Förnybar energi på Svalbard
This degree thesis investigates the possibilities of producing food inside a container at Svalbard, using renewable energy and energy storage. The idea was to be able to place the container at remote places without the need of being connected to the grid. We chose Svalbard, where it is cold and the...
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Högskolan i Halmstad, Akademin för ekonomi, teknik och naturvetenskap
2018
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ndltd-UPSALLA1-oai-DiVA.org-hh-368782018-06-08T05:19:59ZFörnybar energi på SvalbardsweAndreasson, TobiasLindh, EmeliaHögskolan i Halmstad, Akademin för ekonomi, teknik och naturvetenskapHögskolan i Halmstad, Akademin för ekonomi, teknik och naturvetenskap2018off gridcontainerfoodrenewableenergystoragebatteriesFutufarm ABLeafy Green MachineSvalbardphotovoltaicswindpowerPVsystMatlabfutureFörnybarenergiSvalbardsolcellervindkraftkalltklimatodlinghydroponisktrackingmidnattssolpolarnattLongyearbyencontainerhållbarhybridelnätframtidFutufarm ABsjälvförsörjandeenergikällorenergilagringbatterilagringeffektutjämningPVsystMatlabEnergy SystemsEnergisystemThis degree thesis investigates the possibilities of producing food inside a container at Svalbard, using renewable energy and energy storage. The idea was to be able to place the container at remote places without the need of being connected to the grid. We chose Svalbard, where it is cold and the sun is shining 24 hours a day at summertime. In the winter the opposite occurs and the sun is absent from the sky. The work is divided into theoretical studies and results based on different calculations. Such as economical evaluations (LCOE), and simulations using the computer programs Matlab and PVsyst. We have investigated if solar power and wind power is suitable as energy sources. Options for storage were batteries, grid and hydrogen storage. Different cases with Photovoltaics- and wind power plants, with batteries or grid, were compared against each other. It is not possible to use the grid as storage. This resulted in different sizing of our cases, with no excess energy production. The result showed that a 5 kWp photvoltaic plant with dual axis tracking system, was the most profitable. The Pay off would be 14 years and the total profit 63 453 SEK. If it will become possible in the future to use the grid at Svalbard as storage, it will open up opportunites for bigger systems. This will lead to higher profit than with smaller ones. Our results show that it is now most profitable with solar power. Student thesisinfo:eu-repo/semantics/bachelorThesistexthttp://urn.kb.se/resolve?urn=urn:nbn:se:hh:diva-36878application/pdfinfo:eu-repo/semantics/openAccess |
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Swedish |
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off grid container food renewable energy storage batteries Futufarm AB Leafy Green Machine Svalbard photovoltaics windpower PVsyst Matlab future Förnybar energi Svalbard solceller vindkraft kallt klimat odling hydroponisk tracking midnattssol polarnatt Longyearbyen container hållbar hybrid elnät framtid Futufarm AB självförsörjande energikällor energilagring batterilagring effektutjämning PVsyst Matlab Energy Systems Energisystem |
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off grid container food renewable energy storage batteries Futufarm AB Leafy Green Machine Svalbard photovoltaics windpower PVsyst Matlab future Förnybar energi Svalbard solceller vindkraft kallt klimat odling hydroponisk tracking midnattssol polarnatt Longyearbyen container hållbar hybrid elnät framtid Futufarm AB självförsörjande energikällor energilagring batterilagring effektutjämning PVsyst Matlab Energy Systems Energisystem Andreasson, Tobias Lindh, Emelia Förnybar energi på Svalbard |
description |
This degree thesis investigates the possibilities of producing food inside a container at Svalbard, using renewable energy and energy storage. The idea was to be able to place the container at remote places without the need of being connected to the grid. We chose Svalbard, where it is cold and the sun is shining 24 hours a day at summertime. In the winter the opposite occurs and the sun is absent from the sky. The work is divided into theoretical studies and results based on different calculations. Such as economical evaluations (LCOE), and simulations using the computer programs Matlab and PVsyst. We have investigated if solar power and wind power is suitable as energy sources. Options for storage were batteries, grid and hydrogen storage. Different cases with Photovoltaics- and wind power plants, with batteries or grid, were compared against each other. It is not possible to use the grid as storage. This resulted in different sizing of our cases, with no excess energy production. The result showed that a 5 kWp photvoltaic plant with dual axis tracking system, was the most profitable. The Pay off would be 14 years and the total profit 63 453 SEK. If it will become possible in the future to use the grid at Svalbard as storage, it will open up opportunites for bigger systems. This will lead to higher profit than with smaller ones. Our results show that it is now most profitable with solar power. |
author |
Andreasson, Tobias Lindh, Emelia |
author_facet |
Andreasson, Tobias Lindh, Emelia |
author_sort |
Andreasson, Tobias |
title |
Förnybar energi på Svalbard |
title_short |
Förnybar energi på Svalbard |
title_full |
Förnybar energi på Svalbard |
title_fullStr |
Förnybar energi på Svalbard |
title_full_unstemmed |
Förnybar energi på Svalbard |
title_sort |
förnybar energi på svalbard |
publisher |
Högskolan i Halmstad, Akademin för ekonomi, teknik och naturvetenskap |
publishDate |
2018 |
url |
http://urn.kb.se/resolve?urn=urn:nbn:se:hh:diva-36878 |
work_keys_str_mv |
AT andreassontobias fornybarenergipasvalbard AT lindhemelia fornybarenergipasvalbard |
_version_ |
1718693211793260544 |