Smart electricity distribution networks 1st Edition by Ekanayake Janaka, Jianzhong Wu, Janaka Ekanayake, Nick Jenkins ISBN 1315355930 9781315355931

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ISBN 10:      1315355930

ISBN 13: 978-1315355931

Author:      Ekanayake Janaka, Jianzhong Wu, Janaka Ekanayake, Nick Jenkins

Smart distribution networks are one of the key research topics of countries looking to modernise electric power networks. Smart Electricity Distributions Networks aims to provide a basic discussion of the smart distribution concept and new technologies related to it, including distributed energy resources (DERs), demand side integration, microgrids, CELL and virtual power plants.

With writing from leading contributors in the field of smart distribution networks, this volume discusses different concepts within the field as well as the best methods to analyse smart distribution systems to provide a cohesive overview of issues relating to Smart Grid and related technologies.

This book will be valuable to those with an interest in understanding the technologies and performance of smart distribution networks as well as engaging with the wider debate over the future Smart Grid.

Smart electricity distribution networks 1st  Table of contents:

1. Introduction to Smart Distribution Networks

• Smart Distribution Networks: Overview of the evolving power distribution system incorporating advanced technologies.
• Characteristics of Smart Distribution Networks: Includes key topics like Distributed Energy Systems, Multi-Layer Autonomous Operation Areas, Communication Systems, and Power Electronics.
• Simulation & Optimization: Techniques for simulating and optimizing smart distribution networks for better performance and reliability.
• Planning & Design: Approaches for designing and planning smart distribution networks, considering future demands and integration of new technologies.

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2. Fundamentals of Distributed Energy Resources (DERs)

• Combined Heat and Power (CHP): Analyzing various CHP technologies like Steam Turbines, Gas Turbines, and Fuel Cells.
• Photovoltaic (PV) Energy Systems: Detailed sections on PV Cells, Maximum Power Extraction, and Grid-Connected PV Arrays.
• Wind Energy: Understanding Horizontal Axis Wind Turbines, Wind Turbine Topologies, and their integration with the grid.
• Energy Storage: Different types of storage systems including Electrochemical (e.g., Li-ion Batteries), Mechanical, and Electrical Storage solutions.
• Flexible Demand: Managing variable energy demand, especially in relation to DERs.

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3. Management of Distributed Energy Resources

• Demand-Side Integration (DSI): Exploring services and system support from DSI, and its impact on grid stability.
• Microgrids: Deep dive into the Microgrid Concept, Structure, and various applications of AC and DC microgrids.
• Virtual Power Plants (VPPs): Concepts and management strategies for CVPP (Commercial VPP) and TVPP (Technical VPP).

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4. ICT Infrastructure and Cyber-Security

• Communication Technologies: Examining Wireless Mesh, Cellular Networks, Power Line Communication, and their use in smart distribution networks.
• Communication Requirements: Discussing the communication needs for various systems such as Substation Automation, Advanced Metering, and Demand Response.
• Cyber-Security: Addressing concerns about data privacy and the measures necessary to ensure secure, reliable operation of smart grids.

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5. Power Electronics in Distribution Systems

• Grid Interface for DERs: Focus on integration of Wind Turbines, Photovoltaic Generators, and Electric Vehicles with the grid.
• Power Quality Improvement Devices: Describing devices like Dynamic Voltage Restorers, Static Compensators, and Active Filters.
• Network Support: Devices like STATCOM, Solid-State Transformers, and Fault Current Limiters for enhancing grid reliability.

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6. Operation Simulation and Analysis

• Network Components and Modelling: Describing the components of the distribution system (lines, transformers, loads, generators) and their simulation.
• Power Flow Analysis: Techniques like Sequential Power Flow and methods for handling Short-Circuit Fault Analysis.
• Case Studies: Practical examples of Power Flow Analysis, Sequential Power Flow, and fault handling in a distribution network.

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7. Transient Analysis

• Electromagnetic Transient Simulation: First principles of simulating transient events, including fault conditions.
• Control System Simulation: Using Nodal Analysis for control system simulations.
• Case Studies: Transient simulations in test systems like the IEEE 123-Node Test Feeder.

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8. Control and Protection of Microgrids

• Microgrid Control: Approaches for managing microgrids in both Grid-Connected and Islanded Modes.
• Protection: Ensuring reliable protection of microgrids under different operating conditions and fault scenarios.

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9. Energy Management and Optimal Planning of Microgrids

• Energy Management: Introduction to SCADA systems, Energy Management Modules, and different scheduling strategies (Heuristic, Static, Dynamic).
• Device Models: Models for key devices like PV Systems, Micro-Turbines, Batteries, and Gas Boilers.
• Optimal Planning: Developing Optimization Models for microgrid planning, considering Investment Costs, Operational Costs, and system performance.

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10. Planning of Smart Distribution Systems

• Load Forecasting: Methods for forecasting total and spatial load for both traditional and smart distribution systems.
• Substation and Network Planning: Developing models for planning substations and the entire network in smart distribution systems.
• Reliability Assessment: Evaluating the reliability of smart distribution systems, considering factors like Controllable Load and Distributed Generation.

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11. DC Distribution Networks

• DC Transmission: Examining the role of DC transmission in smart grids, particularly for Renewable Integration.
• Faults and Protection: Identifying faults in VSC-Based MVDC networks and protection strategies.
• Multi-Terminal DC Grids: Exploring the concepts of DC microgrids and their benefits in smart distribution systems.

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