Battery swap system for light electric vehicles
Rantanen, Verneri (2024)
2024
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Julkaisun pysyvä osoite on
https://urn.fi/URN:NBN:fi:amk-2024061122899
https://urn.fi/URN:NBN:fi:amk-2024061122899
Tiivistelmä
Our current transportation causes lot of emissions and renewables like solar and wind power aren’t stable enough as energy sources. When we increase wind production how are we going to store excess energy? There are some battery storage projects and prototypes of battery swapping but combining these two systems would be most beneficial.
In this thesis there is research about environmental impacts, grid connection and battery swap system power electronics. Purpose of this thesis is to increase my knowledge of power electronics and to provide material to get funding for my company. This thesis is therefore made for my company Necaemission.
Environmental impact assessment was made with using many sources, electrical grid connection part was made with using my own thinking about problems with current system with sources to check my thinking and power electronics part with my own understanding, using academic papers and trying many things and figuring things as I went on.
Results show that this battery swap system could reduce emissions in transport and energy production sectors. This system can also increase electrical grid resiliency and reduce energy price peaks. Results for power electronics also look good and it show what basic components are needed to have bidirectional and good quality electricity.
In this thesis there is research about environmental impacts, grid connection and battery swap system power electronics. Purpose of this thesis is to increase my knowledge of power electronics and to provide material to get funding for my company. This thesis is therefore made for my company Necaemission.
Environmental impact assessment was made with using many sources, electrical grid connection part was made with using my own thinking about problems with current system with sources to check my thinking and power electronics part with my own understanding, using academic papers and trying many things and figuring things as I went on.
Results show that this battery swap system could reduce emissions in transport and energy production sectors. This system can also increase electrical grid resiliency and reduce energy price peaks. Results for power electronics also look good and it show what basic components are needed to have bidirectional and good quality electricity.