Integrated Green Energy Solutions Volume 2 1st Edition by Milind Shrinivas Dangate ,W S Sampath ,O V Gnana Swathika ,Sanjeevikumar Padmanaban ,ISBN 1394193661 978-1394193660
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ISBN 10:1394193661
ISBN 13:978-1394193660
Author:Milind Shrinivas Dangate ,W.S.Sampath ,O.V. Gnana Swathika ,Sanjeevikumar Padmanaban
INTEGRATED GREEN ENERGY SOLUTIONS
This second volume in a two-volume set continues to present the state of the art for the concepts, practical applications, and future of renewable energy and how to move closer to true sustainability.
Renewable energy supplies are of ever-increasing environmental and economic importance in every country in the world. A wide range of renewable energy technologies has been established commercially and recognized as an important set of growth industries for most governments. World agencies, such as the United Nations, have extensive programs to encourage these emerging technologies.
This book will bridge the gap between descriptive reviews and specialized engineering technologies. It centers on demonstrating how fundamental physical processes govern renewable energy resources and their applications. Although the applications are being updated continually, the fundamental principles remain the same, and this book will provide a useful platform for those advancing the subject and its industries.
Integrated Resilient Energy Solutions is a two-volume set covering subjects of proven technical and economic importance worldwide. Energy supply from renewables is an essential component of every nation’s strategy, especially when there is responsibility for the environment and sustainability. These two volumes will consider the timeless renewable energy technologies’ principles yet demonstrate modern applications and case studies. Whether for the veteran engineer, student, or other professional, these two volumes are a must-have for any library.
Table of contents:
23.1 Introduction
23.1.1 The Concept of Microgrids
23.2 Benefits and Drawbacks of Microgrids
23.3 Causes of Increase in Power Plants
23.4 Demand Side Management in Microgrids
23.5 Centralized Control of Smart Grid
23.6 Decentralized Smart Grid Control
23.7 DER Resource Control Strategies in the Smart Grid
23.8 DER Participation Strategy in Smart Grid
23.9 Topics Raised in the Smart Grid
23.10 Smart Grid Protection
23.11 Detection of Smart Grid Islands
23.12 Smart Grid Optimization
23.13 Power Quality
23.14 Frequency and Voltage Control
23.15 Balance between Production and Power Consumption
23.16 Ability to Easily Connect Distributed Generation Sources
23.17 Smart Network Security
23.18 Resynchronization after Network Connection
23.19 Smart Grid Control Glasses
23.20 Economic Dimensions
23.21 Losses
23.22 Non-Technical Network Losses
23.23 Power System Loss Analysis
23.24 The Impact of the Electricity Market on the Performance of Distribution Companies
23.25 Power Quality in the Restructured Electricity Market
23.26 Conclusion
24. Stringent Energy Management Strategy during Covid-19 Pandemic
Author: Nagajayanthi B.
24.1 Introduction
24.2 Energy Management
24.3 Smart Grid Design
24.3.1 Ground Station
24.3.2 Gateway
24.3.3 Cloud
24.4 Smart Grid Design and Testing
24.5 Implementation of Smart Grid
24.6 Energy Management to Check Overload Conditions
24.6.1 With Varying Input Voltage and Without Load
24.6.2 With Increased Input Voltage but Without Load
24.6.3 With Optimum Input Voltage and Load
24.7 Features of Smart Grid System
24.8 Conclusion and Future Work
25. Energy Management Strategy for Control and Planning
Author: Anmol D. Ganer
25.1 Energy Management and Audit
25.1.1 Steps for Energy Audit Management
25.1.2 How An Energy Audit can be An Effective Energy Management
25.1.3 Power Conservation through Energy Audit
25.1.4 Study of Energy Management and Audit
25.2 The Different Steps of an Energy Management Approach
25.2.1 State-Wise Generation Capacity till 2019
25.2.2 The Effective Plan should Incorporate Four Basic Steps
25.3 Preliminary Technical and Economic
25.3.1 Assessment of Synthetic Gas to Fuel and Chemical with Emphasis on the Potential for Biomass Derived Syngas
25.3.2 Natural Gas Storage/Co-Fired Retrofit System
25.4 Evaluation of Energy-Saving Investments
25.4.1 Power Survey – Energy Inspection
25.5 Off-Line and On-Line Procedures
25.5.1 Concept
25.6 Personnel Training
25.6.1 Training Method for Electricity Work Safety
25.7 A Successful Energy Management Program
25.7.1 Introduction
25.7.2 Power Administration Project
25.7.3 Corporate Structure
25.7.4 Energy Management Managers
25.8 Centralize Control of Process and Facility Plants
25.8.1 Centralized and Decentralized Waste Water Management
25.8.2 Central Jurisdiction System
25.8.3 Centralized Process Control System
25.9 Energy Security
25.9.1 Energy Security Concept
25.9.2 Smart Grid Security
25.10 Evaluate Energy Performances
25.10.1 Concept
25.10.2 Building Energy Performance
25.10.3 Illumination and Energy Performance
25.10.4 Energy Performance of Water Chillers
25.11 Energy Action Planning
25.12 Energy Economics
25.13 Case Study
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Milind Shrinivas Dangate,W S Sampath,O V Gnana Swathika,Sanjeevikumar Padmanaban,Integrated,Green,Energy