Providing innovative efficient, clean, and safe solutions and research for interfacing internet technology with energy power grids for smart cities and smart transportation, this new volume discusses the use and automation of electricity infrastructures for energy producers and manufacturers, integrating the implementation of the Internet of Things (IoT) technology for distributed energy systems in order to optimize energy efficiency and wastage. This volume offers a wide range of research on using IoT for energy solutions, such as algorithms for the design and control of energy grids, investigations of thermal efficiency from solar grids, energy for smart buildings using IoT, deep learning for electrical load forecasting, hybrid ultracapacitors in solar microgrids, induction motor-driven electric vehicles, power loss reduction and voltage improvement, and much more.
Discusses the automation of electricity infrastructures for energy producers, integrating the implementation of IoT technology for distributed energy systems to optimize energy efficiency and wastage. Provides efficient, clean, and safe solutions for interfacing internet technology with energy power grids for smart cities and transportation.
1. Design and Control Using ISOGI-Q Algorithm for Grid Integration of
PV-Array
2. Thermal Efficiency Investigation of Solar Parabolic through
Collector System Using Two Dissimilar Reflectors
3. Smart Buildings Using IoT
and Green Engineering
4. A Novel Electrical Load Forecasting Model Using a
Deep Learning Approach
5. Battery Plant Model Development for BMS Application
6. Modeling of Constant Voltage Control in Synchronous Buck and Boost
Converters Using Matlab/Simulink for Point-of-Load Application
7.
Determination of Open Loop Responses of Switched DCDC Converters Using
Various Modeling Techniques
8. Evolution of Hybrid Ultracapacitors in Solar
Microgrids
9. Speed Sensorless Model Predictive Current Control of Induction
Motor-Driven Electric Vehicles
10. Performance Analysis of Hybrid Off-Grid
Two-Axis Photovoltaic Tracking System/Fuel Cell Energy System Incorporating
High-Efficiency Solar Cell
11. Efficient Integration of Distributed
Generation in Radial Distribution Network for Voltage Profile Improvement and
Power Loss Minimization via Particle Swarm Optimization
12. Classical and
Predictive Control of Interior Permanent Magnet Synchronous Motor for Railway
Application
13. Electric Mobility
14. Power Loss Reduction and Voltage
Improvement through Capacitors and Their Optimization for the Distribution
System
15. Solar Photovoltaic Powered Automatic Irrigation System for the
Agriculture Sector
16. Optimal Parameter Estimation of 3-Phase Transmission
Line Using a Grey Wolf Optimization Algorithm
17. Network
Reconfiguration-Based Outage Management for Reliability Enhancement of
Microgrid: A Hardware in Loop Approach
18. A Net Energy Meter-Based Approach
for Islanding Detection in Modern Distribution System
Sheila Mahapatra, PhD, is Professor and Head, Electrical and Electronics Engineering Department and Assistant Dean (Research), Alliance College of Engineering and Design, Alliance University, Bangalore, India. She has a total experience of 18 years in the field of engineering, academics, and research. Her areas of interest include power systems optimization, FACTS devices, renewable energy, energy economics, and sustainability. She has many research publications in SCI, SCIE, and Scopus-indexed journals as well as book chapters and conference proceedings to her credit. She serves as a reviewer for reputed journals.
Mohan Krishna S., PhD, is Associate Professor in the Department of Electrical and Electronics Engineering at Alliance College of Engineering and Design, Alliance University, Bangalore, India. His research interests include, electric vehicles, smart homes and IoT-based building energy management system, and state observers for induction motors energy economics and sustainability. He has published his research in journals as well as book chapters and conference proceedings. He is an advisory board member to the energy section of Heliyon. He serves as Associate Editor of the International Journal of Smart Vehicles and Smart Transportation and is also editing several books on electric vehicles, smart grids, and energy sustainability.
B. Chandra Sekhar, PhD, is SpecialistEV in Transportation Business Unit at L&T Technology Services Limited (LTTS), Bangalore, India. Prior to joining LTTS, he worked as a Technical Lead in the Automotive Business Division at TATA Consultancy Services Limited, and as an R&D Engineer in the Solar Division at Power One Micro Systems Pvt. Ltd. Dr. Sekhar has published over 21 papers in peer-reviewed journals and conferences. His research areas are hybrid electric vehicles, EV chargers, battery management systems, power electronics converters, DC micro grids, LED drivers, and hybrid renewable energy systems.
Saurav Raj, PhD, is an Assistant Professor with the Electrical Engineering Department at the Institute of Chemical Technology Mumbai, Marathwada Campus, Jalna, India. He has also worked as Assistant Professor at Alliance University, Bangalore, India, and as an Associate Editor of the European Journal of Electrical Engineering. He has done extensive research work in power system optimization, reactive power planning, swarm and evolutionary optimization techniques, FACTS devices, computational intelligence, and renewable energy.
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