The Essentials of Power System Dynamics and Control (Paperback)

· 제목 : The Essentials of Power System Dynamics and Control (Paperback) 
· 분류 : 외국도서 > 기술공학 > 기술공학 > 기계
· ISBN : 9789811342714
· 쪽수 : 222쪽
· 출판일 : 2019-02-07

1 Introduction

The dq0 Transformation

Device Models

Network Modelling

 

2 Synchronous Machines

The Model

Equations in Per Unit System

Steady-state Conditions

Single Machine Infinite Bus (SMIB)

Exercises

      Direct-axis Transient Inductance

      Quadrature-axis Transient Inductance

      Steady-state Output Power

      Voltage behind Transient Inductance

      Equivalence of two models

      Power Transfer Curves

      Simulation I

      Steady-state

      Simulation II

      Simulation III

      Three-phase Short-circuit Simulation

      Equal-Area Criterion

      Step Change in field voltage

      V-curves

      Phasor to dq-Frame - Part I

      Phasor to dq-Frame - Part II

      Transmission line inductance

      Terminal Voltage

      Operational Impedance

      Operational Impedance & Sub-transient Model

 

3 Induction Machines

The Model

Steady-state conditions

Exercise

      Steady-State Equivalent Circuit

      Steady-State Output Power

       Steady-State Torque vs Speed

        Doubly-

fed Induction Machine - Steady-state

        Voltage Behind Transient Inductance

        Simulation

        Doubly-fed Induction Machine

         Vector Control

         Dynamic Equations with delta

         Phasor to dq-Frame - Part I

         Phasor to dq-Frame - Part II

4 Network Equations Power Systems

Machines as Active Loads

Submatrices in the Model Equations

Forming Z-matrices

Forming D-matrices

Network Equations Referred to Machine Internal Variables

5 Simulations

SMIB Simulation Plots

Induction Machine Simulation

Four-bus System

Mat

lab Scr

ipts Saturation

6 Linear Control: Analysis

Introduction

Linear Differential Equations

First Order Differential Equations

Second Order Differential Equations

Simultaneous First Order Differential Equations

Second Order System Response

Modal Analysis

   Eigenvalue Sensitivity

   Participation Matrix

   Frequency Response

   Root-Locus

   Residues

   Dominant Residue Method

   Feedback and Residues

Linearisation

      Linearisation by Perturbation

Synchronous Machine Linearisation

Single Machine Infinite Bus Equations (without AVR)

Single Machine Infinite Bus Equations (with AVR)

Exercises

    Synchronous Machine Damping Torque

 &nbs

p;  Synch

ronising and Damping Torques

    Multi-machine Systems

7 AVR Tuning

AVR Performance Requirements

AVR Models

Practical Exciters

Control for Governors

Ziegler-Nichols Tuning Method for PID Control

PID Control of Governor

8 Power System Stabilisers

PSS Design

Other PSS Design Methods

Two Lead Blocks

Multi-machine System PSS Design

    G_pvr(s) for multi-machine systems

    Eigenvalue Sensitivity and Participation Matrix

    Dynamic Simulation - Local Mode

    Dynamic Simulation - Inter-area Mode

     Eigenvectors and Participation Factors