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Power and Energy Systems for E-mobility
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Power and Energy Systems for E-mobility

A special issue of World Electric Vehicle Journal (ISSN 2032-6653).

Deadline for manuscript submissions: 30 November 2024 | Viewed by 25126

Special Issue Editors

Dr. Wenming Yang

E-Mail Website
Guest Editor
Department of Mechanical Engineering, National University of Singapore, 9 Engineering Drive 1, Singapore 117575, Singapore
Interests: combustion; biofuels; internal combustion engines; boilers
Special Issues, Collections and Topics in MDPI journals
Dr. Anna Pinnarelli

E-Mail Website
Guest Editor
Department of Mechanical, Energy and Management Engineering (DIMEG), University of Calabria, 87036 Rende, Italy
Interests: FACTS technology; harmonic analysis; electrical system automation and decentralized control; electrical power systems control and management with particular attention on the consequence of market scenario; smart grid; microgrid; nanogrid technologies and demand response modelling and analysis; market model and aggregator framework for energy district and energy communities
Special Issues, Collections and Topics in MDPI journals

Special Issue Information

Dear Colleagues,

The 3rd Global Summit on Power and Energy Engineering (GSPEE2024) (https://www.global-summit.info/2024/power-energy-engineering) will be held in Lisbon, Portugal on March 18–20, 2024. The purpose of GSPEE2024 is to provide a forum to share the most important and latest developments in the field of power and energy engineering, to exchange research ideas and future trends, and to explore potential collaboration opportunities in all regions of the world.

We are soliciting papers on topics related to battery, hybrid, and fuel-cell electric vehicles/E-mobility for this Special Issue, which is being published by WEVJ.

Dr. Wenming Yang
Dr. Anna Pinnarelli
Guest Editors

Manuscript Submission Information

Manuscripts should be submitted online at www.mdpi.com by registering and logging in to this website. Once you are registered, click here to go to the submission form. Manuscripts can be submitted until the deadline. All submissions that pass pre-check are peer-reviewed. Accepted papers will be published continuously in the journal (as soon as accepted) and will be listed together on the special issue website. Research articles, review articles as well as short communications are invited. For planned papers, a title and short abstract (about 100 words) can be sent to the Editorial Office for announcement on this website.

Submitted manuscripts should not have been published previously, nor be under consideration for publication elsewhere (except conference proceedings papers). All manuscripts are thoroughly refereed through a single-blind peer-review process. A guide for authors and other relevant information for submission of manuscripts is available on the Instructions for Authors page. World Electric Vehicle Journal is an international peer-reviewed open access monthly journal published by MDPI.

Please visit the Instructions for Authors page before submitting a manuscript. The Article Processing Charge (APC) for publication in this open access journal is 1400 CHF (Swiss Francs). Submitted papers should be well formatted and use good English. Authors may use MDPI's English editing service prior to publication or during author revisions.

Keywords

  • alternative fuels
  • heat engines
  • power and energy circuits and systems
  • new technology for oil and gas development
  • biomass and bioenergy

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Published Papers (17 papers)

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Research

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18 pages, 919 KiB  
Article
A Novel Neuro-Probabilistic Framework for Energy Demand Forecasting in Electric Vehicle Integration
by Miguel Ángel Rojo-Yepes, Carlos D. Zuluaga-Ríos, Sergio D. Saldarriaga-Zuluaga, Jesús M. López-Lezama and Nicolas Muñoz-Galeano
World Electr. Veh. J. 2024, 15(11), 493; https://doi.org/10.3390/wevj15110493 - 29 Oct 2024
Viewed by 603
Abstract
This paper presents a novel grid-to-vehicle modeling framework that leverages probabilistic methods and neural networks to accurately forecast electric vehicle (EV) charging demand and overall energy consumption. The proposed methodology, tailored to the specific context of Medellin, Colombia, provides valuable insights for optimizing [...] Read more.
This paper presents a novel grid-to-vehicle modeling framework that leverages probabilistic methods and neural networks to accurately forecast electric vehicle (EV) charging demand and overall energy consumption. The proposed methodology, tailored to the specific context of Medellin, Colombia, provides valuable insights for optimizing charging infrastructure and grid operations. Based on collected local data, mathematical models are developed and coded to accurately reflect the characteristics of EV charging. Through a rigorous analysis of criteria, indices, and mathematical relationships, the most suitable model for the city is selected. By combining probabilistic modeling with neural networks, this study offers a comprehensive approach to predicting future energy demand as EV penetration increases. The EV charging model effectively captures the charging behavior of various EV types, while the neural network accurately forecasts energy demand. The findings can inform decision-making regarding charging infrastructure planning, investment strategies, and policy development to support the sustainable integration of electric vehicles into the power grid. Full article
(This article belongs to the Special Issue Power and Energy Systems for E-mobility)
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36 pages, 11788 KiB  
Article
Intelligent Robust Controllers Applied to an Auxiliary Energy System for Electric Vehicles
by Mario Antonio Ruz Canul, Jose A. Ruz-Hernandez, Alma Y. Alanis, Jose-Luis Rullan-Lara, Ramon Garcia-Hernandez and Jaime R. Vior-Franco
World Electr. Veh. J. 2024, 15(10), 479; https://doi.org/10.3390/wevj15100479 - 21 Oct 2024
Viewed by 753
Abstract
This paper presents two intelligent robust control strategies applied to manage the dynamics of a DC-DC bidirectional buck–boost converter, which is used in conjunction with a supercapacitor as an auxiliary energy system (AES) for regenerative braking in electric vehicles. The Neural Inverse Optimal [...] Read more.
This paper presents two intelligent robust control strategies applied to manage the dynamics of a DC-DC bidirectional buck–boost converter, which is used in conjunction with a supercapacitor as an auxiliary energy system (AES) for regenerative braking in electric vehicles. The Neural Inverse Optimal Controller (NIOC) and the Neural Sliding Mode Controller (NSMC) utilize identifiers based on Recurrent High-Order Neural Networks (RHONNs) trained with the Extended Kalman Filter (EKF) to track voltage and current references from the converter circuit. Additionally, a driving cycle test tailored specifically for typical urban driving in electric vehicles (EVs) is implemented to validate the efficacy of the proposed controller and energy improvement strategy. The proposed NSMC and NIOC are compared with a PI controller; furthermore, an induction motor and its corresponding three-phase inverter are incorporated into the EV control scheme which is implemented in Matlab/Simulink using the “Simscape Electrical” toolbox. The Mean Squared Error (MSE) is computed to validate the performance of the neural controllers. Additionally, the improvement in the State of Charge (SOC) for an electric vehicle battery through the control of buck–boost converter dynamics is addressed. Finally, several robustness tests against parameter changes in the converter are conducted, along with their corresponding performance indices. Full article
(This article belongs to the Special Issue Power and Energy Systems for E-mobility)
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16 pages, 7998 KiB  
Article
Regional Analysis and Evaluation Method for Assessing Potential for Installation of Renewable Energy and Electric Vehicles
by Yutaro Akimoto, Raimu Okano, Keiichi Okajima and Shin-nosuke Suzuki
World Electr. Veh. J. 2024, 15(10), 477; https://doi.org/10.3390/wevj15100477 - 19 Oct 2024
Viewed by 483
Abstract
Many countries are adopting renewable energy (RE) and electric vehicles (EVs) to achieve net-zero emissions by 2050. The indicators of RE and EV potentials are different. Decision-makers want to introduce RE and EVs; however, they need a method to find suitable areas. In [...] Read more.
Many countries are adopting renewable energy (RE) and electric vehicles (EVs) to achieve net-zero emissions by 2050. The indicators of RE and EV potentials are different. Decision-makers want to introduce RE and EVs; however, they need a method to find suitable areas. In addition, this is required in the time-series analysis to provide a detailed resolution. In this study, we conducted a time-series analysis in Japan to evaluate suitable areas for the combined use of RE and EVs. The results showed the surplus RE areas and shortage RE urban areas. The time-series analysis has quantitatively shown that it is not enough to charge EV batteries using surplus RE. Moreover, a ranking methodology was developed for the evaluation based on electric demand and vehicle numbers. This enables the government’s prioritization of prefectures and the prefectures’ prioritization of municipalities according to their policies. Full article
(This article belongs to the Special Issue Power and Energy Systems for E-mobility)
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12 pages, 2337 KiB  
Article
Prediction of the Resource of the Power Plant Hybrid Vehicle
by Juraj Gerlici, Oleksiy Bazhinov, Oleksandr Kravchenko, Tatiana Bazhynova and Kateryna Kravchenko
World Electr. Veh. J. 2024, 15(10), 472; https://doi.org/10.3390/wevj15100472 - 16 Oct 2024
Viewed by 563
Abstract
This article substantiates the possibility of solving a difficult task to offer a reliable estimate of the residual resource of the power plant of a hybrid car, which is exposed during operation to the influence of a complex set of external factors. This [...] Read more.
This article substantiates the possibility of solving a difficult task to offer a reliable estimate of the residual resource of the power plant of a hybrid car, which is exposed during operation to the influence of a complex set of external factors. This task is solved by monitoring the time change of diagnostic parameters and controlling the load–speed mode of the hybrid power plant, as well as using physical and chemical processes that cause the degradation of the traction battery. Methodological principles for assessing the resource of a hybrid power plant of a car have been developed, which are based on the disclosure of cause-and-effect relationships between realized and nominal quality indicators, operating conditions, and indicators of technical condition. The choice of rational solutions for the operation of a hybrid car is given, and the external conditions are determined, under which the residual life of the hybrid power plant will change. The scientific result of the study is a theoretical generalization of the scientific provisions of forecasting the resource of the hybrid power plant of a car. This ensures the efficient use of hybrid vehicles and reduces maintenance costs. Full article
(This article belongs to the Special Issue Power and Energy Systems for E-mobility)
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26 pages, 4218 KiB  
Article
Optimal Scheduling of Integrated Energy System Considering Virtual Heat Storage and Electric Vehicles
by Yinjun Liu, Yongqing Zhu, Shunjiang Yu, Zhibang Wang, Zhen Li, Changming Chen, Li Yang and Zhenzhi Lin
World Electr. Veh. J. 2024, 15(10), 461; https://doi.org/10.3390/wevj15100461 - 11 Oct 2024
Viewed by 634
Abstract
Integrated energy systems (IESs) are complex multisource supply systems with integrated source, grid, load, and storage systems, which can provide various flexible resources. Nowadays, there exists the phenomenon of a current power system lacking flexibility. Thus, more research focuses on enhancing the flexibility [...] Read more.
Integrated energy systems (IESs) are complex multisource supply systems with integrated source, grid, load, and storage systems, which can provide various flexible resources. Nowadays, there exists the phenomenon of a current power system lacking flexibility. Thus, more research focuses on enhancing the flexibility of power systems by considering the participation of IESs in distribution network optimization scheduling. Therefore, the optimal scheduling of IESs considering virtual heat storage and electric vehicles (EVs) is proposed in this paper. Firstly, the basic structure of IESs and mathematical models for the operation of the relevant equipment are presented. Then, an optimal scheduling strategy of an IES considering virtual heat storage and electric vehicles is proposed. Finally, an IES with an IEEE 33-node distribution network, 20-node Belgian natural gas network, and 44-node heating network topologies is selected to validate the proposed strategy. The proposed models of integrated demand response (IDR), EV orderly charging participation, virtual heat storage, and actual multitype energy storage devices play the role of peak shaving and valley filling, which also helps to reduce the scheduling cost from CNY 11,253.0 to CNY 11,184.4. The simulation results also demonstrate that the proposed model can effectively improve the operational economy of IESs, and the scheduling strategy can promote the consumption of renewable energy, with the wind curtailment rate decreasing from 63.62% to 12.50% and the solar curtailment rate decreasing from 56.92% to 21.34%. Full article
(This article belongs to the Special Issue Power and Energy Systems for E-mobility)
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30 pages, 3057 KiB  
Article
Intricate DG and EV Planning Impact Assessment with Seasonal Variation in a Three-Phase Distribution System
by Abhinav Kumar, Sanjay Kumar, Umesh Kumar Sinha and Aashish Kumar Bohre
World Electr. Veh. J. 2024, 15(9), 425; https://doi.org/10.3390/wevj15090425 - 19 Sep 2024
Viewed by 573
Abstract
Modern power systems present opportunities and challenges when integrating distributed generation and electric vehicle charging stations into unbalanced distribution networks. The performance and efficiency of both Distributed Generation (DG) and Electric Vehicle (EV) infrastructure are significantly affected by global temperature variation characteristics, which [...] Read more.
Modern power systems present opportunities and challenges when integrating distributed generation and electric vehicle charging stations into unbalanced distribution networks. The performance and efficiency of both Distributed Generation (DG) and Electric Vehicle (EV) infrastructure are significantly affected by global temperature variation characteristics, which are taken into consideration in this study as it investigates the effects of these integrations. This scenario is further complicated by the unbalanced structure of distribution networks, which introduces inequalities that can enhance complexity and adverse effects. This paper analyzes the manner in which temperature changes influence the network operational voltage profile, power quality, energy losses, greenhouse harmful emissions, cost factor, and active and reactive power losses using analytical and heuristic techniques in the IEEE 69 bus network in both three-phase balance and modified unbalanced load conditions. In order to maximize adaptability and efficiency while minimizing the adverse impacts on the unbalanced distribution system, the findings demonstrate significant variables to take into account while locating the optimal location and size of DG and EV charging stations. To figure out the objective, three-phase distribution load flow is utilized by the particle swarm optimization technique. Greenhouse gas emissions dropped by 61.4%, 64.5%, and 60.98% in each of the three temperature case circumstances, while in the modified unbalanced condition, they dropped by 57.55%, 60.39%, and 62.79%. In balanced conditions, energy loss costs are reduced by 95.96%, 96.01%, and 96.05%, but in unbalanced conditions, they are reduced by 91.79%, 92.06%, and 92.46%. The outcomes provide valuable facts that electricity companies, decision-makers, along with other energy sector stakeholders may utilize to formulate strategies that adapt to the fluctuating patterns of electricity distribution during fluctuations in global temperature under balanced and unbalanced conditions of network. Full article
(This article belongs to the Special Issue Power and Energy Systems for E-mobility)
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16 pages, 2194 KiB  
Article
Evaluating Synergies between Electric Vehicles and Photovoltaics: A Comparative Study of Urban Environments
by Renos Rotas, Petros Iliadis, Nikos Nikolopoulos and Ananias Tomboulides
World Electr. Veh. J. 2024, 15(9), 397; https://doi.org/10.3390/wevj15090397 - 2 Sep 2024
Viewed by 1361
Abstract
Electric vehicles (EVs) and photovoltaics (PVs) are expected to be broadly adopted in future power systems. However, the temporal variability of EV load and PV production presents challenges for integrating them into the power grid. This study evaluates and assesses the synergies between [...] Read more.
Electric vehicles (EVs) and photovoltaics (PVs) are expected to be broadly adopted in future power systems. However, the temporal variability of EV load and PV production presents challenges for integrating them into the power grid. This study evaluates and assesses the synergies between EVs and PV systems to maximize solar energy utilization for EV load coverage. The configurations studied include EV charging via the national grid as a reference case (Case 1) and two solar energy harvesting options: EVs powered directly by vehicle-mounted PVs (Case 2) and EV chargers connected to residential PV installations (Case 3). These cases are evaluated across different urban environments with large EV fleets and dissimilar weather conditions: Berlin and Los Angeles. A customized operation profile based on the worldwide harmonized light-duty test cycle (WLTC) and a charge-right-away (CRA) strategy is used. Energy performance analysis is conducted through dynamic simulations using the Modelica language, with environmental and economic indices derived. Key findings highlight the superior performance of residential PV systems in both cities compared to current solar EV technologies, with both solutions offering significant benefits over the reference case. Cases 2 and 3 result in a 44% and 59% reduction in annual energy consumption, greenhouse gas emissions, and charging costs in Berlin, while in Los Angeles, the reductions are 67% and 98%. The average daily solar driving range reaches 20.3% in Berlin and 30.4% in Los Angeles. Full article
(This article belongs to the Special Issue Power and Energy Systems for E-mobility)
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21 pages, 5940 KiB  
Article
Performance Analysis of Multiple Energy-Storage Devices Used in Electric Vehicles
by Kiran Raut, Asha Shendge, Jagdish Chaudhari, Ravita Lamba, Tapas Mallick and Anurag Roy
World Electr. Veh. J. 2024, 15(8), 357; https://doi.org/10.3390/wevj15080357 - 8 Aug 2024
Viewed by 898
Abstract
Considering environmental concerns, electric vehicles (EVs) are gaining popularity over conventional internal combustion (IC) engine-based vehicles. Hybrid energy-storage systems (HESSs), comprising a combination of batteries and supercapacitors (SCs), are increasingly utilized in EVs. Such HESS-equipped EVs typically outperform standard electric vehicles. However, the [...] Read more.
Considering environmental concerns, electric vehicles (EVs) are gaining popularity over conventional internal combustion (IC) engine-based vehicles. Hybrid energy-storage systems (HESSs), comprising a combination of batteries and supercapacitors (SCs), are increasingly utilized in EVs. Such HESS-equipped EVs typically outperform standard electric vehicles. However, the effective management of power sources to meet varying power demands remains a major challenge in the hybrid electric vehicles. This study presents the development of a MATLAB Simulink model for a hybrid energy-storage system aimed at alleviating the load on batteries during periods of high power demand. Two parallel combinations are investigated: one integrating the battery with a supercapacitor and the other with a photovoltaic (PV) system. These configurations address challenges encountered in EVs, such as power fluctuations and battery longevity issues. Although batteries are commonly used in conjunction with solar PV systems for energy storage, they incur higher operating costs due to the necessity of converters. The findings suggest that the proposed supercapacitor–battery configuration reduces battery peak power consumption by up to 39%. Consequently, the supercapacitor–battery HESS emerges as a superior option, possibly prolonging battery cycle life by mitigating stress induced by fluctuating power exchanges during the charging and discharging phases. Full article
(This article belongs to the Special Issue Power and Energy Systems for E-mobility)
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27 pages, 7136 KiB  
Article
A Study on an Energy-Regenerative Braking Model Using Supercapacitors and DC Motors
by Alistair Teasdale, Lucky Ishaku, Chiemela Victor Amaechi, Ibitoye Adelusi and Abdelrahman Abdelazim
World Electr. Veh. J. 2024, 15(7), 326; https://doi.org/10.3390/wevj15070326 - 22 Jul 2024
Cited by 2 | Viewed by 1699
Abstract
This study presents an energy regeneration model and some theory required to construct a regeneration braking system. Due to the effects of carbon dioxide (CO2) emissions, there is increasing interest in the use of electric vehicles (EVs), electric bikes, electric bicycles, [...] Read more.
This study presents an energy regeneration model and some theory required to construct a regeneration braking system. Due to the effects of carbon dioxide (CO2) emissions, there is increasing interest in the use of electric vehicles (EVs), electric bikes, electric bicycles, electric buses and electric aircraft globally. In order to promote the use of electric transportation systems, there is a need to underscore the impact of net zero emissions. The development of EVs requires regenerating braking system. This study presents the advantages of regenerative braking. This system is globally seen in applications such as electric cars, trams, and trains. In this study, the design specification, design methodology, testing configurations, Simulink model, and recommendations will be outlined. A unique element of this work is the practical experiment that was carried out using 1.5 Amps with no load and 2.15 Amps with a load. The discharge voltage was purely from the 22 W bulb load connected to the capacitor bank as we limited this study to the use of 1.5 Amps and it took 15 min for a full discharge cycle, after which no charge was left in the capacitor bank. The results showed that the discharge rate and charging rate for the regenerative braking system were effective but could be improved. The objective of this paper is to investigate how a supercapacitor works alongside a battery in regenerative braking applications. This study demonstrates that the superconductor used can deliver maximum power when required. Also, it can also withstand elevated peaks in charging or discharging current via the supercapacitor. Combining a battery with a supercapacitor reduces the abrupt load on the battery by shifting it to the capacitor. When these two combinations are used in tandem, the battery pack’s endurance and lifespan are both boosted. Full article
(This article belongs to the Special Issue Power and Energy Systems for E-mobility)
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23 pages, 7194 KiB  
Article
Energy Consumption Estimation Method of Battery Electric Buses Based on Real-World Driving Data
by Peng Wang, Qiao Liu, Nan Xu, Yang Ou, Yi Wang, Zaiqiang Meng, Ning Liu, Jiyao Fu and Jincheng Li
World Electr. Veh. J. 2024, 15(7), 314; https://doi.org/10.3390/wevj15070314 - 18 Jul 2024
Viewed by 1016
Abstract
The estimation of energy consumption under real-world driving conditions is a prerequisite for optimizing bus scheduling and meeting the requirements of route operation, thereby promoting the large-scale application of battery electric buses. However, the limitation of data accuracy and the uncertainty of many [...] Read more.
The estimation of energy consumption under real-world driving conditions is a prerequisite for optimizing bus scheduling and meeting the requirements of route operation, thereby promoting the large-scale application of battery electric buses. However, the limitation of data accuracy and the uncertainty of many factors, such as weather conditions, traffic conditions, and driving styles, etc. make accurate energy consumption estimation complicated. In response to these challenges, a new method for estimating the energy consumption of battery electric buses (BEBs) is proposed in this research. This method estimates the speed profiles of different driving styles and the energy consumption extremes using real-world driving data. First, this research provides the constraints on speed formed by environmental factors including weather conditions, route characteristics, and traffic characteristics. On this basis, there are two levels of estimation for energy consumption. The first level classifies different driving styles and constructs the corresponding speed profiles with the time interval (10 s), the same as real-world driving data. The second level further constructs the speed profiles with the time interval of 1 s by filling in the first-level speed profiles and estimating the energy consumption extremes. Finally, the estimated maximum and minimum value of energy consumption were compared with the true value and the results showed that the real energy consumption did not exceed the extremes we estimated, which proves the method we proposed is reasonable and useful. Therefore, this research can provide a theoretical foundation for the deployment of battery electric buses. Full article
(This article belongs to the Special Issue Power and Energy Systems for E-mobility)
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31 pages, 3073 KiB  
Article
Overview of Sustainable Mobility: The Role of Electric Vehicles in Energy Communities
by Jozsef Menyhart
World Electr. Veh. J. 2024, 15(6), 275; https://doi.org/10.3390/wevj15060275 - 20 Jun 2024
Cited by 2 | Viewed by 1581
Abstract
From 2035 onward, the registration of new conventional internal combustion engine vehicles will be prohibited in the European Union. This shift is driven by steadily rising fuel prices and growing concerns over carbon dioxide emissions. Electric vehicles (EVs) are becoming increasingly popular across [...] Read more.
From 2035 onward, the registration of new conventional internal combustion engine vehicles will be prohibited in the European Union. This shift is driven by steadily rising fuel prices and growing concerns over carbon dioxide emissions. Electric vehicles (EVs) are becoming increasingly popular across Europe, and many manufacturers now offer modified models, making pure internal combustion versions unavailable for certain types. Additionally, the comparatively lower operational costs of EVs for end users further bolster their appeal. In the European Union, new directives have been established to define innovative approaches to energy use in Member States, known as energy communities. This article provides a comprehensive overview of the architecture of energy communities, electric vehicles, and the V2X technologies currently on the market. It highlights the evolution of electric vehicle adoption in the EU, contextualizing it within broader energy trends and presenting future challenges and development opportunities related to energy communities. The paper details the diversification of electricity sources among Member States and the share of generated electricity that is utilized for transport. Full article
(This article belongs to the Special Issue Power and Energy Systems for E-mobility)
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23 pages, 10187 KiB  
Article
Hardware Implementation of a Resilient Energy Management System for Networked Microgrids
by Hossam M. Hussein, S M Sajjad Hossain Rafin, Mahmoud S. Abdelrahman and Osama A. Mohammed
World Electr. Veh. J. 2024, 15(5), 209; https://doi.org/10.3390/wevj15050209 - 10 May 2024
Cited by 2 | Viewed by 1142
Abstract
A networked microgrid is composed of multiple nearby microgrids linked together to gain additional flexibility for resilient operations. Networked microgrids collaborate to prevent power shortages in microgrid clusters by sharing critical renewable and energy storage resources. However, controlling the local resources of each [...] Read more.
A networked microgrid is composed of multiple nearby microgrids linked together to gain additional flexibility for resilient operations. Networked microgrids collaborate to prevent power shortages in microgrid clusters by sharing critical renewable and energy storage resources. However, controlling the local resources of each microgrid, including the energy storage systems’ charging and discharging, maintaining the DC bus voltage, and even overseeing the power shared by multiple microgrids, is challenging. Therefore, a microgrid control technique and distributed energy management are used cooperatively in this study to handle the shared power between a system of networked microgrids incorporating photovoltaics and battery energy storage systems. Numerical simulation results from a networked microgrid system verify the accuracy and soundness of the suggested distributed energy management under several operating conditions, including renewable uncertainties and sequential load variations in different zones. The applicability of the suggested technique is confirmed by hardware implementation, and several operational scenarios further evaluate the proposed system on a practical two-microgrid system located in the Florida International University (FIU) testbed. Full article
(This article belongs to the Special Issue Power and Energy Systems for E-mobility)
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21 pages, 2519 KiB  
Article
Systemic Evaluation of PV Self-Consumption Optimization Using Electric Vehicles
by Kirstin Ganz, Timo Kern and Michael Hinterstocker
World Electr. Veh. J. 2024, 15(3), 98; https://doi.org/10.3390/wevj15030098 - 5 Mar 2024
Cited by 3 | Viewed by 1802
Abstract
The shift to electric transportation is crucial to fighting climate change. However, Germany’s goal of 15 million electric vehicles (EVs) by 2030 remains distant. Therefore, enhancing their economic viability is essential to promoting EV adoption. One promising option to increase the economics for [...] Read more.
The shift to electric transportation is crucial to fighting climate change. However, Germany’s goal of 15 million electric vehicles (EVs) by 2030 remains distant. Therefore, enhancing their economic viability is essential to promoting EV adoption. One promising option to increase the economics for the user is PV self-consumption optimization using smart charging EVs. Yet, more research is needed to explore the use case’s impacts on the German/European energy systems. Therefore, PV self-consumption optimization using EVs is integrated into an energy system model, assessing its impact on the energy system in 2030. For this purpose, the use case is modeled for different groups of people—personas—which are defined in a way that creates a diverse set of personas reflecting the distribution of different statistical values within Germany. The modified (dis)charging profiles are then aggregated and integrated into the energy system model. With a high implementation of PV self-consumption optimization in Germany in 2030, a positive system effect (with a system cost reduction of 53 million EUR/a) can be observed with a lower need for further storage and less curtailment of renewable energies (RES). Furthermore, the market values for RES increase by 0.7%, which fosters the integration of RES. Full article
(This article belongs to the Special Issue Power and Energy Systems for E-mobility)
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11 pages, 1043 KiB  
Article
Economic Prospects of Taxis Powered by Hydrogen Fuel Cells in Palestine
by Fady M. A. Hassouna and Kangwon Shin
World Electr. Veh. J. 2024, 15(2), 50; https://doi.org/10.3390/wevj15020050 - 5 Feb 2024
Cited by 2 | Viewed by 1750
Abstract
Recently, major problems related to fuel consumption and greenhouse gas (GHG) emissions have arisen in the transportation sector. Therefore, developing transportation modes powered by alternative fuels has become one of the main targets for car manufacturers and governments around the world. This study [...] Read more.
Recently, major problems related to fuel consumption and greenhouse gas (GHG) emissions have arisen in the transportation sector. Therefore, developing transportation modes powered by alternative fuels has become one of the main targets for car manufacturers and governments around the world. This study aimed to investigate the economic prospects of using hydrogen fuel cell technology in taxi fleets in Westbank. For this purpose, a model that could predict the number of taxis was developed, and the expected economic implications of using hydrogen fuel cell technology in taxi fleets were determined based on the expected future fuel consumption and future fuel cost. After analysis of the results, it was concluded that a slight annual increase in the number of taxis in Palestine is expected in the future, due to the government restrictions on issuing new taxi permits in order to get this sector organized. Furthermore, using hydrogen fuel cells in taxi fleets is expected to become more and more feasible over time due to the expected future increase in oil price and the expected significant reduction in hydrogen cost as a result of the new technologies that are expected to be used in the production and handling of hydrogen. Full article
(This article belongs to the Special Issue Power and Energy Systems for E-mobility)
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Review

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17 pages, 1815 KiB  
Review
Energy Management Strategies for Hybrid Electric Vehicles: A Technology Roadmap
by Vikram Mittal and Rajesh Shah
World Electr. Veh. J. 2024, 15(9), 424; https://doi.org/10.3390/wevj15090424 - 18 Sep 2024
Viewed by 1244
Abstract
Hybrid electric vehicles (HEVs) are set to play a critical role in the future of the automotive industry. To operate efficiently, HEVs require a robust energy management strategy (EMS) that decides whether the vehicle is powered by the engine or electric motors while [...] Read more.
Hybrid electric vehicles (HEVs) are set to play a critical role in the future of the automotive industry. To operate efficiently, HEVs require a robust energy management strategy (EMS) that decides whether the vehicle is powered by the engine or electric motors while managing the battery’s state of charge. The EMS must rapidly adapt to driver demands and optimize energy usage, ideally predicting battery charge rates and fuel consumption to adjust the powertrain in real time, even under unpredictable driving conditions. As HEVs become more prevalent, EMS technologies will advance to improve predictive capabilities. This analysis provides an overview of current EMS systems, including both rule-based and optimization-based approaches. It explores the evolution of EMS development through a technology roadmap, highlighting the integration of advanced algorithms such as reinforcement learning and deep learning. The analysis addresses the technologies that underly this evolution, including machine learning, cloud computing, computer vision, and swarm technology. Key advances and challenges in these technologies are discussed, along with their implications for the next generation of EMS systems for HEVs. The analysis of these technologies indicates that they will play a key role in the evolution of EMS technology, allowing it to better optimize driver needs and fuel economy. Full article
(This article belongs to the Special Issue Power and Energy Systems for E-mobility)
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21 pages, 1213 KiB  
Review
A Comprehensive Analysis of Supercapacitors and Their Equivalent Circuits—A Review
by Pranathi Mehra, Sahaj Saxena and Suman Bhullar
World Electr. Veh. J. 2024, 15(8), 332; https://doi.org/10.3390/wevj15080332 - 25 Jul 2024
Viewed by 2581
Abstract
Supercapacitors (SCs) are an emerging energy storage technology with the ability to deliver sudden bursts of energy, leading to their growing adoption in various fields. This paper conducts a comprehensive review of SCs, focusing on their classification, energy storage mechanism, and distinctions from [...] Read more.
Supercapacitors (SCs) are an emerging energy storage technology with the ability to deliver sudden bursts of energy, leading to their growing adoption in various fields. This paper conducts a comprehensive review of SCs, focusing on their classification, energy storage mechanism, and distinctions from traditional capacitors to assess their suitability for different applications. To investigate the voltage response of SCs, the existing electrical equivalent circuits are further studied. The analysis is carried forward with the parameter of impedance, which has not so far been addressed. Impedance analysis is essential for a better understanding of SCs as capacitors work on alternating source of supply. The paper also highlights the applications of SCs in electric automobiles and charging stations, showcasing their advantages such as fast charging and higher power density compared to traditional capacitors. Additionally, other applications in areas like the military, medicine, and industry are discussed, demonstrating the versatility of SC technology. Full article
(This article belongs to the Special Issue Power and Energy Systems for E-mobility)
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27 pages, 3439 KiB  
Systematic Review
A Systematic Review on the Integration of Artificial Intelligence into Energy Management Systems for Electric Vehicles: Recent Advances and Future Perspectives
by Paul Arévalo, Danny Ochoa-Correa and Edisson Villa-Ávila
World Electr. Veh. J. 2024, 15(8), 364; https://doi.org/10.3390/wevj15080364 - 13 Aug 2024
Cited by 1 | Viewed by 4270
Abstract
This systematic review paper examines the current integration of artificial intelligence into energy management systems for electric vehicles. Using the preferred reporting items for systematic reviews and meta-analyses (PRISMA) methodology, 46 highly relevant articles were systematically identified from extensive literature research. Recent advancements [...] Read more.
This systematic review paper examines the current integration of artificial intelligence into energy management systems for electric vehicles. Using the preferred reporting items for systematic reviews and meta-analyses (PRISMA) methodology, 46 highly relevant articles were systematically identified from extensive literature research. Recent advancements in artificial intelligence, including machine learning, deep learning, and genetic algorithms, have been analyzed for their impact on improving electric vehicle performance, energy efficiency, and range. This study highlights significant advancements in energy management optimization, route planning, energy demand forecasting, and real-time adaptation to driving conditions through advanced control algorithms. Additionally, this paper explores artificial intelligence’s role in diagnosing faults, predictive maintenance of electric propulsion systems and batteries, and personalized driving experiences based on driver preferences and environmental factors. Furthermore, the integration of artificial intelligence into addressing security and cybersecurity threats in electric vehicles’ energy management systems is discussed. The findings underscore artificial intelligence’s potential to foster innovation and efficiency in sustainable mobility, emphasizing the need for further research to overcome current challenges and optimize practical applications. Full article
(This article belongs to the Special Issue Power and Energy Systems for E-mobility)
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