Description |
1 online resource (442 p.) |
Series |
Energy Engineering |
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Energy Engineering
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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 |
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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 |
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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 |
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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 |
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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 |
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interoperability concepts |
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smart grid communications |
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microgrid technology |
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distributed generation system |
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energy storage systems |
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distribution systems protection |
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harmonic analysis |
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VAR control |
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voltage control |
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distribution system restoration |
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distribution system reconfiguration |
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distribution systems reliability |
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short circuit calculation |
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distribution automation functions |
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smart grids |
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distribution systems automation |
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distribution systems analysis |
Bibliography |
Included bibliographical references and index (401-410) |
Subject |
Distributed generation of electric power.
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Electric power distribution.
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Electric power systems.
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Electric power systems -- Control.
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Electric power systems -- Protection.
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Electric power systems -- Reliability
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Electric power transmission.
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Energy storage.
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Harmonic analysis.
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Harmonics
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Short circuits.
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System theory.
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Fourier Analysis
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Systems Theory
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Distributed generation of electric power.
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Electric power distribution.
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Electric power systems.
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Electric power systems -- Control.
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Electric power systems -- Protection.
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Electric power systems -- Reliability.
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Electric power transmission.
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Energy storage.
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Harmonic analysis.
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Short circuits.
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System theory.
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automation.
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distributed power generation.
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energy storage.
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harmonic analysis.
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open systems.
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power distribution control.
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power distribution protection.
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power distribution reliability.
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power system analysis computing.
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power system harmonics.
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power system restoration.
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reactive power control.
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short-circuit currents.
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smart power grids.
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voltage control.
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Form |
Electronic book
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ISBN |
9781785618727 |
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1785618725 |
|
1523129786 |
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9781523129782 |