Power system small signal stability analysis and control / Mondal, Debasish; Chakrabarti, Abhijit ; Sengupta, Aparajita.

Format:

Book

Author/Creator:

Mondal, Debasish, author.

Sengupta, Aparajita, author.

Chakrabarti, Abhijit, author.

Language:

English

Subjects (All):

Electric power systems--Control.

Electric power systems.

Electric power system stability.

Physical Description:

1 online resource (336 p.)

Edition:

1st ed.

Place of Publication:

London : Elsevier, 2014.

Language Note:

English

System Details:

text file

Summary:

Power System Small Signal Stability Analysis and Control presents a detailed analysis of the problem of severe outages due to the sustained growth of small signal oscillations in modern interconnected power systems. The ever-expanding nature of power systems and the rapid upgrade to smart grid technologies call for the implementation of robust and optimal controls. Power systems that are forced to operate close to their stability limit have resulted in the use of control devices by utility companies to improve the performance of the transmission system against commonly occurring powe

Contents:

Front Cover; Power System Small Signal Stability Analysis and Control; Copyright; Dedication; Contents; Acknowledgments; Author Biography; Preface; Chapter 1: Concepts of Small-Signal Stability; 1.1. Introduction; 1.2. Swing equation; 1.3. Nature of oscillations; 1.4. Modes of oscillations and its study procedure; 1.5. Synchronizing torque and damping torque; 1.6. Small-signal oscillations in a synchronous generator connected to an infinite bus; 1.7. An illustration; Solution; Exercises; References; Chapter 2: Fundamental Models of Synchronous Machine; 2.1. Introduction

2.2. Synchronous machine dynamic model in the a-b-c reference frame2.3. Park's transformation and dynamic model in the d-q-o reference frame; 2.4. Per unit (PU) representation and scaling [2]; 2.5. Physical significance of PU system; 2.6. Stator flux-current relationships; 2.7. Rotor dynamic equations; 2.8. Reduced order model; 2.9. Equivalent circuit of the stator algebraic equations; 2.10. Synchronous machine exciter; 2.10.1. IEEE Type I exciter; 2.10.2. Static exciter; Exercises; References; Chapter 3: Models of Power Network and Relevant Power Equipments; 3.1. Introduction

3.2. Simple model of a synchronous generator3.3. Steady-State Modeling of Synchronous Machine (Analytical Aspects) [1]; 3.4. Governor model [2]; 3.5. Turbine model [2]; 3.6. Power network model; 3.7. Modeling of load; 3.8. Power system stabilizer; 3.9. Model of FACTS devices; 3.9.1. Static Var compensator; 3.9.2. Static synchronous compensator; 3.9.3. Thyristor-controlled series compensator; 3.9.4. Static synchronous series compensator; 3.9.5. Unified power flow controller; Exercises; References; Chapter 4: Small-Signal Stability Analysis in SMIB Power System; 4.1. Introduction

4.2. Heffron-Philips model of SMIB power system4.2.1. Fundamental equations; 4.2.2. Linearization process and state-space model; 4.2.3. Derivation of K constants: K1, K2, K3, K4, K5, and K6; 4.3. Small-Signal stability analysis using state-space model and block diagram; 4.4. An illustration; Solution; 4.5. Effect of Generator Field; Solution; 4.6. Effect of excitation system; 4.6.1. Effect of excitation system in torque-angle loop; 4.6.2. Calculation of steady-state synchronizing and damping torque; 4.6.3. Synchronizing and damping torque at rotor oscillation frequency; 4.7. An illustration

SolutionExercises; References; Chapter 5: Small-Signal Stability Analysis in Multimachine System; 5.1. Introduction; 5.2. Multimachine small-Signal model; 5.2.1. Two-axis model of multimachine system; 5.2.2. Linearization process and multimachine state-space model; 5.2.3. Reduced-order flux-decay model; 5.3. Computation of initial conditions of the state variables; 5.3.1. An illustration; 5.4. Identification of electromechanical swing modes; 5.4.1. Participation factor analysis; Solution; 5.4.2. Swing mode and participation ratio; 5.5. An illustration: A test case; Exercises; References

Chapter 6: Mitigation of Small-Signal Stability Problem Employing Power System Stabilizer

Notes:

Description based upon print version of record.

Includes bibliographical references at the end of each chapters and index.

Description based on online resource; title from PDF title page (ebrary, viewed May 15, 2014).

ISBN:

9780128006702

0128006706

OCLC:

883128116