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| energy management system for ev chargers: Grid-to-Vehicle (G2V) and Vehicle-to-Grid (V2G) Technologies Sekyung Han, Moses Amoasi Acquah, 2021-03-16 This Special Issue “Grid-to-Vehicle (G2V) and Vehicle-to-Grid (V2G) Technologies” was in session from 1 May 2019 to 31 May 2020. For this Special issue, we invited articles on current state-of-the-art technologies and solutions in G2V and V2G, including but not limited to the operation and control of gridable vehicles, energy storage and management systems, charging infrastructure and chargers, EV demand and load forecasting, V2G interfaces and applications, V2G and energy reliability and security, environmental impacts, and economic benefits as well as demonstration projects and case studies in the aforementioned areas. Articles that deal with the latest hot topics in V2G are of particular interest, such as V2G and demand-side response control technique, smart charging infrastructure and grid planning, advanced power electronics for V2G systems, adaptation of V2G systems in the smart grid, adaptation of smart cities for a large number of EVs, integration, and the optimization of V2G systems, utilities and transportation assets for advanced V2G systems, wireless power transfer systems for advanced V2G systems, fault detection, maintenance and diagnostics in V2G processes, communications protocols for V2G systems, energy management system (EMS) in V2G systems, IoT for V2G systems, distributed energy and storage systems for V2G, transportation networks and V2G, energy management for V2G, smart charging/discharging stations for efficient V2G, environmental and socio-economic benefits and challenges of V2G systems, and building integrated V2G systems (BIV2G). Five manuscripts are published in this Special Issue, including “An Ensemble Stochastic Forecasting Framework for Variable Distributed Demand Loads” by Agyeman et al., “Where Will You Park? Predicting Vehicle Locations for Vehicle-to-Grid, An MPC Scheme with Enhanced Active Voltage Vector Region for V2G Inverter” by Shipman et al., “Electric Vehicles Energy Management with V2G/G2V Multifactor Optimization of Smart Grids” by Xia et al., and “A Review on Communication Standards and Charging Topologies of V2G and V2H Operation Strategies” by Savitti et al. |
| energy management system for ev chargers: Intelligent and Efficient Transport Systems Truong Quang Dinh, 2020-04-01 The aim of this book is to present a number of digital and technology solutions to real-world problems across transportation sectors and infrastructures. Nine chapters have been well prepared and organized with the core topics as follows: -A guideline to evaluate the energy efficiency of a vehicle -A guideline to design and evaluate an electric propulsion system -Potential opportunities for intelligent transportation systems and smart cities -The importance of system control and energy-power management in transportation systems and infrastructures -Bespoke modeling tools and real-time simulation platforms for transportation system development This book will be useful to a wide range of audiences: university staff and students, engineers, and business people working in relevant fields. |
| energy management system for ev chargers: Developing Charging Infrastructure and Technologies for Electric Vehicles Alam, Mohammad Saad, Pillai, Reji Kumar, Murugesan, N., 2021-12-31 The increase in air pollution and vehicular emissions has led to the development of the renewable energy-based generation and electrification of transportation. Further, the electrification shift faces an enormous challenge due to limited driving range, long charging time, and high initial cost of deployment. Firstly, there has been a discussion on renewable energy such as how wind power and solar power can be generated by wind turbines and photovoltaics, respectively, while these are intermittent in nature. The combination of these renewable energy resources with available power generation system will make electric vehicle (EV) charging sustainable and viable after the payback period. Recently, there has also been a significant discussion focused on various EV charging types and the level of power for charging to minimize the charging time. By focusing on both sustainable and renewable energy, as well as charging infrastructures and technologies, the future for EV can be explored. Developing Charging Infrastructure and Technologies for Electric Vehicles reviews and discusses the state of the art in electric vehicle charging technologies, their applications, economic, environmental, and social impact, and integration with renewable energy. This book captures the state of the art in electric vehicle charging infrastructure deployment, their applications, architectures, and relevant technologies. In addition, this book identifies potential research directions and technologies that facilitate insights on EV charging in various charging places such as smart home charging, parking EV charging, and charging stations. This book will be essential for power system architects, mechanics, electrical engineers, practitioners, developers, practitioners, researchers, academicians, and students interested in the problems and solutions to the state-of-the-art status of electric vehicles. |
| energy management system for ev chargers: 2020 IEEE Andescon IEEE Staff, 2020-10-13 ANDESCON is the biannual Technical and Scientific Conference of the Andean Council of the IEEE that brings together IEEE professionals and scientists from the Andean countries The tenth edition of this IEEE event will be held in the wonderful city of Quito in Ecuador As of 2019, about 1,978,376 people lived there Quito is the second largest city in Ecuador after Guayaquil The Historic Center of Quito, Ecuador is one of the largest, least changed and best preserved historic centers in the Americas Quito was designated a World Cultural Heritage Site by UNESCO in 1978 It is the first city to be honored in such a way |
| energy management system for ev chargers: PV Charging and Storage for Electric Vehicles Pavol Bauer, Gautham Ram Chandra Mouli, 2021-09-02 Electric vehicles are only ‘green’ as long as the source of electricity is ‘green’ as well. At the same time, renewable power production suffers from diurnal and seasonal variations, creating the need for energy storage technology. Moreover, overloading and voltage problems are expected in the distributed network due to the high penetration of distributed generation and increased power demand from the charging of electric vehicles. The energy and mobility transition hence calls for novel technological innovations in the field of sustainable electric mobility powered from renewable energy. This Special Issue focuses on recent advances in technology for PV charging and storage for electric vehicles. |
| energy management system for ev chargers: Energy Systems for Electric and Hybrid Vehicles K.T. Chau, 2016-08-15 The book provides thorough coverage of energy systems for electric and hybrid vehicles with a focus on the three main energy system technologies - energy sources, battery charging and vehicle-to-grid systems. Energy sources includes electrochemical energy sources, electromechanical energy storage, hybrid energy sources, on-board solar energy harvesting, on-board thermoelectric energy recovery, and battery management. Battery charging technology ranges from the existing charging strategies to the latest wireless charging techniques for park-and-charge and move-and-charge. Vehicle-to-grid technology covers interdisciplinary topics which link electric vehicles, information technology and power systems for management of energy systems, power interfaces and service scheduling. Researchers and advanced students developing electric/hybrid vehicles and intelligent transport systems in industry and academia will find this book invaluable. As will researchers and advanced students working on automotive engineering and battery/power engineering. |
| energy management system for ev chargers: Dynamic Programming Art Lew, Holger Mauch, 2006-10-09 This book provides a practical introduction to computationally solving discrete optimization problems using dynamic programming. From the examples presented, readers should more easily be able to formulate dynamic programming solutions to their own problems of interest. We also provide and describe the design, implementation, and use of a software tool that has been used to numerically solve all of the problems presented earlier in the book. |
| energy management system for ev chargers: Universal Access in Human-Computer Interaction. Virtual, Augmented, and Intelligent Environments Margherita Antona, Constantine Stephanidis, 2018-07-09 This two-volume set LNCS 10907 and 10908 constitutes the refereed proceedings of the 12th International Conference on Universal Access in Human-Computer Interaction, UAHCI 2018, held as part of HCI International 2018 in Las Vegas, NV, USA, in July 2018.The total of 1170 papers and 195 posters included in the 30 HCII 2018 proceedings volumes was carefully reviewed and selected from 4373 submissions. The 48 papers presented in this volume were organized in topical sections named: virtual and augmented reality for universal access; intelligent assistive environments; and access to the web, social media, education, culture and social innovation. |
| energy management system for ev chargers: Handbook on Battery Energy Storage System Asian Development Bank, 2018-12-01 This handbook serves as a guide to deploying battery energy storage technologies, specifically for distributed energy resources and flexibility resources. Battery energy storage technology is the most promising, rapidly developed technology as it provides higher efficiency and ease of control. With energy transition through decarbonization and decentralization, energy storage plays a significant role to enhance grid efficiency by alleviating volatility from demand and supply. Energy storage also contributes to the grid integration of renewable energy and promotion of microgrid. |
| energy management system for ev chargers: Electric Vehicle Integration into Modern Power Networks Rodrigo Garcia-Valle, João A. Peças Lopes, 2012-11-29 Electric Vehicle Integration into Modern Power Networks provides coverage of the challenges and opportunities posed by the progressive integration of electric drive vehicles. Starting with a thorough overview of the current electric vehicle and battery state-of-the-art, this work describes dynamic software tools to assess the impacts resulting from the electric vehicles deployment on the steady state and dynamic operation of electricity grids, identifies strategies to mitigate them and the possibility to support simultaneously large-scale integration of renewable energy sources. New business models and control management architectures, as well as the communication infrastructure required to integrate electric vehicles as active demand are presented. Finally, regulatory issues of integrating electric vehicles into modern power systems are addressed. Inspired by two courses held under the EES-UETP umbrella in 2010 and 2011, this contributed volume consists of nine chapters written by leading researchers and professionals from the industry as well as academia. |
| energy management system for ev chargers: Electric Vehicles in Energy Systems Ali Ahmadian, Behnam Mohammadi-ivatloo, Ali Elkamel, 2020-01-20 This book discusses the technical, economic, and environmental aspects of electric vehicles and their impact on electrical grids and energy systems. The book is divided into three parts that include load modeling, integration and optimization, and environmental evaluation. Theoretical background and practical examples accompany each section and the authors include helpful tips and hints in the load modeling and optimization sections. This book is intended to be a useful tool for undergraduate and graduate students, researchers and engineers who are trying to solve power and engineering problems related electric vehicles. Provides optimization techniques and their applications for energy systems; Discusses the economic and environmental perspectives of electric vehicles; Contains the most comprehensive information about electric vehicles in a single source. |
| energy management system for ev chargers: Automating Cities Brydon T. Wang, C. M. Wang, 2021-01-04 This book highlights the latest advancements in the use of automated systems in the design, construction, operation and future of the built environment and its occupants. It considers how the use of automated decision-making frameworks, artificial intelligence and other technologies of automation are presently impacting the practice of architects, engineers, project managers and contractors, and articulates the near future changes to workflows, legal frameworks and the wider AEC industry. This book surveys and compiles the use of city apps, robots that operate buildings and fabricate structural elements, 3D printing, drones, sensors, algorithms, and advanced prefabricated modules. The book also contributes to the growing literature on smart cities, and explores the impacts on data privacy and data sovereignty that arise through the use of sensors, digital twins and intelligent transport systems. It provides a useful reference for further research and development in the area of automation in design and construction to architects, engineers, project managers, superintendents and construction lawyers, contractors, policy makers, and students. |
| energy management system for ev chargers: Renewable Energy for Plug-In Electric Vehicles Thanikanti Sudhakar Babu, Praveen Kumar Balachandran, Nnamdi Nwulu, 2024-07-04 Renewable Energy for Plug-In Electric Vehicles: Challenges, Approaches, and Solutions for Grid Integration provides a holistic guide to the critical technical challenges of integrating renewable energy for grid-connected electric vehicles. Considering the impact of renewable energy integration from a wide range of perspectives, this book leverages its global range and expertise to cover problems from power stability to market strategies, fast charging, and cybersecurity. Practical solutions are provided, incorporating the latest advances in technologies across meters, sensors, batteries, storage, demand response, artificial intelligence, and power system design.Supporting broad understanding and practical solution development, the book enables researchers, students, and industry professionals to take the next steps towards renewably sourced, grid-integrated electric vehicles. - Focuses on the essential step of integrating grid-charging electric vehicles with renewable energy sources - Provides comprehensive analysis of the challenge renewable integration presents for existing electric vehicle technologies - Breaks down real-world, practical case studies and solutions using the latest advances by a global team of experts |
| energy management system for ev chargers: Electric Vehicle Integration via Smart Charging Vahid Vahidinasab, Behnam Mohammadi-Ivatloo, 2022-09-09 This book brings together important new contributions covering electric vehicle smart charging (EVSC) from a multidisciplinary group of global experts, providing a comprehensive look at EVSC and its role in meeting long-term goals for decarbonization of electricity generation and transportation. This multidisciplinary reference presents practical aspects and approaches to the technology, along with evidence from its applications to real-world energy systems. Electric Vehicle Integration via Smart Charging is suitable for practitioners and industry stakeholders working on EVSC, as well as researchers and developers from different branches of engineering, energy, transportation, economic, and operation research fields. |
| energy management system for ev chargers: Renewable Resources and Energy Management Satyajit Chakrabarti, Arun Kumar Bar, Swati Chowdhuri, Debashis Jana, Nirban Chakraborty, Sanjoy Mondal, 2023-05-25 International Conference on Energy Management & Renewable Resources has been a premium forum for presenting recent advances in renewable based energy systems, smart applications of power electronic devices in modern grid systems and AI based control over energy management areas. IEMRE2022 has been an excellent platform to collaborate and showcase high-end research giving exposure to interact with the eminent Professors, Technocrats, Scientists, Administrators and Students throughout the world by the latest innovations in the field of Renewable Energy and Energy Management with their applications in worldwide energy sectors. IEMRE 2022 was organized by Department of EEE & EE of Institute of Engineering & Management, Kolkata, India for three days in online mode with invited lectures by outstanding speakers from all over the world on emerging areas in the field of renewable energy. This book is a collection of select papers from the conference. |
| energy management system for ev chargers: Electric Transportation Systems in Smart Power Grids Hassan Haes Alhelou, Ali Moradi Amani, Samaneh Sadat Sajjadi, Mahdi Jalili, 2023-02-15 The leading countries around the globe, including Australia, have taken serious steps to decarbonize their energy and transportation sectors as part of their obligations for a suitable future with fewer emissions and a better environment. The decarbonization plans in different countries have resulted in changes such as increases in the penetration level of renewable energy sources and the introduction of electric vehicles as a target for future transportation systems. This is the point where mobility meets electricity and brings new challenges and opportunities, especially in the integration with modern power systems. The main impact would be on the demand-side and the distribution network. These impacts would be also reflected in the operation, control, security, and stability of transmission systems. This creates a new grid architecture characterized by a growing variability and uncertainties. Moreover, the growth in the share of renewable energy in the total energy market is one of the major causes of the increasing fluctuations in the balance between generation and consumption in the whole system. Therefore, the key challenge lies in developing new concepts to ensure the effective integration of distributed energy resources and electric transportation systems, including EVs, into existing and future market structures. Electric Transportation Systems in Smart Power Grids address how these issues—EVs, E-buses, and other smart appliances on the demand side—can be aggregated to form virtual power plants, which are considered an efficient solution to provide operational flexibility to the grid. The book also discusses how EV-based virtual power plants can also provide myriad services for distribution system operators, transmission system operators, and even local prosumers within the energy community. Features: Describes the services required to power systems from EVs and electric transportation sector Covers frequency control in modern power systems using aggregated EVs Discusses the integration and interaction between EVs and Smart grids Introduces electric vehicle aggregation methods for supporting power systems Highlights flexibility provided from electric transportation system to smart energy sector Discusses the high penetration level of renewable energy sources and EVs |
| energy management system for ev chargers: Advanced Electric Drive Vehicles Ali Emadi, 2014-10-24 Electrification is an evolving paradigm shift in the transportation industry toward more efficient, higher performance, safer, smarter, and more reliable vehicles. There is in fact a clear trend to move from internal combustion engines (ICEs) to more integrated electrified powertrains. Providing a detailed overview of this growing area, Advanced Electric Drive Vehicles begins with an introduction to the automotive industry, an explanation of the need for electrification, and a presentation of the fundamentals of conventional vehicles and ICEs. It then proceeds to address the major components of electrified vehicles—i.e., power electronic converters, electric machines, electric motor controllers, and energy storage systems. This comprehensive work: Covers more electric vehicles (MEVs), hybrid electric vehicles (HEVs), plug-in hybrid electric vehicles (PHEVs), range-extended electric vehicles (REEVs), and all-electric vehicles (EVs) including battery electric vehicles (BEVs) and fuel cell vehicles (FCVs) Describes the electrification technologies applied to nonpropulsion loads, such as power steering and air-conditioning systems Discusses hybrid battery/ultra-capacitor energy storage systems, as well as 48-V electrification and belt-driven starter generator systems Considers vehicle-to-grid (V2G) interface and electrical infrastructure issues, energy management, and optimization in advanced electric drive vehicles Contains numerous illustrations, practical examples, case studies, and challenging questions and problems throughout to ensure a solid understanding of key concepts and applications Advanced Electric Drive Vehicles makes an ideal textbook for senior-level undergraduate or graduate engineering courses and a user-friendly reference for researchers, engineers, managers, and other professionals interested in transportation electrification. |
| energy management system for ev chargers: Power Systems Operation with 100% Renewable Energy Sources Sanjeevikumar Padmanaban, Sharmeela Chenniappan, Sivaraman Palanisamy, 2023-10-24 Power Systems Operation with 100% Renewable Energy Sources combines fundamental concepts of renewable energy integration into power systems with real-world case studies to bridge the gap between theory and implementation. The book examines the challenges and solutions for renewable energy integration into the transmission and distribution grids, and also provides information on design, analysis and operation. Starting with an introduction to renewable energy sources and bulk power systems, including policies and frameworks for grid upgradation, the book then provides forecasting, modeling and analysis techniques for renewable energy sources. Subsequent chapters discuss grid code requirements and compliance, before presenting a detailed break down of solar and wind integration into power systems. Other topics such as voltage control and optimization, power quality enhancement, and stability control are also considered. Filled with case studies, applications and techniques, Power Systems Operation with 100% Renewable Energy Sources is a valuable read to researchers, students and engineers working towards more sustainable power systems. - Explains Volt/Var control and optimization for both transmission grid and distribution - Discusses renewable energy integration into the weak grid system, along with its challenges, examples, and case studies - Offers simulation examples of renewable energy integration studies that readers will perform using advanced simulation tools - Presents recent trends like energy storage systems and demand responses for improving stability and reliability |
| energy management system for ev chargers: Intelligent Control for Modern Transportation Systems Arunesh Kumar Singh, Bhavnesh Kumar, Ibraheem, Asheesh Kumar Singh, Shahida Khatoon, 2023-10-16 The book comprehensively discusses concepts of artificial intelligence in green transportation systems. It further covers intelligent techniques for precise modeling of complex transportation infrastructure, forecasting and predicting traffic congestion, and intelligent control techniques for maximizing performance and safety. It further provides MATLAB® programs for artificial intelligence techniques. It discusses artificial intelligence-based approaches and technologies in controlling and operating solar photovoltaic systems to generate power for electric vehicles. Highlights how different technological advancements have revolutionized the transportation system. Presents core concepts and principles of soft computing techniques in the control and management of modern transportation systems. Discusses important topics such as speed control, fuel control challenges, transport infrastructure modeling, and safety analysis. Showcases MATLAB® programs for artificial intelligence techniques. Discusses roles, implementation, and approaches of different intelligent techniques in the field of transportation systems. It will serve as an ideal text for professionals, graduate students, and academicians in the fields of electrical engineering, electronics and communication engineering, civil engineering, and computer engineering. |
| energy management system for ev chargers: Digitalization of Power Markets and Systems Using Energy Informatics Umit Cali, Murat Kuzlu, Manisa Pipattanasomporn, James Kempf, Linquan Bai, 2021-09-26 The objective of this textbook is to introduce students and professionals to fundamental principles and techniques and emerging technologies in energy informatics and the digitalization of power markets and systems. The book covers such areas as smart grids and artificial intelligence (AI) and distributed ledger technology (DLT), with a focus on information and communication technologies (ICT) deployed to modernize the electric energy infrastructure. It also provides an overview of the smart grid and its main components: smart grid applications at transmission, distribution, and customer level, network requirements with communications technologies, and standards and protocols. In addition, the book addresses emerging technologies and trends in next-generation power systems, i.e., energy informatics, such as digital green shift, energy cyber-physical-social systems (E-CPSS), energy IoT, energy blockchain, and advanced optimization. Future aspects of digitalized power markets and systems will be discussed with real-world energy informatics projects. The book is designed to be a core text in upper-undergraduate and graduate courses such as Introduction to Smart Grids, Digitalization of Power Systems, and Advanced Power System Topics in Energy Informatics. |
| energy management system for ev chargers: Vehicle Electrification in Modern Power Grids Vitor Monteiro, João L. Afonso, Sheldon Williamson, 2024-07-13 Vehicle Electrification in Modern Power Grids: Disruptive Perspectives on Power Electronics Technology and Control Challenges collects the newest advances in technology for electric vehicle integration into one practical volume for professionals and advanced researchers. The book not only summarizes and clarifies legislation and grid codes for the area, but also outlines the modeling and analytical techniques needed, including predicting power converter reliability and its remaining useful life. Specializing in microgrid clusters, the book provides advanced power electronics device technology from wide-band-gap (WBG) to DSP-based digital control platforms and new materials for passive filters. Blending cutting-edge research and practical technology, this book provides a centralized resource for advanced researchers and engineers looking to accelerate vehicle electrification in the power grid. - Reveals new, disruptive power electronics and modeling technologies to enable EV integration into the grid - Collects guidance on mechanisms for digital control for EV charging and modes of operation, from V2G to G2H - Provides legislation and grid codes needed by engineers working on vehicle electrification in power grids |
| energy management system for ev chargers: Distributed Energy Storage Systems for Digital Power Systems Sivaraman Palanisamy, Sharmeela Chenniappan, 2024-11-25 Distributed Energy Storage Systems for Digital Power Systems offers detailed information of all aspects of distributed energy resources and storage systems, and their integration into modern, digital power systems, supporting higher power systems operational flexibility towards 100% renewable energy integration. Covering fundamentals, analysis, design, and operation, and supported by examples and case studies, the book also examines many new advances in terms of distributed energy storage systems for DER integration, dynamically varying loads of EV charging stations, power quality enhancements, and ancillary services. This is a valuable resource for researchers, scientists, and graduate students in energy storage, renewable energy, power systems, and engineering, as well as engineers, R&D, and other industry personnel working with renewable energy systems, energy storage, demand response, and microgrids. - Provides an easy tool for understanding distributed energy storage systems for digital power systems - Covers fundamentals, design, analysis, application, and operation of distributed storage systems - Includes examples and practical case studies to enhance and reinforce learning |
| energy management system for ev chargers: Enabling technologies and business models for energy communities Alessandro Burgio, Zbigniew M. Leonowicz, Michal Jasinski, 2024-01-19 |
| energy management system for ev chargers: Control and Information Sciences V. I. George, |
| energy management system for ev chargers: Code of Practice for Electric Vehicle Charging Equipment Installation The Institution of Engineering and Technology, 2018-08 This Code of Practice provides a clear overview of EV charging equipment, as well as setting out the considerations needed prior to installation and the necessary physical and electrical installation requirements. It also details what needs to be considered when installing electric vehicle charging equipment in various different locations - such as domestic dwellings, on-street locations, and commercial and industrial premises. Key changes from the second edition include: Two completely new sections Vehicles as Energy Storage Integration with smart metering and control, automation and monitoring systems A new Annex A complete update to the new requirements in BS 7671:2018 Bringing the Code in line with revised regulations and good practice The risk assessments and checklists have also been reviewed and revised. This very well established Code of Practice, supported by all the major stakeholders in the industry, is essential reading for anyone involved in the rapid expansion of EV charging points, and those involved in maintenance, extension, modification and periodic verification of electrical installations that incorporate EV charging. |
| energy management system for ev chargers: Distributed Energy Resources and Electric Vehicle Aijaz Ahmad, Kushal Jagtap, Keerti Rawal, 2024-02-29 Explore the prospective developments in energy systems and transportation through an in-depth examination of Distributed Energy Resources and Electric Vehicle: Analysis and Optimisation of Network Operations . This innovative publication explores the realm of renewable energy, electric vehicles, and their in uence on network operations, offering valuable perspectives for readers from diverse disciplines. This extensive publication delves into the complex interplay between distributed energy resources (DERs) and electric vehicles (EVs), as well as their incorporation into established power grids. The subject matter encompasses a diverse array of topics, encompassing the attributes and advantages of distributed energy resources (DERs) and electric vehicles (EVs), obstacles related to grid integration, efficient allocation of resources, and strategies pertaining to demand response. The book offers a comprehensive exploration of system analysis and optimisation techniques, emphasising the effective utilisation of distributed energy resources (DERs) and electric vehicles (EVs) in energy networks. It aims to equip readers with a robust comprehension of strategies to optimise the performance and potential of DERs and EVs in this context. The book focuses on pioneering research and innovative solutions that are at the forefront of enhancing network operations. The authors demonstrate the novelty and applicability of their findings through the examination of real-world case studies and the utilisation of sophisticated mathematical models. This book serves as a highly valuable resource for individuals engaged in research, engineering, policy-making, and industry-related activities who are interested in effectively navigating the dynamic realm of energy systems and transportation. It equips them with the necessary knowledge and insights to make well-informed decisions that contribute to the attainment of a sustainable future. |
| energy management system for ev chargers: Smart Microgrids Hassan Farhangi, 2016-10-14 The utility sector’s transition to renewable energy and the smart grid has already begun. The first step towards smart grid is microgrid, which is a smaller electricity grid with access to all the essential assets of a larger grid. This book provides a glimpse into an actual microgrid project. It supplies a system-level approach to the design of smart Microgrids, covering the entire design process—from roadmap to realization. Detailing lessons learned and pitfalls to avoid in Microgrid technology, the book provides an interdisciplinary approach to design and problem solving for smart microgrids. |
| energy management system for ev chargers: Decision-Making in Energy Systems Vivek D. Bhise, 2022-01-10 This is a comprehensive book on how to make complex decisions on energy systems problems involving different technologies, environmental effects, costs, benefits, risks, and safety issues. Using Industrial and Systems Engineering techniques for decision-making in Energy Systems, the book provides the background knowledge and methods to incorporate multiple criteria involved in solving energy system problems. It offers methods, examples, and case studies illustrating applications. Decision-Making in Energy Systems discusses subjective as well as objective methods, approaches, and techniques taken from the systems and industrial engineering domain and puts them to use in solving energy systems problems. It uses an integrated approach by including effects of all technical, economic, environmental, and safety considerations as well as costs and risks. The book is specially designed for practicing engineers from industrial/systems engineering who work in energy systems engineering industries. Aimed at graduate students, researchers, and managers involved in various energy generating, distributing, and consuming companies, the book helps the reader to understand, evaluate, and decide on solutions to their energy-related problems. |
| energy management system for ev chargers: Electric Vehicles in Energy Systems Ali Ahmadian, Behnam Mohammadi-ivatloo, Ali Elkamel, 2021-01-21 This book discusses the technical, economic, and environmental aspects of electric vehicles and their impact on electrical grids and energy systems. The book is divided into three parts that include load modeling, integration and optimization, and environmental evaluation. Theoretical background and practical examples accompany each section and the authors include helpful tips and hints in the load modeling and optimization sections. This book is intended to be a useful tool for undergraduate and graduate students, researchers and engineers who are trying to solve power and engineering problems related electric vehicles. Provides optimization techniques and their applications for energy systems; Discusses the economic and environmental perspectives of electric vehicles; Contains the most comprehensive information about electric vehicles in a single source. |
| energy management system for ev chargers: Microgrid Energy Management , 2021-08-25 |
| energy management system for ev chargers: Advanced Technologies in Electric Vehicles Vijayakumar Gali, Luciane Neves Canha, Mariana Resener, Bibiana Ferraz, Madisa V.G. Varaprasad, 2024-02-26 Advanced Technologies in Electric Vehicles: Challenges and Future Research Developments discusses fundamental and advanced concepts, challenges, and future perspectives surrounding EVs. Sections cover advances and long-term challenges such as battery life span, efficiency, and power management systems. In addition, the book covers all aspects of the EV field, including vehicle performance, configuration, control strategy, design methodology, modeling and simulation for different conventional and modern vehicles based on mathematical equations. By tackling the fundamentals, theory and design of conventional electric vehicles (EVs), hybrid electric vehicles (HEVs), and fuel cell vehicles (FCVs), this book presents a comprehensive reference. Investment in hybrid and electric vehicle (EV) technology research has been increasing steadily in recent years, both from governments and within companies. The role of the combustion engine in causing climate change has put the automobile industry on a path of rapid evolution towards electric vehicles, bringing experts with a range of backgrounds into the field. - Provides the latest advances in battery management systems to address power quality issues - Explains step-by-step methodologies for the testing of EV battery systems - Explores the technological options for charging systems and charging infrastructure |
| energy management system for ev chargers: Distributed Energy Storage Devices in Smart Grids Guido Carpinelli, Pasquale De Falco, Fabio Mottola, 2020-04-15 Energy storage systems have been recognized as viable solutions for implementing the smart grid paradigm, but have created challenges in terms of load levelling, integrating renewable and intermittent sources, voltage and frequency regulation, grid resiliency, improving power quality and reliability, reducing energy import during peak demand periods, and so on. In particular, distributed energy storage addresses a wide range of the above potential issues, and it is gaining attention from customers, utilities, and regulators. Distributed energy storage has considerable potential for reducing costs and improving the quality of electric services. However, installation costs and lifespan are the main drawbacks to the wide diffusion of this technology. In this context, a serious challenge is the adoption of new techniques and strategies for the optimal planning, control, and management of grids that include distributed energy storage devices. Regulatory guidance and proactive policies are urgently needed to ensure a smooth rollout of this technology. This book collects recent contributions of methodologies applied to the integration of distributed energy storage devices in smart power systems. Several areas of research (optimal siting and sizing of energy storage systems, adaption of energy storage systems to load leveling and harmonic compensation, integration for electric vehicles, and optimal control systems) are investigated in the contributions collected in this book. |
| energy management system for ev chargers: Planning of Hybrid Renewable Energy Systems, Electric Vehicles and Microgrid Aashish Kumar Bohre, Pradyumn Chaturvedi, Mohan Lal Kolhe, Sri Niwas Singh, 2022-05-21 This book focuses on various challenges, solutions, and emerging technologies in the operation, control, design, optimization, and protection of microgrids in the presence of hybrid renewable energy sources and electric vehicles. This book provides an insight into the potential applications and recent development of different types of renewable energy systems including AC/DC microgrids, RES integration issues with the grid, electric vehicle technology, etc. The book serves as an interdisciplinary platform for the audience working in the focused area to access information related to energy management, modeling, and control. It covers fundamental knowledge, design, mathematical modeling, applications, and practical issues with sufficient design problems and case studies with detailed planning aspects. This book will serve as a guide for researchers, academicians, practicing engineers, professionals, and scientists, as well as for graduate and postgraduate students working in the area of various applications of RES, Electric Vehicles, and AC/DC Microgrid. |
| energy management system for ev chargers: Plug-In Electric Vehicles David B. Sandalow, 2009-09-01 Plug-in electric vehicles are coming. Major automakers plan to commercialize their first models soon, while Israel and Denmark have ambitious plans to electrify large portions of their vehicle fleets. No technology has greater potential to end the United States' crippling dependence on oil, which leaves the nation vulnerable to price shocks, supply disruptions, environmental degradation, and national security threats including terrorism. What does the future hold for this critical technology, and what should the U.S. government do to promote it? Hybrid vehicles now number more than one million on America's roads, and they are in high demand from consumers. The next major technological step is the plug-in electric vehicle. It combines an internal combustion engine and electric motor, just as hybrids do. But unlike their precursors, PEVs can be recharged from standard electric outlets, meaning the vehicles would no longer be dependent on oil. Widespread growth in the use of PEVs would dramatically reduce oil dependence, cut driving costs and reduce pollution from vehicles. National security would be enhanced, as reduced oil dependence decreases the leverage and resources of petroleum exporters. Brookings fellow David Sandalow heads up an authoritative team of experts including former government officials, private-sector analysts, academic experts, and nongovernmental advocates. Together they explain the current landscape for PEVs: the technology, the economics, and the implications for national security and the environment. They examine how the national interest could be served by federal promotion and investment in PEVs. For example, can tax or procurement policy advance the cause of PEVs? Should the public sector contribute to greater research and development? Should the government insist on PEVs to replenish its huge fleet of official vehicles? Plug-in electric vehicles are coming. But how soon, in what numbers, and to what effect? Feder |
| energy management system for ev chargers: Research Anthology on Clean Energy Management and Solutions Management Association, Information Resources, 2021-06-25 Energy usage and consumption continue to rise globally each year, with the most efficient and cost-effective energy sources causing huge impacts to the environment. In an effort to mitigate harmful effects to the environment, implementing clean energy resources and utilizing green energy management strategies have become worldwide initiatives, with many countries from all regions quickly becoming leaders in renewable energy usage. Still, not every energy resource is without flaws. Researchers must develop effective and low-cost strategies for clean energy in order to find the balance between production and consumption. The Research Anthology on Clean Energy Management and Solutions provides in-depth research that explores strategies and techniques used in the energy production field to optimize energy efficiency in order to maintain clean and safe use while delivering ample energy coverage. The anthology also seeks solutions to energy that have not yet been optimized or are still produced in a way that is harmful to the environment. Covering topics such as hydrogen fuel cells, renewable energy, solar power, solar systems, cost savings, and climate protection, this text is essential for electrical engineers, nuclear engineers, environmentalists, managers, policymakers, government officials, professionals in the energy industry, researchers, academicians, and students looking for the latest research on clean energy management. |
| energy management system for ev chargers: Technological Innovation for Digitalization and Virtualization Luis M. Camarinha-Matos, 2022-06-21 This book constitutes the refereed proceedings of the 13th IFIP WG 5.5/SOCOLNET Advanced Doctoral Conference on Computing, Electrical and Industrial Systems, DoCEIS 2022, held in Caparica, Portugal, during June-July 2022. The 22 full papers presented were carefully reviewed and selected from 48 submissions. The papers present selected results produced in engineering doctoral programs and focus on technological innovation for industry and service systems. The papers are organized into the following topical sub-headings: Smart Systems Thinking; Cyber-physical Systems; health-related Digitalization; Electric Systems and Machines; Smart Devices; and Control and Digital Platforms. |
| energy management system for ev chargers: Model Predictive Control of Microgrids Carlos Bordons, Félix Garcia-Torres, Miguel A. Ridao, 2019-09-12 The book shows how the operation of renewable-energy microgrids can be facilitated by the use of model predictive control (MPC). It gives readers a wide overview of control methods for microgrid operation at all levels, ranging from quality of service, to integration in the electricity market. MPC-based solutions are provided for the main control issues related to energy management and optimal operation of microgrids. The authors present MPC techniques for case studies that include different renewable sources – mainly photovoltaic and wind – as well as hybrid storage using batteries, hydrogen and supercapacitors. Experimental results for a pilot-scale microgrid are also presented, as well as simulations of scheduling in the electricity market and integration of electric and hybrid vehicles into the microgrid. in order to replicate the examples provided in the book and to develop and validate control algorithms on existing or projected microgrids. Model Predictive Control of Microgrids will interest researchers and practitioners, enabling them to keep abreast of a rapidly developing field. The text will also help to guide graduate students through processes from the conception and initial design of a microgrid through its implementation to the optimization of microgrid management. Advances in Industrial Control reports and encourages the transfer of technology in control engineering. The rapid development of control technology has an impact on all areas of the control discipline. The series offers an opportunity for researchers to present an extended exposition of new work in all aspects of industrial control. |
| energy management system for ev chargers: Microgrid Cyberphysical Systems Bidyadhar Subudhi, Pravat Kumar Ray, 2022-06-03 Microgrid Cyberphysical Systems: Renewable Energy and Plug-in Vehicle Integration outlines the fundamental concepts on microgrid system design and control in a cyberphysical framework, focusing on the integration of renewables and EVs into microgrids. Including operational, control and management perspectives, the volume aims to optimize the reliability and economic performance of microgrids, focusing on power quality, storage and voltage and frequency control. The work encompasses generation, transmission, protection and load management under uncertainty and discusses critical drivers in robustness, uncertainty and sustainability management. Focusing on applied implementations, chapters are supported by detailed methods, heavy figurative explication, and comparative and integrative analysis. Case studies range across chapters. In addition, chapters are supported by representative experimental or test bed validations of proposed algorithms or methods which can be directly applied to reader problems. - Provides advanced controller methodologies to efficiently optimize the operation of microgrids with high levels of connected renewable generators and electric vehicles - Explores powerful approaches for the prevention of cyberattacks in microgrid systems - Addresses design issues for power quality filters suitable for microgrid robustness, uncertainty and sustainability handling - Includes field-tested methods, heavy case studies and an implementation focus with supporting experimental or test bed validations of proposed algorithms or methods in MATLAB |
| energy management system for ev chargers: Industry 4.0 and Climate Change Rajeev Agrawal, J. Paulo Davim, Maria L.R. Varela, Monica Sharma, 2022-10-17 At present, both Industry 4.0 and industrial engineering management developments are reshaping the industrial sector worldwide. Industry 4.0 and sustainability are considered as the crucial emerging trends in industrial production systems. The resulting transformations are changing production modes from traditional to digital, intelligent, and decentralized. It is expected that Industry 4.0 will help drive sustainability in industries thanks to the implementation of advanced technology and a move towards social sustainability. This book reflects on the consequences of the transition to Industry 4.0 for climate change. The book presents a systemic overview of the current negative impacts of digitization on the environment and showcases a new outline of the energy domain and expected changes in environmental pollution levels under Industry 4.0. It also analyzes the ecological consequences of the growth and development of Industry 4.0 and considers Industry 4.0 as an alternative to fighting climate change, in the sense of shifting the global community’s attention from environmental protection to consolidation of the digital economy. This book will be of interest to academicians and practitioners in the fields of climate change and development of Industry 4.0, and it will contribute to national economic policies for fighting climate change and corporate strategies of sustainable development under Industry 4.0. |
| energy management system for ev chargers: Managing Electric Vehicle Power Sam Davis, 2020-08-31 Power management involves all the power consumed in an electric vehicle (EV), so it impacts the vehicle's performance, safety, and driving range. To provide these vehicle characteristics, power management: Ensures that the proper power, voltage, and current are applied to each electronic circuit. Ensures that there is isolation between low-voltage and highvoltage (HV) circuits. Offers power circuit protection against electrical disturbances that can affect internal or external circuits. Managing Electric Vehicle Power provides complete coverage for understanding how best to utilize the primary power source across all the EV's Electric Control Units. Readers will also be introduced to the qualification standards of the Automotive Electronics Council (AEC). AEC standards are a 'one-time' qualification that typically takes place at the end of the development cycle. |
Eaton Electric Vehicle Energy Management System (EVEMS)
What is an Electrical Vehicle Energy Management Systems (EVEMS)? EV load management can be accomplished in two ways to limit power demand: passive/static and dynamic load …
DCC-12 Electric Vehicle Energy Management System
Electric Vehicle Energy Management System DCC-12 is an energy management system specif-ically designed to allow the connection of an EV charger to a panel that is at full capacity and …
SkySpark An Analytics Driven Energy Management System for …
In this paper we will introduce SkySpark, an analytics-driven energy management system (EMS) for management and optimization of EV charging, as a solution to help address these …
Electric Vehicle Energy Management Systems - CSA Group
Nov 26, 2018 · Electric vehicle energy management systems (EVEMS) represent an opportunity to maximize usage efficiency of existing electrical infrastructure and avoid prohibitive costs …
EV Charging Solution DeltaGrid EVM - deltaww.com
By enabling grouping of EV chargers, prioritisation, scheduling, configurable limits to charging power as well as leveraging time-of-use tariff arbitrage, DeltaGrid® EVM provides unparalleled …
Energy Management Controller for Bi-Directional EV Charging …
To address these gaps, this study proposes an Energy Management Controller (EMC) for Bi-Directional EV Charging, integrating a prioritized solar to ESS to grid energy distribution …
SIMPLIFIED AND COST-EFFECTIVE EV CHARGING LOAD …
One of the standout features of EVECTRIX EVEMS solutions is its smart load management system. By intelligently distributing the available power dedicated to each 4 connected EVs …
BATTERY ENERGY STORAGE SYSTEMS FOR CHARGING …
BATTERY ENERGY STORAGE SYSTEMS FOR CHARGING STATIONS Power Generation Enabling EV charging and preventing grid overloads from high power requirements.
ABB Ability Energy Management - OPTIMAX for Smart Charging
OPTIMAX dynamically adjusts power for charging stations by calculating the available power with the help of a power measurement at the grid connection. Enabling maximal use of available …
Incorporating Residential Smart Electric Vehicle Charging in …
In this paper, we develop an EV charging framework that accounts for occupant convenience using OCHRE, a residential energy model, and foresee, a home energy management system. …
Optimal energy management system for V2G chargers …
IREMS is an optimization model solution for the smart and dynamic energy management of multiple types of electric vehicle charging infrastructure (smart charge) or V2G systems as well …
Energy Metering for Electric Vehicle Charging Stations
Regardless of the type of power being used to charge the EV, the charging station needs an energy meter to measure the energy consumption of charging the EV. This allows the …
IoT-Based Intelligent Energy Management for EV Charging …
worldwide transition to sustainable energy solutions requires novel strategies for generating, storing, and using energy. This article examines the combination of solar energy with VRFB …
EV charging load management: Accelerating electrification …
EV load management enables an automated and creative means to make the most of available energy and time-of-use utility rates. These systems can manage and adjust the energy …
Smart EV Charging Station Energy Management System
• Less operation management effort since no blocking or reservation • Limited investment to accommodate extra power • Maximize power utilization Benefits of Smart Energy …
EV CHARGING IS EASY WHEN YOUR BUILDING RUNS IT
Electric Vehicle Manager is software that easily integrates with most BMS software and almost any charging infrastructure. It can also integrate any electrical power sources – your local grid, …
Electric Vehicle Energy Management System Catalog
Electric Vehicle Energy Management System DCC-9 is an energy management system designed to allow the connection of an EV charger to the main feeder of a panel without affecting the …
More savings, less headache with power management
Power management is the practice of balancing energy across EV chargers so that the total output stays within an infrastructure’s capacity. You can also limit peak power to avoid costly …
Electric vehicle charging infrastructure: more than just ... - Eaton
Eaton xStorage 400 Battery Energy Storage System (BESS) includes batteries, inverters and management software to shave peak demand cost for EV charging applications
Incorporating Residential Smart Electric Vehicle Charging in …
Approach: Home Energy Management System • foresee TM optimizes home energy usage across multiple DERs – Model predictive control with quadratic programming – Weights used …
The 2030 National Charging Network:
This study considers Level 1 and Level 2 alternating-current (AC) chargers rated between 1.4 and 19.2 kW as destination chargers for light-duty vehicles. Direct-current (DC) chargers with …
Eaton Electric Vehicle Energy Management System (EVEMS)
What is an Electrical Vehicle Energy Management Systems (EVEMS)? EV load management can be accomplished in two ways to limit power demand: passive/static and dynamic load …
DCC-12 Electric Vehicle Energy Management System
Electric Vehicle Energy Management System DCC-12 is an energy management system specif-ically designed to allow the connection of an EV charger to a panel that is at full capacity and …
SkySpark An Analytics Driven Energy Management System …
In this paper we will introduce SkySpark, an analytics-driven energy management system (EMS) for management and optimization of EV charging, as a solution to help address these …
Electric Vehicle Energy Management Systems - CSA Group
Nov 26, 2018 · Electric vehicle energy management systems (EVEMS) represent an opportunity to maximize usage efficiency of existing electrical infrastructure and avoid prohibitive costs …
EV Charging Solution DeltaGrid EVM - deltaww.com
By enabling grouping of EV chargers, prioritisation, scheduling, configurable limits to charging power as well as leveraging time-of-use tariff arbitrage, DeltaGrid® EVM provides unparalleled …
Energy Management Controller for Bi-Directional EV …
To address these gaps, this study proposes an Energy Management Controller (EMC) for Bi-Directional EV Charging, integrating a prioritized solar to ESS to grid energy distribution …
SIMPLIFIED AND COST-EFFECTIVE EV CHARGING LOAD …
One of the standout features of EVECTRIX EVEMS solutions is its smart load management system. By intelligently distributing the available power dedicated to each 4 connected EVs …
BATTERY ENERGY STORAGE SYSTEMS FOR CHARGING …
BATTERY ENERGY STORAGE SYSTEMS FOR CHARGING STATIONS Power Generation Enabling EV charging and preventing grid overloads from high power requirements.
ABB Ability Energy Management - OPTIMAX for Smart …
OPTIMAX dynamically adjusts power for charging stations by calculating the available power with the help of a power measurement at the grid connection. Enabling maximal use of available …
Incorporating Residential Smart Electric Vehicle Charging in …
In this paper, we develop an EV charging framework that accounts for occupant convenience using OCHRE, a residential energy model, and foresee, a home energy management system. …
Optimal energy management system for V2G chargers …
IREMS is an optimization model solution for the smart and dynamic energy management of multiple types of electric vehicle charging infrastructure (smart charge) or V2G systems as well …
Energy Metering for Electric Vehicle Charging Stations
Regardless of the type of power being used to charge the EV, the charging station needs an energy meter to measure the energy consumption of charging the EV. This allows the charging …
IoT-Based Intelligent Energy Management for EV Charging …
worldwide transition to sustainable energy solutions requires novel strategies for generating, storing, and using energy. This article examines the combination of solar energy with VRFB …
EV charging load management: Accelerating electrification …
EV load management enables an automated and creative means to make the most of available energy and time-of-use utility rates. These systems can manage and adjust the energy …
Smart EV Charging Station Energy Management System
• Less operation management effort since no blocking or reservation • Limited investment to accommodate extra power • Maximize power utilization Benefits of Smart Energy Management …
EV CHARGING IS EASY WHEN YOUR BUILDING RUNS IT
Electric Vehicle Manager is software that easily integrates with most BMS software and almost any charging infrastructure. It can also integrate any electrical power sources – your local grid, …
Electric Vehicle Energy Management System Catalog
Electric Vehicle Energy Management System DCC-9 is an energy management system designed to allow the connection of an EV charger to the main feeder of a panel without affecting the …
More savings, less headache with power management
Power management is the practice of balancing energy across EV chargers so that the total output stays within an infrastructure’s capacity. You can also limit peak power to avoid costly …
Electric vehicle charging infrastructure: more than just ... - Eaton
Eaton xStorage 400 Battery Energy Storage System (BESS) includes batteries, inverters and management software to shave peak demand cost for EV charging applications
Incorporating Residential Smart Electric Vehicle Charging in …
Approach: Home Energy Management System • foresee TM optimizes home energy usage across multiple DERs – Model predictive control with quadratic programming – Weights used …
The 2030 National Charging Network:
This study considers Level 1 and Level 2 alternating-current (AC) chargers rated between 1.4 and 19.2 kW as destination chargers for light-duty vehicles. Direct-current (DC) chargers with …
