Jan Eric Jessen scite author profile

Jan Eric Jessen

3Publications

33Citation Statements Received

75Citation Statements Given

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University of Akureyri

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Production of Ethanol from Sugars and Lignocellulosic Biomass byThermoanaerobacterJ1 Isolated from a Hot Spring in Iceland

Jessen

Örlygsson

2012

Journal of Biomedicine and Biotechnology

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Thermophilic bacteria have gained increased attention as candidates for bioethanol production from lignocellulosic biomass. This study investigated ethanol production by Thermoanaerobacter strain J1 from hydrolysates made from lignocellulosic biomass in batch cultures. The effect of increased initial glucose concentration and the partial pressure of hydrogen on end product formation were examined. The strain showed a broad substrate spectrum, and high ethanol yields were observed on glucose (1.70 mol/mol) and xylose (1.25 mol/mol). Ethanol yields were, however, dramatically lowered by adding thiosulfate or by cocultivating strain J1 with a hydrogenotrophic methanogen with acetate becoming the major end product. Ethanol production from 4.5 g/L of lignocellulosic biomass hydrolysates (grass, hemp stem, wheat straw, newspaper, and cellulose) pretreated with acid or alkali and the enzymes Celluclast and Novozymes 188 was investigated. The highest ethanol yields were obtained on cellulose (7.5 mM·g−1) but the lowest on straw (0.8 mM·g−1). Chemical pretreatment increased ethanol yields substantially from lignocellulosic biomass but not from cellulose. The largest increase was on straw hydrolysates where ethanol production increased from 0.8 mM·g−1 to 3.3 mM·g−1 using alkali-pretreated biomass. The highest ethanol yields on lignocellulosic hydrolysates were observed with hemp hydrolysates pretreated with acid, 4.2 mM·g−1.

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Effect of culture conditions on hydrogen production by Thermoanaerobacter strain AK68

Vipotnik

Jessen

Scully

et al. 2016

International Journal of Hydrogen Energy

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Ethanol production by a Paenibacillus species isolated from an Icelandic hot spring – Production yields from complex biomass

Jessen¹,

Sveinsson²,

Scully³

et al. 2015

IAS

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Ethanol production using Paenibacillus strain J2 was studied on carbohydrates and lignocellulosic biomass hydrolysates including grass (Phleum pratense) and barley straw (Hordeum vulgare). The strain has a broad substrate spectrum; fermentation of glucose yielded ethanol (major product), acetate, butyrate (minor), hydrogen, and carbon dioxide. At glucose concentrations below 30 mM fermentation was not inhibited. Higher substrate loadings resulted in decreased glucose utilization and a shift of end products towards butyrate. The maximum yields of ethanol were 1.45 mol ethanol mol glucose -1 . The end products from lignocellulosic (4.5 g L -1 dw) biomass hydrolysates pretreated with 0.5% HCl or NaOH (control was unpretreated) prior to cellulase treatment were investigated. Ethanol production from cellulose hydrolysates without chemical pre-treatment yielded 5.5 mM ethanol g -1 with lower yields from paper and lignocellulosic biomasses (1.2-1.7 mM g -1 ). Ethanol production was enhanced by dilute acid or base pre-treatment combined with enzymatic treatment with the highest yields from grass (3.2 mM ethanol g -1 ).Key words: Bioethanol, Lignocellulosic biomass, Paenibacillus, Thermophiles YFIRLIT Etanól framleiðsla hjá Paenibacillus, stofni J2 var rannsakaður á sykrum og hýdrólýstötum úr flóknum lífmassa, m.a. vallarfoxgrasi (Phleum pratense) og hveitihálmi (Hordeum vulgare). Stofninn var með breytt hvarfefnasvið; gerjun á glúkósa leiddi til myndunar á etanóli (meginafurð), ediksýru, smjörsýru, vetnis og koltvísýrings. Of hár upphafsstyrkur (> 30 mM) glúkósa leiddi til hindrunar á niðurbroti hans og aukinnar framleiðslu á smjörsýru. Hámarksframleiðsla á etanóli var 1.45 mól etanól mól glúkósa -1 . Lokaafurðir úr hýdrólýsötum úr flóknum lífmassa (4.5 g L -1 þurrvigt) sem var formeðhöndlaður með annað hvort 0.5% HCl eða NaOH auk sellulasa meðhöndlunar var rannsökuð. Etanól framleiðsla úr sellulósa án efnafraeðilegrar formeðhöndlunar gaf af sér 5.5 mM etanól g -1 en minni nýting var á pappír og flóknum lífmassa (1.2-1.7 mM g -1 ). Etanólframleiðsla á grasi jókst með sýru-og basameðhöndlun ásamt ensímformeðhöndlun, en hámarksnýting var 3.2 mM etanól g -1 .www.ias.is http://dx

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Jan Eric Jessen

Production of Ethanol from Sugars and Lignocellulosic Biomass byThermoanaerobacterJ1 Isolated from a Hot Spring in Iceland

Effect of culture conditions on hydrogen production by Thermoanaerobacter strain AK68

Ethanol production by a Paenibacillus species isolated from an Icelandic hot spring – Production yields from complex biomass

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