Emergency Electric Vehicle Power Bank
Shevtsov, Evgeny (2020)
2020
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Julkaisun pysyvä osoite on
https://urn.fi/URN:NBN:fi:amk-2020060717529
https://urn.fi/URN:NBN:fi:amk-2020060717529
Tiivistelmä
The thesis gives an overview to the electric vehicle (EV) market and an analysis of their impact on the environment and points out not only the advantages of electric cars, but also the disadvantages that the consumer is faced with. In terms of the environment, real explanations and examples are given that point to the benefits of EVs, as well as the dangers that lie behind battery manufacturing. This shows also the outlook for the market of batteries. The costs of the implementation of this project were economically justified so that the system would be useful for the fuel companies, battery makers and consumers.
Then, the basic concept of an EV, the necessary components for its production and the control systems are explained. It also introduces the current situation on the EV market and shows existing technologies and modules to create a network that could help the owner of the EV car to get his or her car instantly charged.
The last part is about calculations, modelling and simulating of the electrical vehicle system. It examines the methods of turning an ordinary fully electric vehicle into a truly mobile EV. The theoretical part of the thesis includes capacity and power consumption calculations as well as a selection and design of the components. As a result, possible solutions were designed.
Then, the basic concept of an EV, the necessary components for its production and the control systems are explained. It also introduces the current situation on the EV market and shows existing technologies and modules to create a network that could help the owner of the EV car to get his or her car instantly charged.
The last part is about calculations, modelling and simulating of the electrical vehicle system. It examines the methods of turning an ordinary fully electric vehicle into a truly mobile EV. The theoretical part of the thesis includes capacity and power consumption calculations as well as a selection and design of the components. As a result, possible solutions were designed.