Performance Estimation of Wireless Electric Vehicle Charging System Based On Magnetic Coupling

In order to achieve an efficient wireless Electric Vehicle (EV) charging system in non-ideal practical scenarios, a proper design guideline has been delineated through the simulation, theoretical calculation as well as experimental investigation. It is examined that the wireless power transfer efficiency (WPTE) is invariably affected by the configuration of the charging coils (coil radius & number of turns), coupling to loss ratio, ohmic loss, radiation resistance, operating frequency, magnetic coupling as well as physical air gap between the coils. It is found that there is a certain operating regime at which maximum WPTE can be uphold. The acquired results provide a comprehensive strategic plan that can be used in EV charging system

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Design of a High Power, LCC-Compensated, Dynamic, Wireless Electric Vehicle Charging System with Improved Misalignment Tolerance

Energies ◽

10.3390/en14040885 ◽

2021 ◽

Vol 14 (4) ◽

pp. 885

Author(s):

Eiman ElGhanam ◽

Mohamed Hassan ◽

Ahmed Osman

Keyword(s):

Electric Vehicle ◽

Average Power ◽

Average Energy ◽

Power Transfer ◽

Additional Energy ◽

Charging System ◽

Electric Vehicle Charging ◽

Power Transfer Efficiency ◽

Average Energy Consumption ◽

Ev Charging

Dynamic wireless power transfer (DWPT) systems are becoming increasingly important for on-the-move electric vehicle (EV) charging solutions, to overcome range anxiety and compensate for the consumed energy while the EV is in motion. In this work, a DWPT EV charging system is proposed to be implemented on a straight road stretch such that it provides the moving EV with energy at a rate of 308 Wh/km. This rate is expected to compensate for the vehicle’s average energy consumption and allow for additional energy storage in the EV battery. The proposed charging system operates at an average power transfer efficiency that is higher than 90% and provides good lateral misalignment tolerance up to ±200 mm. Details of the proposed system’s design are presented in this paper, including EV specifications, inductive link and compensation network design and power electronic circuitry.

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The Construction and the Management of Electric Vehicle Charging Network

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.128-129.1093 ◽

2011 ◽

Vol 128-129 ◽

pp. 1093-1096

Author(s):

Xiang Fu ◽

Jia Yao

Keyword(s):

Electric Vehicle ◽

Large Scale ◽

Peak Load ◽

Network Planning ◽

Network Construction ◽

Station Network ◽

Charging System ◽

Electric Vehicle Charging ◽

Ev Charging

Firstly, this paper proposed that charging network for Electric Vehicle (EV) should be consisted of the special motorcade charging system and general charging system mainly, and the emergency charging system auxiliary. This paper put forward the suggestions that EV charging network construction should carry on with EV development synchronization, give full play to advantages of dispersion charging, charging avoiding peak load and charge in valley load, instead of laying a large-scale charge-station network. Secondly, this paper discussed the construction and the management of charging network, focused on the network planning, charging standards, and the role of power enterprises. Finally, the pattern of charging operation and the management is chosen, three kinds of patterns are proposed to different periods and users, the centralism charging management pattern, the dispersion charging and centralism maintenance pattern, as well as the battery renting pattern.

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A Novel Power Market Mechanism Based on Blockchain for Electric Vehicle Charging Stations

Electronics ◽

10.3390/electronics10030307 ◽

2021 ◽

Vol 10 (3) ◽

pp. 307

Author(s):

Zhaoxiong Huang ◽

Zhenhao Li ◽

Chun Sing Lai ◽

Zhuoli Zhao ◽

Xiaomei Wu ◽

...

Keyword(s):

Social Welfare ◽

Real Time ◽

Electric Vehicle ◽

Peak Load ◽

Market Mechanism ◽

Double Auction ◽

Energy Trading ◽

Charging System ◽

Electric Vehicle Charging ◽

System Operator

This work presents a novel blockchain-based energy trading mechanism for electric vehicles consisting of day-ahead and real-time markets. In the day-ahead market, electric vehicle users submit their bidding price to participate in the double auction mechanism. Subsequently, the smart match mechanism will be conducted by the charging system operator, to meet both personal interests and social benefits. After clearing the trading result, the charging system operator uploads the trading contract made in the day-ahead market to the blockchain. In the real-time market, the charging system operator checks the trading status and submits the updated trading results to the blockchain. This mechanism encourages participants in the double auction to pursue higher interests, in addition to rationally utilize the energy unmatched in the auction and to achieve the improvement of social welfare. Case studies are used to demonstrate the effectiveness of the proposed model. For buyers and sellers who successfully participate in the day-ahead market, the total profit increase for buyer and seller are 22.79% and 53.54%, respectively, as compared to without energy trading. With consideration of social welfare in the smart match mechanism, the peak load reduces from 182 to 146.5 kW, which is a 19.5% improvement.

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An Alternative PWM Controlled High Efficient Solution for 60V Electric Vehicle Charging System to Replace Typical Iron Core Charger: Technical Performance Assessment and Comparison of Efficiency

2020 IEEE Region 10 Symposium (TENSYMP) ◽

10.1109/tensymp50017.2020.9231032 ◽

2020 ◽

Author(s):

Mohammad Rejwan Uddin ◽

Khan Farhan Ibne Faruque ◽

Palash Das ◽

...

Keyword(s):

Performance Assessment ◽

Electric Vehicle ◽

Efficient Solution ◽

Iron Core ◽

Charging System ◽

Technical Performance ◽

Electric Vehicle Charging ◽

High Efficient ◽

Vehicle Charging

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Thermal Behavior Analysis of Wireless Electric Vehicle Charging System under Various Misalignment Conditions

2020 IEEE 4th Conference on Energy Internet and Energy System Integration (EI2) ◽

10.1109/ei250167.2020.9347192 ◽

2020 ◽

Author(s):

Songyan Niu ◽

Hang Yu ◽

Linni Jian

Keyword(s):

Thermal Behavior ◽

Behavior Analysis ◽

Electric Vehicle ◽

Charging System ◽

Electric Vehicle Charging ◽

Vehicle Charging

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Leveraging User Preferences to Develop Profitable Business Models for Electric Vehicle Charging

World Electric Vehicle Journal ◽

10.3390/wevj12020060 ◽

2021 ◽

Vol 12 (2) ◽

pp. 60

Author(s):

Felix Röckle ◽

Thimo Schulz

Keyword(s):

Case Studies ◽

Electric Vehicle ◽

Business Models ◽

Brand Image ◽

User Preferences ◽

Value Network ◽

Electric Vehicle Charging ◽

Utility Companies ◽

Physical Assets ◽

Ev Charging

To design profitable business models for electric vehicle (EV) charging it is necessary to understand user preferences. For this purpose, prior literature is analyzed to develop a conceptual framework linking a company’s assets, the surrounding value network, and user preferences. Then, survey insights from two EV charging projects (ultra-E, SLAM) are summarized to illustrate user preferences in this area. Based on this data, the framework is eventually visualized by applying it to four case studies from the EV charging market. Based on the case studies, the following six key findings are derived: 1. Companies that have a very strong position in one of the three resource classes that define the quality-of-service provision (physical assets, digital assets, brand image) demand a higher price for fast charging. 2. Utility companies leverage their existing customer base. 3. New to the industry firms leverage their brand image to enter the market. 4. Selling below cost is not sustainable. 5. Sharp price distinctions reflect the power balance within the value network. 6. Power plays may result in a fragmented market.

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