issues of the active power distribution system clearly indicate that the available techniques of planning, control, and operation require more efficient solutions.
This book presents various issues of an active electrical distribution network with solutions provided. Further, the potential of an engineering-based approach for a renewable energy system will systemically quantify the various options at several levels of distribution network planning, control, and operation via modeling, simulation, control, and optimization-dependent frameworks. The successful implementation of these approaches in a number of real-life case studies further highlights the significance of this integrated system-wide approach. This book presents the importance of fundamental and applied research in an active electricity distribution system by developing mechanisms for the transfer of the new methodology, which is applicable to the real-time problem.
Description of the Book
This book aims to be an essential source, building on available literature in the field of active distribution network planning, operation, and control, providing further research opportunities in this field. This specific text is expected to provide the primary and major resources necessary for researchers, academics, students, faculties, and scientists across the globe to adopt and implement new inventions in vital areas of traditional and active smart distribution networks and their utilization and energy management. Therefore, the Active Electrical Distribution Network: A Smart Approach should provide a platform to share up-to-date scientific achievements in the field as well as related fields. The book contains 22 chapters of high-quality contributions from international leading researchers in the field of power and energy systems. These chapters are divided into 11 sections depending upon their scope. The following list gives the main objectives:
1 Introduction of conventional and smart electrical distribution network.
2 Identified and explored the existing issues in a traditional electrical distribution network.
3 Identified and explored the harmonic mitigation issues in a smart distribution network.
4 Identified and explored the various techniques required to move towards smart distribution of electrical energy.
5 Identified and explored the energy management in an active distribution network.
6 Identified and investigated the optimal placement problem of a phasor measurement unit.
7 Identified and investigated the smart microgrid integration and optimization in the active distribution network.
8 Identified and investigated the integration of the electric vehicle technology in the active distribution network.
9 Identified and explored the reconfiguration of the smart distribution network.
10 Identified and explored the demand side management mechanisms and smart home energy management system in the active distribution network.
11 Identified and explored the smart meter technology in the active distribution network.
This book aims to be an essential reference source, building on the available literature in the field of modern and future active electrical distribution network operation and control, providing further research opportunities in this field. This specific text is expected to provide the primary and major resources necessary for researchers, academicians, students, faculties, and scientists, across the globe, to adopt and implement new inventions in the thrust area of active electrical distribution networks and their utilization and energy management. According to the application domain and nature, the chapters in this book are categorized into the following parts:
Part I: Electrical Distribution Network: Conventional vs Smart
Part II: Existing Issues in the Electrical Distribution Network
Part III: Harmonics Mitigation in the Smart Distribution Network
Part IV: Towards Smart Distribution of Electrical Energy
Part V: Energy Management of an Active Distribution Network
Part VI: Phasor Measurement Unit Placement
Part VII: Smart Microgrid Integration and Optimization
Part VIII: Electric Vehicle Technology
Part IX: Reconfiguration of a Smart Distribution Network
Part X: Demand Side Management Mechanisms and a Smart Home Energy Management System
Part XI: Smart Meter Technology
From recent trends, it can be observed that research is mainly focused on an active electric distribution network, its structures, operation and control, renewable energy resource integration, power quality issues with renewable energy sources, and integration issues of electric vehicles and a smart metering system.
This book will be a source of motivation to the researcher and can provide an exchange of knowledge of energy efficiency, power quality, reconfiguration, demand side management, smart home energy management systems, electric vehicle technology, smart metering, and integration of renewable energy sources for better utilization of the active electric distribution network. In order to meet the load demand and to improve the efficiency of energy management, researchers are working in the area of integration of renewable energy sources, electric vehicle, smart meter, optimized operation of the microgrid system, and demand side management for the development of an active electrical distribution network.
A brief description of the chapters in this book is given as follows:
Chapter 1 discussed various electricity distribution structures and business models considering smart grid perspectives.
Chapter 2 discussed the distribution feeder segregation issue of the electrical distribution network.
Chapter 3 discussed the different technical, economical, and environmental issues associated with the traditional electrical distribution network.
Chapter 4 proposed a power quality mitigation technique in a distribution network using a battery energy storage system.
Chapter 5 performed grid power quality improvement using a bi-directional off-board electric vehicle battery charger in a smart city scenario.
Chapter 6 discussed the smart distribution of electrical energy.
Chapter 7 investigated the active distribution management system.
Chapter 8 discussed the role of Volt-VAr-W control in energy management.