFINITE BUS; 4.7.1 Model 0; 4.8 STABILITY ASSESSMENT; 4.9 CONCEPTS IN TRANSIENT STABILITY; 4.10 A METHOD FOR STABILITY ASSESSMENT; 4.11 MATHEMATICAL MODELS AND SOLUTION METHODS IN TRANSIENT STABILITY ASSESSMENT FOR GENERAL NETWORKS; 4.11.1 System Representation; 4.11.2 Synchronous Machine Representation in the Network 4.11.3 Load Representation in the Network4.11.4 System Faults and Switching; 4.11.5 Branch Switching; 4.11.6. Machine Switching; 4.12 INTEGRATION TECHNIQUES; 4.12.1 Predictor Corrector Methods; 4.12.2 The Euler Method; 4.12.3 The Modified Euler Method; 4.12.4 Trapezoidal Method; 4.12.5 Runge-Kutta Methods; 4.12.6 The Sampling Method (James J. Ray; James A. Momoh, et al.); 4.13 THE TRANSIENT STABILITY ALGORITHM; CONCLUSION; 5 Assessing Angle Stability via Transient Energy Function; INTRODUCTION; 5.1 STABILITY CONCEPTS; 5.1.1 Definitions and a Lemma 5.1.2 Application of Lyapunov's Method to the Simple Pendulum5.2. SYSTEM MODEL DESCRIPTION; 5.2.1 Real Power Supplied by a Generator; 5.3 STABILITY OF A SINGLE-MACHINE SYSTEM; 5.3.1 Transient Swing; 5.4 STABILITY ASSESSMENT FOR n-GENERATOR SYSTEM BY THE TEF METHOD; 5.5 APPLICATION TO A PRACTICAL POWER SYSTEM; 5.6 BOUNDARY OF THE REGION OF STABILITY; CONCLUSION; 6 Voltage Stability Assessment; INTRODUCTION; 6.1 WORKING DEFINITION OF VOLTAGE COLLAPSE STUDY TERMS; 6.1.1 Classification of Voltage Collapse Detection; 6.1.2 Classification of Voltage Collapse Prevention … (more)
- Publisher Details:
- Boca Raton, FL : CRC Press
- Publication Date:
- 1999
- Extent:
- 1 online resource
- Subjects:
- 621.31
Power electronics
Mechanical engineering
Mechanical engineering
Power electronics
Electronic books - Languages:
- English
- ISBNs:
- 9781482270099
1482270099 - Access Rights:
- Legal Deposit; Only available on premises controlled by the deposit library and to one user at any one time; The Legal Deposit Libraries (Non-Print Works) Regulations (UK).
- Access Usage:
- Restricted: Printing from this resource is governed by The Legal Deposit Libraries (Non-Print Works) Regulations (UK) and UK copyright law currently in force.
- View Content:
- Available online (eLD content is only available in our Reading Rooms) ↗
- Physical Locations:
- British Library HMNTS - ELD.DS.283113
- Ingest File:
- 01_190.xml