Förutsättningar att utforma stationsbatterier i vattenkraftverk med Li-jonteknik

In hydropower plants it is necessary to always have local power supply. Therefore, the plants are equipped with batteries as stationary back up power. Vattenfall Vattenkraft is using lead acid batteries but has been investigating alternatives to replace them. The aim of this study is to investigate...

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Bibliographic Details
Main Author: Andersson, Sara
Format: Others
Language:Swedish
Published: Uppsala universitet, Oorganisk kemi 2015
Subjects:
Online Access:http://urn.kb.se/resolve?urn=urn:nbn:se:uu:diva-255716
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spelling ndltd-UPSALLA1-oai-DiVA.org-uu-2557162015-06-19T05:05:48ZFörutsättningar att utforma stationsbatterier i vattenkraftverk med Li-jontekniksweAndersson, SaraUppsala universitet, Oorganisk kemi2015Li-jonteknikLi-jonbatteriLi-jonstationsbatterierreservkraftIn hydropower plants it is necessary to always have local power supply. Therefore, the plants are equipped with batteries as stationary back up power. Vattenfall Vattenkraft is using lead acid batteries but has been investigating alternatives to replace them. The aim of this study is to investigate the potential of using Li-ion technology as back up power. The study showed that Li-ion batteries have many qualities. The Li-ion technology will decrease the space and maintenance demand. The technology also eliminates many of the personal safety risks that lead acid batteries may cause. Unfortunately overcharging or overheating the Li-ion battery may result in fire or explosion. Those risks are reduced by an electronic battery management system and mechanical protection. The result from the cost comparison between the two battery technologies showed that the maintenance costs decreases with 70 % when using Li-ion battery. The purchase cost of Li-ion batteries is almost three times higher compared to lead acid batteries. But prices will probably drop drastically in the coming years. According to this study Li-ion has great potential to replace the lead acid battery.  Vattenfall Vattenkraft should wait until the technology develops further and prices decrease before any larger installations are made. But small installations should be considered in order to get more experience of the technology.   Student thesisinfo:eu-repo/semantics/bachelorThesistexthttp://urn.kb.se/resolve?urn=urn:nbn:se:uu:diva-255716UPTEC ES, 1650-8300 ; 15017application/pdfinfo:eu-repo/semantics/openAccess
collection NDLTD
language Swedish
format Others
sources NDLTD
topic Li-jonteknik
Li-jonbatteri
Li-jon
stationsbatterier
reservkraft
spellingShingle Li-jonteknik
Li-jonbatteri
Li-jon
stationsbatterier
reservkraft
Andersson, Sara
Förutsättningar att utforma stationsbatterier i vattenkraftverk med Li-jonteknik
description In hydropower plants it is necessary to always have local power supply. Therefore, the plants are equipped with batteries as stationary back up power. Vattenfall Vattenkraft is using lead acid batteries but has been investigating alternatives to replace them. The aim of this study is to investigate the potential of using Li-ion technology as back up power. The study showed that Li-ion batteries have many qualities. The Li-ion technology will decrease the space and maintenance demand. The technology also eliminates many of the personal safety risks that lead acid batteries may cause. Unfortunately overcharging or overheating the Li-ion battery may result in fire or explosion. Those risks are reduced by an electronic battery management system and mechanical protection. The result from the cost comparison between the two battery technologies showed that the maintenance costs decreases with 70 % when using Li-ion battery. The purchase cost of Li-ion batteries is almost three times higher compared to lead acid batteries. But prices will probably drop drastically in the coming years. According to this study Li-ion has great potential to replace the lead acid battery.  Vattenfall Vattenkraft should wait until the technology develops further and prices decrease before any larger installations are made. But small installations should be considered in order to get more experience of the technology.  
author Andersson, Sara
author_facet Andersson, Sara
author_sort Andersson, Sara
title Förutsättningar att utforma stationsbatterier i vattenkraftverk med Li-jonteknik
title_short Förutsättningar att utforma stationsbatterier i vattenkraftverk med Li-jonteknik
title_full Förutsättningar att utforma stationsbatterier i vattenkraftverk med Li-jonteknik
title_fullStr Förutsättningar att utforma stationsbatterier i vattenkraftverk med Li-jonteknik
title_full_unstemmed Förutsättningar att utforma stationsbatterier i vattenkraftverk med Li-jonteknik
title_sort förutsättningar att utforma stationsbatterier i vattenkraftverk med li-jonteknik
publisher Uppsala universitet, Oorganisk kemi
publishDate 2015
url http://urn.kb.se/resolve?urn=urn:nbn:se:uu:diva-255716
work_keys_str_mv AT anderssonsara forutsattningarattutformastationsbatterierivattenkraftverkmedlijonteknik
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