Lignocellulosic Bio Fuel Production In Iceland, A System Dynamics Approach.

Iceland is an island with a lot of energy potential in the form of hydro- and geother- mal energy. But still there is enormous amount of fossil fuel imports each year. This posses an enormous economic problem for Iceland as fossil fuels are non renewable and will eventually run out. The paper explor...

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Bibliographic Details
Main Author: Emil Þorvaldsson 1989-
Other Authors: Háskóli Íslands
Format: Master Thesis
Language:English
Published: 2017
Subjects:
Iðnaðarverkfræði
Eldsneytisframleiðsla
Skógar
Líkanagerð
Iceland
Online Access:http://hdl.handle.net/1946/27812
id ftskemman:oai:skemman.is:1946/27812
record_format openpolar
spelling ftskemman:oai:skemman.is:1946/27812 2024-09-15T18:13:08+00:00 Lignocellulosic Bio Fuel Production In Iceland, A System Dynamics Approach. Emil Þorvaldsson 1989- Háskóli Íslands 2017-05 application/pdf http://hdl.handle.net/1946/27812 en eng http://hdl.handle.net/1946/27812 Iðnaðarverkfræði Eldsneytisframleiðsla Skógar Líkanagerð Thesis Master's 2017 ftskemman 2024-08-14T04:39:51Z Iceland is an island with a lot of energy potential in the form of hydro- and geother- mal energy. But still there is enormous amount of fossil fuel imports each year. This posses an enormous economic problem for Iceland as fossil fuels are non renewable and will eventually run out. The paper explores the possibility of utilizing Wood grown in Iceland through the process of pyrolysis and upgrading of the pyrolysis products with current known technology and product yields. A literary review conducted on the topic focusing on the production of fuels, showed that 400 t / d facility utilizing a fluidizing bed reactor, where the pyrolysis products would then be upgraded into fuels through further processing. Expanding on a forestry model proposed by Sverdrup and Ólafsdóttir (2017) and assuming that all grassland in Iceland is rigth for forestry, We conclude that maxi- mum utilization of a 400 t / d would at the earliest be in the year 2050, if all of the wood harvested in Iceland would go through the process. The latest would be in the year 2063 if 30 % of all harvested wood would be utilized. Maximum yields amount to 49 thousand metric tons of fuel. This amounts to around 10% of the current total fossil fuel use in Iceland. These results are promissing, as they show that it is indeed possible to produce fuel for native wood in Iceland. but further reasearch is needed as to what other possible sources could be utilized to satisfy fuel demand. Á Íslandi eru miklir möguleikar er kemur að endurnýjanlegri orku. Áræðni á óendurný- janlega orkugjafa valda þó miklum efnahagslegum erfiðleikum fyrir ísland, þar sem upp- spretta þeirra mun á endanum klárast. Þessi ritgerð skoðar möguleikan á nýtingu íslensk viðar til framleiðslu á lífeldsneyti með núverandi tækni og afköstum. Ritrýni leiddi í ljós að möguleikar eru á framleiðslu uppá 400 t / d . Niðurstaða útreikninga með hliðsjónar af skógræktarmódeli sem lýst var af Sverdrup and Ólafsdóttir (2017) með þeirri viðbót að gert er ráð fyrir að allt graslendi á íslandi er ... Master Thesis Iceland Skemman (Iceland)
institution Open Polar
collection Skemman (Iceland)
op_collection_id ftskemman
language English
topic Iðnaðarverkfræði
Eldsneytisframleiðsla
Skógar
Líkanagerð
spellingShingle Iðnaðarverkfræði
Eldsneytisframleiðsla
Skógar
Líkanagerð
Emil Þorvaldsson 1989-
Lignocellulosic Bio Fuel Production In Iceland, A System Dynamics Approach.
topic_facet Iðnaðarverkfræði
Eldsneytisframleiðsla
Skógar
Líkanagerð
description Iceland is an island with a lot of energy potential in the form of hydro- and geother- mal energy. But still there is enormous amount of fossil fuel imports each year. This posses an enormous economic problem for Iceland as fossil fuels are non renewable and will eventually run out. The paper explores the possibility of utilizing Wood grown in Iceland through the process of pyrolysis and upgrading of the pyrolysis products with current known technology and product yields. A literary review conducted on the topic focusing on the production of fuels, showed that 400 t / d facility utilizing a fluidizing bed reactor, where the pyrolysis products would then be upgraded into fuels through further processing. Expanding on a forestry model proposed by Sverdrup and Ólafsdóttir (2017) and assuming that all grassland in Iceland is rigth for forestry, We conclude that maxi- mum utilization of a 400 t / d would at the earliest be in the year 2050, if all of the wood harvested in Iceland would go through the process. The latest would be in the year 2063 if 30 % of all harvested wood would be utilized. Maximum yields amount to 49 thousand metric tons of fuel. This amounts to around 10% of the current total fossil fuel use in Iceland. These results are promissing, as they show that it is indeed possible to produce fuel for native wood in Iceland. but further reasearch is needed as to what other possible sources could be utilized to satisfy fuel demand. Á Íslandi eru miklir möguleikar er kemur að endurnýjanlegri orku. Áræðni á óendurný- janlega orkugjafa valda þó miklum efnahagslegum erfiðleikum fyrir ísland, þar sem upp- spretta þeirra mun á endanum klárast. Þessi ritgerð skoðar möguleikan á nýtingu íslensk viðar til framleiðslu á lífeldsneyti með núverandi tækni og afköstum. Ritrýni leiddi í ljós að möguleikar eru á framleiðslu uppá 400 t / d . Niðurstaða útreikninga með hliðsjónar af skógræktarmódeli sem lýst var af Sverdrup and Ólafsdóttir (2017) með þeirri viðbót að gert er ráð fyrir að allt graslendi á íslandi er ...
author2 Háskóli Íslands
format Master Thesis
author Emil Þorvaldsson 1989-
author_facet Emil Þorvaldsson 1989-
author_sort Emil Þorvaldsson 1989-
title Lignocellulosic Bio Fuel Production In Iceland, A System Dynamics Approach.
title_short Lignocellulosic Bio Fuel Production In Iceland, A System Dynamics Approach.
title_full Lignocellulosic Bio Fuel Production In Iceland, A System Dynamics Approach.
title_fullStr Lignocellulosic Bio Fuel Production In Iceland, A System Dynamics Approach.
title_full_unstemmed Lignocellulosic Bio Fuel Production In Iceland, A System Dynamics Approach.
title_sort lignocellulosic bio fuel production in iceland, a system dynamics approach.
publishDate 2017
url http://hdl.handle.net/1946/27812
genre Iceland
genre_facet Iceland
op_relation http://hdl.handle.net/1946/27812
_version_ 1810450691908435968

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