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秸秆发酵燃料乙醇关键问题及其进展 总被引:2,自引:0,他引:2
利用木质纤维素原料生产燃料乙醇是国际公认的难题.本文从秸秆原料组分不均一性出发,分析了秸秆难以高值化原因;进一步分析了秸秆酶解发酵燃料乙醇的关键问题,介绍了有关秸秆原料预处理、纤维素酶生产、秸秆酶解发酵乙醇和产业化示范工程等的进展.秸秆酶解发酵燃料乙醇产业化示范工程具有自主知识产权,为实现我国秸秆转化燃料乙醇的规模化、产业化、低成本生产奠定了基础. 相似文献
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秸秆发酵燃料乙醇关键问题及其进展 总被引:3,自引:0,他引:3
利用木质纤维素原料生产燃料乙醇是国际公认的难题。本文从秸秆原料组分不均一性出发,分析了秸秆难以高值化原因;进一步分析了秸秆酶解发酵燃料乙醇的关键问题,介绍了有关秸秆原料预处理、纤维素酶生产、秸秆酶解发酵乙醇和产业化示范工程等的进展。秸秆酶解发酵燃料乙醇产业化示范工程具有自主知识产权,为实现我国秸秆转化燃料乙醇的规模化、产业化、低成本生产奠定了基础。 相似文献
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秸秆发酵燃料乙醇关键问题及其进展 总被引:1,自引:0,他引:1
利用木质纤维素原料生产燃料乙醇是国际公认的难题.本文从秸秆原料组分不均一性出发,分析了秸秆难以高值化原因;进一步分析了秸秆酶解发酵燃料乙醇的关键问题,介绍了有关秸秆原料预处理、纤维素酶生产、秸秆酶解发酵乙醇和产业化示范工程等的进展.秸秆酶解发酵燃料乙醇产业化示范工程具有自主知识产权,为实现我国秸秆转化燃料乙醇的规模化、产业化、低成本生产奠定了基础. 相似文献
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Sweet Sorghum as Feedstock for Ethanol Production: Enzymatic Hydrolysis of Steam-Pretreated Bagasse 总被引:1,自引:0,他引:1
Bálint Sipos Jutka Réczey Zsolt Somorai Zsófia Kádár Dóra Dienes Kati Réczey 《Applied biochemistry and biotechnology》2009,153(1-3):151-162
Sweet sorghum is an attractive feedstock for ethanol production. The juice extracted from the fresh stem is composed of sucrose, glucose, and fructose and can therefore be readily fermented to alcohol. The solid fraction left behind, the so-called bagasse, is a lignocellulosic residue which can also be processed to ethanol. The objective of our work was to test sweet sorghum, the whole crop, as a potential raw material of ethanol production, i.e., both the extracted sugar juice and the residual bagasse were tested. The juice was investigated at different harvesting dates for sugar content. Fermentability of juices extracted from the stem with and without leaves was compared. Sweet sorghum bagasse was steam-pretreated using various pretreatment conditions (temperatures and residence times). Efficiency of pretreatments was characterized by the degree of cellulose hydrolysis of the whole pretreated slurry and the separated fiber fraction. Two settings of the studied conditions (190 °C, 10 min and 200 °C, 5 min) were found to be efficient to reach conversion of 85–90%. 相似文献
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Ethanol production from pretreated olive tree wood and sunflower stalks by an SSF process 总被引:2,自引:0,他引:2
Encarnación Ruiz Cristóbal Cara Mercedes Ballesteros Paloma Manzanares Ignacio Ballesteros Eulogio Castro 《Applied biochemistry and biotechnology》2006,130(1-3):631-643
Olive tree wood and sunflower stalks are agricultural residues largely available at low cost in Mediterranean countries. As
renewable lignocellulosic materials, their bioconversion may allow both obtaining a value-added product, for fuel ethanol,
and facilitating their elimination. In this work, the ethanol production from olive tree wood and sunflower stalks by a simultaneous
saccharification and fermentation (SSF) process is studied. As a pretreatment, steam explosion at different temperatures was
applied. The water insoluble fractions of steam-pretreated sunflower stalks and steamed, delignified olive tree wood were
used as substrates at 10% w/v concentration for an SSF process by a cellulolytic commercial complex and Saccharomyces cerevisiae. After 72-h fermentation, ethanol concentrations up to 30 g/L were obtained in delignified steam-pretreated olive tree wood
at 230°C and 5 min. Sunflower stalks pretretated at 220°C and 5 min gave maximum ethanol concentrations of 21 g/L in SSF experiments. 相似文献
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Sarita C. Rabelo Rubens Maciel Filho Aline C. Costa 《Applied biochemistry and biotechnology》2013,169(5):1696-1712
Sugarcane bagasse was subjected to lime (calcium hydroxide) pretreatment and enzymatic hydrolysis for second-generation ethanol production. A central composite factorial design was performed to determine the best combination of pretreatment time, temperature, and lime loading, as well as to evaluate the influence of enzymatic loadings on hydrolysis conversion. The influence of increasing solids loading in the pretreatment and enzymatic hydrolysis stages was also determined. The hydrolysate was fermented using Saccharomyces cerevisiae in batch and continuous mode. In the continuous fermentation, the hydrolysates were concentrated with molasses. Lime pretreatment significantly increased the enzymatic digestibility of sugarcane bagasse without the need for prior particle size reduction. In the optimal pretreatment conditions (90 h, 90 °C, 0.47 g?lime/g bagasse) and industrially realistic conditions of hydrolysis (12.7 FPU/g of cellulase and 7.3 CBU/g of β-glucosidase), 139.6 kg?lignin/ton raw bagasse and 126.0 kg hemicellulose in the pretreatment liquor per ton raw bagasse were obtained. The hydrolysate from lime pretreated sugarcane bagasse presented low amounts of inhibitors, leading to ethanol yield of 164.1 kg?ethanol/ton raw bagasse. 相似文献
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生物预处理对甘蔗渣转化的影响 总被引:1,自引:0,他引:1
为了研究不同种类产纤维素酶的菌株降解甘蔗渣的效果,结合已得出的最佳化学预处理方法,利用枯草芽孢杆菌、绿色木霉和烟曲霉三种高产纤维素酶的菌株对甘蔗渣进行生物预处理,比较降解效果;并用腺嘌呤缺陷型和非缺陷型酵母进行发酵,比较乙醇产量。结果表明:分解10 g甘蔗渣,枯草芽孢杆菌组还原糖产量为427.56 mg,绿色木霉组还原糖产量为887.36 mg,烟曲霉组还原糖产量为982.84mg。相同还原糖含量的烟曲霉组和绿色木霉组滤液用腺嘌呤缺陷型酵母发酵时,在27℃发酵25.5 h,乙醇浓度达到最高值,绿色木霉组为5.4%,烟曲霉组为5.5%。在三种产纤维素酶菌株中,烟曲霉降解甘蔗渣的效果最好。 相似文献
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纤维素乙醇产业化 总被引:5,自引:0,他引:5
由于能发挥缓解能源紧张、减少环境污染、促进农村发展等重要作用,利用年产量巨大的植物纤维资源,生产可再生性液体替代燃料乙醇的技术受到了巨大的关注,成为工业生物技术的研究热点。酶法生产纤维素乙醇面临多种困难:纤维素原料比重轻,收集运输不便;原料结构复杂,需要深度预处理;纤维素酶系的酶解效率有待提高;半纤维素中的木糖难以发酵转化为乙醇等。经过多年研究,新技术已经取得重大进展,开始接近实用化。紧迫的社会需求正在迫使国内外政府和企业界大量投资,开展纤维素乙醇的中试研究和试生产,力求在短时期内克服上述难点,尽快实现产业化。充分利用植物纤维资源中的多种组分,联合生产乙醇和部分高值产品的生物精练技术,是实现纤维素乙醇产业化的重要突破口和必然途径。玉米芯生物精练生产乙醇和木糖相关产品的技术正在进行产业化。本文综述了纤维素乙醇产业化的研究进展并做了展望。 相似文献
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Ryosuke Yamada Kazunori Nakashima Nanami Asai-Nakashima Wataru Tokuhara Nobuhiro Ishida Satoshi Katahira Noriho Kamiya Chiaki Ogino Akihiko Kondo 《Applied biochemistry and biotechnology》2017,182(1):229-237
Among the many types of lignocellulosic biomass pretreatment methods, the use of ionic liquids (ILs) is regarded as one of the most promising strategies. In this study, the effects of four kinds of ILs for pretreatment of lignocellulosic biomass such as bagasse, eucalyptus, and cedar were evaluated. In direct ethanol fermentation from biomass incorporated with ILs by cellulase-displaying yeast, 1-butyl-3-methylimidazolium acetate ([Bmim][OAc]) was the most effective IL. The ethanol production and yield from [Bmim][OAc]-pretreated bagasse reached 0.81 g/L and 73.4% of the theoretical yield after fermentation for 96 h. The results prove the initial concept, in which the direct fermentation from lignocellulosic biomass effectively promoted by the pretreatment with IL. 相似文献
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以γ-丁内酯为溶剂,研究了Hβ分子筛催化富含蔗糖、葡萄糖和果糖的甜高粱秆汁转化制呋喃类化合物(5-羟甲基糠醛或糠醛)的性能。结果表明,甜高粱秆汁在Hβ分子筛上主要转化为5-羟甲基糠醛,而含糖量相同的模型甜高粱秆汁在相同的反应条件下,主要产物却是糠醛。27Al 固体核磁结果表明,甜高粱秆汁中的微量碱性金属钾等能与Hβ分子筛发生离子交换,导致Hβ分子筛上六配位铝转变为四配位铝;因为六碳糖生成糠醛需要Hβ分子筛上具备合适的铝配位环境,而离子交换引起铝配位状态的变化,导致了甜高粱秆汁在Hβ分子筛上的主要产物是5-羟甲基糠醛。 相似文献
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Ma José Negro Ignacio Ballesteros Paloma Manzanares José Miguel Oliva Felicia Sáez Mercedes Ballesteros 《Applied biochemistry and biotechnology》2006,132(1-3):922-932
The use of stalks instead of tubers as a source of carbohydrates for ethanol production has been investigated. The inulin
present in the stalks of Jerusalem artichoke was extracted with water and the effect of solid-liquid ratio, temperature, and
acid addition was studied and optimized in order to attain a high-fructose fermentable extract. The maximum extraction efficiency
(corresponding to 35 g/L) of soluble sugars was obtained at 1/6 solidliquid ratio.
Fermentations of hydrolyzed extracts by baker's yeast and direct fermentation by an inulinease activity yeast were also performed
and the potential to use this feedstock for bioethanol production assessed. The results show that the carbohydrates derived
from Jerusalem artichoke stalks can be converted efficiently to ethanol by acidic hydrolysis followed by fermentation with
Saccharomyces cerevisiae or by direct fermentation of inulin using Kluyveromyces marxianus strains. In this last case about 30 h to complete fermentation was required in comparison with 8–9 h obtained in experiments
with S. cerevisiae growth on acid extracted juices. 相似文献
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The present work presents an alternative approach to ethanol production from sweet sorghum: without detoxification, acid-impregnated
fresh sweet sorghum stem which contains soluble (glucose and sucrose) and insoluble carbohydrates (cellulose and hemicellulose)
was steam pretreated under mild temperature of 100 °C. Simultaneous saccharification and fermentation experiments were performed
on the pretreated slurries using Saccharomyces cerevisiae. Experimentally, ground fresh sweet sorghum stem was combined with H2SO3 at dosages of 0.25, 0.50, and 0.75 g/g dry matter (DM) and steam pretreated by varying the residence time (60, 120, or 240 min).
According to enzymatic hydrolysis results and ethanol yields, H2SO3 was a powerful and mild acid for improving enzymatic digestibility of sorghum stem. At a solid loading of 10% (w/v) and acid dosage of 0.25 g/g DM H2SO3 at 100 °C for 120 min, 44.5 g/L ethanol was obtained after 48 ± 4 h of simultaneous saccharification and fermentation. This
corresponded to an overall ethanol yield of 110% of the theoretical one, based on the soluble carbohydrates in the fresh sweet
sorghum stem. The concentrations of hydroxymethylfurfural and furfural of the sulfurous acid pretreated samples were below
0.4 g/L. Ethanol would not inhibit the cellulase activity, at least under the concentration of 34 g/L. 相似文献