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Moreno, David; Ibarra, David; Ballesteros, Mercedes; Ballesteros, Ignacio; González, Alberto (December 12, 2013)[+][-]
Resumen: In this study, the thermotolerant yeast Kluyveromyces marxianus CECT 10875 was compared to Saccharomyces cerevisae Ethanol Red for lignocellulosic ethanol production. For it, whole slurry from steam-exploded wheat straw was used as raw material, and two process configurations, simultaneous saccharification and fermentation (SSF) and presaccharification and simultaneous saccharification and fermentation (PSSF), were evaluated. Compared to S. cerevisiae, which was able to produce ethanol in both process configurations, K. marxianus was practically inhibited, and neither growth nor ethanol production occurred during the processes. However, the prior laccase treatment of the whole slurry, which removed specifically the lignin phenols content from the overall inhibitory compounds present in slurry, triggered the fermentation by k. marxianus, attaining ethanol concentrations and yields comparable to those obtained by S. cerevisiae. URI: http://hdl.handle.net/11034/70 Ficheros en el ítem: 1
Paper Bioresource Technology 2013.pdf (1.477Mb) -
Ballesteros, Mercedes; Saez, Felicia; Ballesteros, Ignacio; Manzanares, Paloma; Oliva, Jose Miguel; Negro, Maria José (December 12, 2013)[+][-]
Resumen: Lignocellulosic biomass offers many potential advantages in comparison with the traditionally used sugars or starchy biomass since it’s vastly available and it does not compete with food and feed production. The abundance and high carbohydrates content of barley straw make it a good candidate for bioethanol production in Europe. Since biomass must be pretreated before enzymatic hydrolysis to improve the digestibility of both the cellulose and the hemicellulose biomass, the use of ionic liquids (IL) has been proposed as an environmental friendly pretreatment of biomass.Different pretreatment conditions were investigated to determine the effects of the experimental conditions (temperature and time) on the enzymatic digestibility of pretreated material. The pretreatment of barley straw with 1-ethyl-3-methyl imidazolium acetate treatment resulted in up to a 9-fold increase in the cellulose conversion and a 13- 22 fold increase in the xylan conversion when compared with the untreated barley straw.Ionic liquid pretreatment of barley straw at 110 ºC for 30 minutes, 24 followed by enzymatic hydrolysis, leads to a sugar yield of 53.5 g/100 g raw material. 25 It’s then ready available for conversion into ethanol and is equivalent to more than 86%from potential sugars. The increase in saccharification was possible due to the rupture in lignin-hemicellulose linkages with treatment of 1-ethyl-3-methyl imidazolium acetate URI: http://hdl.handle.net/11034/73 Ficheros en el ítem: 1
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Alvira, Pablo; Moreno, David; Ibarra, David; Saez, Felicia; Ballesteros, Mercedes (December 12, 2013)[+][-]
Resumen: Operating the saccharification and fermentation processes at high substrate loadings is a key factor for making ethanol production from lignocellulosic biomass economically profitable. However, increasing the substrate loading presents some disadvantages, among them larger generation of inhibitors, which negatively affect fermentation performance. In this study, laccase enzymatic treatment was evaluated as a method to reduce these inhibitory effects. The laccase efficiency was analyzed in a presaccharification and simultaneous saccharification and fermentation process (PSSF) at different high substrate loadings. Water insoluble fraction (WIS) from steam-exploded wheat straw was used as substrate and Saccharomyces cerevisiae as fermenting organism. Laccase supplementation reduced strongly the phenolics content in the media, without affecting weak acids and furan derivates. It resulted in an improved yeast performance during simultaneous saccharification and fermentation process, increasing significantly ethanol productivity. URI: http://hdl.handle.net/11034/71 Ficheros en el ítem: 1
Paper Biotechnolgy Progress 2012.pdf (1.494Mb) -
Duque, Aleta; Manzanares, Paloma; Ballesteros, Ignacio; Negro, Maria José; Oliva, Jose Miguel; Saez, Felicia; Ballesteros, Mercedes (December 12, 2013)[+][-]
Resumen: In this work, an integrated one-step alkaline-extrusion process was tested as pretreatment for sugar production from barley straw (BS) biomass. The influence of extrusion 10 temperature (T) and the ratio NaOH/BS dry matter (w/w) into the extruder on pretreatment effectiveness was investigated in a twin-screw extruder at bench scale . A 23 factorial response surface design of experiments was used to analyze the effect of process conditions [T: 50- 100ºC; NaOH/BS ratio: 2.5-7.5% (w/w)] on composition and enzymatic digestibility of pretreated substrate. The optimization of these process variables for a maximum glucan to 15 glucose conversion was determined to be at 6% NaOH/DM and 68ºC. At these conditions, glucan yield reached close to 90% of theoretical, while xylan conversion was 71 % of theoretical. These values are 5 and 9 times higher than that of the untreated material, which supports the great potential of this one-step combined pre-treatment technology for sugar production from lignocellulosic substrates URI: http://hdl.handle.net/11034/72 Ficheros en el ítem: 1
Paper Process Biochemistry 2013.pdf (130.4Kb)
Mostrando ítems 1-4 de 4