BioEthanol : fuel of the future?

Microbial fermentations are potential producers of sustainable energy carriers. In this study, 68 samples were used for the isolation of ethanol and hydrogen producing bacteria from various carbon substrates from geothermal springs in Iceland. 16S rRNA analysis revealed that most of low temperature...

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Bibliographic Details
Main Author: Hilma Eiðsdóttir Bakken
Other Authors: Háskólinn á Akureyri
Format: Thesis
Language:English
Published: 2009
Subjects:
Líftækni
Meistaraprófsritgerðir
Etanól
Eldsneytisframleiðsla
Orkunýting
Örverur
Iceland
Online Access:http://hdl.handle.net/1946/3107
id ftskemman:oai:skemman.is:1946/3107
record_format openpolar
spelling ftskemman:oai:skemman.is:1946/3107 2023-05-15T16:52:27+02:00 BioEthanol : fuel of the future? Hilma Eiðsdóttir Bakken Háskólinn á Akureyri 2009-06-25T15:27:18Z application/pdf http://hdl.handle.net/1946/3107 en eng http://hdl.handle.net/1946/3107 Líftækni Meistaraprófsritgerðir Etanól Eldsneytisframleiðsla Orkunýting Örverur Thesis Master's 2009 ftskemman 2022-12-11T06:55:54Z Microbial fermentations are potential producers of sustainable energy carriers. In this study, 68 samples were used for the isolation of ethanol and hydrogen producing bacteria from various carbon substrates from geothermal springs in Iceland. 16S rRNA analysis revealed that most of low temperature (50°C) enrichments indicated the presence of bacteria belonging to Thermoanaerobacterium, Caloramator and Clostridium. At higher temperatures (60°C) Thermoanaerobacterium and Thermoanaerobacter became more dominant and at 70 and 75°C only members of the genera Thermoanaerobacter and Caldicellulosiruptor were present. Low temperature enrichments (50°C) produced mainly ethanol, acetate and butyrate from monosugar fermentation and two enrichments produced more than 1.3 mol-EtOH/mol-glucose and two enrichments produced more than 1.0 mol-EtOH/mol xylose. Most of the enrichments that directed their carbon flow to ethanol belong to Caloramator, Paenibacillus and Thermoanaerobacterium. At higher temperatures, several enrichments produced more than 1.0 mol-EtOH/mol-glucose and xylose, especially at 60°C, mostly belonging to Thermoanaerobacter and Thermoanaerobacterium. Butyrate was only detected in one of the 18 enrichments at 60°C and not at higher temperatures. Only one enrichment of a total of 16 at 70 and 75°C produced more than 1.0 mol- EtOH/mol glucose but the carbon flow was directed more towards acetate and hydrogen formation. Seven cultures were investigated further with respect to phylogeny and physiology. Six of the strains belonged to Thermoanaerobacterium and one to Paenibacillus. Basic characteristics concerning Topt and pHopt were performed on all seven strains, indicating that the Thermoanaerobacterium strain grow best at around 60°C and at low pH between 5 and 6. The Paenibacillus strain was a moderate thermophile (Topt; 50°C) and had a pHopt at 8.0. Paenibacillus was the fastest growing bacterium with the shortest generation time of 0.39 h (pHopt) and 0.71 h (Topt). The Thermoanaerobacterium strains showed ... Thesis Iceland Skemman (Iceland)
institution Open Polar
collection Skemman (Iceland)
op_collection_id ftskemman
language English
topic Líftækni
Meistaraprófsritgerðir
Etanól
Eldsneytisframleiðsla
Orkunýting
Örverur
spellingShingle Líftækni
Meistaraprófsritgerðir
Etanól
Eldsneytisframleiðsla
Orkunýting
Örverur
Hilma Eiðsdóttir Bakken
BioEthanol : fuel of the future?
topic_facet Líftækni
Meistaraprófsritgerðir
Etanól
Eldsneytisframleiðsla
Orkunýting
Örverur
description Microbial fermentations are potential producers of sustainable energy carriers. In this study, 68 samples were used for the isolation of ethanol and hydrogen producing bacteria from various carbon substrates from geothermal springs in Iceland. 16S rRNA analysis revealed that most of low temperature (50°C) enrichments indicated the presence of bacteria belonging to Thermoanaerobacterium, Caloramator and Clostridium. At higher temperatures (60°C) Thermoanaerobacterium and Thermoanaerobacter became more dominant and at 70 and 75°C only members of the genera Thermoanaerobacter and Caldicellulosiruptor were present. Low temperature enrichments (50°C) produced mainly ethanol, acetate and butyrate from monosugar fermentation and two enrichments produced more than 1.3 mol-EtOH/mol-glucose and two enrichments produced more than 1.0 mol-EtOH/mol xylose. Most of the enrichments that directed their carbon flow to ethanol belong to Caloramator, Paenibacillus and Thermoanaerobacterium. At higher temperatures, several enrichments produced more than 1.0 mol-EtOH/mol-glucose and xylose, especially at 60°C, mostly belonging to Thermoanaerobacter and Thermoanaerobacterium. Butyrate was only detected in one of the 18 enrichments at 60°C and not at higher temperatures. Only one enrichment of a total of 16 at 70 and 75°C produced more than 1.0 mol- EtOH/mol glucose but the carbon flow was directed more towards acetate and hydrogen formation. Seven cultures were investigated further with respect to phylogeny and physiology. Six of the strains belonged to Thermoanaerobacterium and one to Paenibacillus. Basic characteristics concerning Topt and pHopt were performed on all seven strains, indicating that the Thermoanaerobacterium strain grow best at around 60°C and at low pH between 5 and 6. The Paenibacillus strain was a moderate thermophile (Topt; 50°C) and had a pHopt at 8.0. Paenibacillus was the fastest growing bacterium with the shortest generation time of 0.39 h (pHopt) and 0.71 h (Topt). The Thermoanaerobacterium strains showed ...
author2 Háskólinn á Akureyri
format Thesis
author Hilma Eiðsdóttir Bakken
author_facet Hilma Eiðsdóttir Bakken
author_sort Hilma Eiðsdóttir Bakken
title BioEthanol : fuel of the future?
title_short BioEthanol : fuel of the future?
title_full BioEthanol : fuel of the future?
title_fullStr BioEthanol : fuel of the future?
title_full_unstemmed BioEthanol : fuel of the future?
title_sort bioethanol : fuel of the future?
publishDate 2009
url http://hdl.handle.net/1946/3107
genre Iceland
genre_facet Iceland
op_relation http://hdl.handle.net/1946/3107
_version_ 1766042739140460544

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