Title Distribution Systems Analysis and Automation / Juan M. Gers

Edition 2nd ed Published Stevenage : IET, 2020

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Description 1 online resource (442 p.) Series Energy Engineering Energy Engineering Contents Intro -- Contents -- List of figures -- List of tables -- About the Author -- Preface -- 1. Smart Grid overview -- 1.1 Smart Grid for Distribution Systems -- 1.2 Definitions of Smart Grid -- 1.3 Benefits of the Smart Grid on distribution systems -- 1.3.1 Enhancing Reliability -- 1.3.2 Improving System Efficiency -- 1.3.3 Distributed Energy Resources -- 1.3.4 Optimizing Asset Utilization and Efficient Operation -- 1.4 Maturity Models for Smart Grid Applications -- 1.4.1 Smart Grid Maturity Model -- 1.4.2 Benefits of using a Smart Grid Maturity Model -- 1.4.3 Genesis and Components of an SGMM 1.4.4 Development Process of an SGMM -- 1.4.5 Levels and Domains of the SGMM -- 1.4.6 Results and Analysis Obtained by SGMM -- 1.4.7 Example Case -- 1.5 Prioritization in Smart Grid projects -- 1.6 Cost-benefit Analysis -- 1.6.1 Definition of Benefits -- 1.6.2 Cost-benefit Analysis Methodologies -- Reference -- Further Reading -- 2. Distribution Automation Functions -- 2.1 Electrical System Automation -- 2.2 EMS Functional Scope -- 2.3 DMS Functional Scope -- 2.4 Functionality of DMS -- 2.4.1 Steady-state Performance Improvement -- 2.4.2 Dynamic Performance Improvement 2.5 Outage Management Systems -- 2.6 Geographic Information Systems -- 2.6.1 AM/FM Functions -- 2.6.2 Database Management -- 2.7 Communication Options -- 2.8 Supervisory Control and Data Acquisition -- 2.8.1 SCADA Functions -- 2.8.2 System Architecture -- 2.9 Synchrophasors and its Application in Power Systems -- 2.9.1 Definition -- 2.9.2 Application of PMUs -- Further Reading -- 3. Fundamentals of Distribution System Analysis -- 3.1 Electrical Circuit Laws -- 3.1.1 Ohm's law -- 3.1.2 Kirchhoff's Voltage Law -- 3.1.3 Kirchhoff's Current Law -- 3.2 Circuit Theorems -- 3.2.1 Thevenin's Theorem 3.2.2 Star/Delta Transform -- 3.2.3 Superposition Theorem -- 3.3 Power AC Circuits -- 3.4 PU Normalization -- 3.5 Load Flow -- 3.5.1 Formulation of the Load Flow Problem -- 3.5.2 Newton-Raphson Method -- 3.5.3 Type of Buses -- 3.5.4 Application of the Newton-Raphson Method to Solve Load Flows -- 3.5.5 Decoupling method -- 3.6 Radial Load Flow Concepts -- 3.6.1 Theoretical Background -- 3.6.2 Distribution Network Models -- 3.6.3 Nodes and Branches Identification -- 3.6.4 Illustration of Nodes and Branches Identification -- 3.6.5 Algorithm to Develop Radial Load Flow 3.7 Power System Analysis Tool -- 3.7.1 New Tendencies in PSAT Applications -- 3.7.2 Advanced Simulations in PSATs based on Load Flow Concept -- 3.8 Proposed Exercises -- Further Reading -- 4. Short Circuit Calculation -- 4.1 Nature of Short Circuit Currents -- 4.2 Calculation of Fault Duty Values -- 4.3 Fault Calculation for Symmetrical Faults -- 4.4 Symmetrical Components -- 4.4.1 Importance and Construction of Sequence Networks -- 4.4.2 Calculation of Asymmetrical Faults using Symmetrical Components -- 4.4.3 Equivalent Impedances for a Power System Summary This book has 13 chapters. The following topics are dealt with:- Smart Grid overview; Distribution automation functions; Fundamentals of distribution system analysis; Short circuit calculation; Reliability of distribution systems; Reconfiguration and restoration of distribution systems; Voltage/VAR control; Harmonic analysis; Modern protection of distribution systems; Distributed generation and energy storage systems; Fundamentals on microgrid technology; Communications in Smart Grids; and Interoperability concepts in power electric systems Analysis power electric systems interoperability concepts smart grid communications microgrid technology distributed generation system energy storage systems distribution systems protection harmonic analysis VAR control voltage control distribution system restoration distribution system reconfiguration distribution systems reliability short circuit calculation distribution automation functions smart grids distribution systems automation distribution systems analysis Bibliography Included bibliographical references and index (401-410) Subject Distributed generation of electric power. Electric power distribution. Electric power systems. Electric power systems -- Control. Electric power systems -- Protection. Electric power systems -- Reliability Electric power transmission. Energy storage. Harmonic analysis. Harmonics Short circuits. System theory. Fourier Analysis Systems Theory Distributed generation of electric power. Electric power distribution. Electric power systems. Electric power systems -- Control. Electric power systems -- Protection. Electric power systems -- Reliability. Electric power transmission. Energy storage. Harmonic analysis. Short circuits. System theory. automation. distributed power generation. energy storage. harmonic analysis. open systems. power distribution control. power distribution protection. power distribution reliability. power system analysis computing. power system harmonics. power system restoration. reactive power control. short-circuit currents. smart power grids. voltage control. Form Electronic book ISBN 9781785618727 1785618725 1523129786 9781523129782

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