玉米秸秆湿氧化预处理同步糖化发酵酒精

为了找到适合的玉米秸秆生产酒精工艺,该文采用碱性湿氧化预处理（195℃,15 min,Na2CO3 2 g/L,O2 1 200 kPa）与同步糖化发酵对玉米秸秆制备酒精进行了研究。结果表明：经过预处理,90%纤维素保留在固体中,回收率为95.87%。固体部分利用纤维素酶处理,在50℃ 24 h酶解率达到了67.6%。底物8%（质量分数）,经过142 h同步糖化发酵,酒精产量达到了理论酒精产量的79.0%。假定五碳糖和六碳糖都能够被利用,相当于1 t玉米秸秆能够产生262.7 kg的酒精。发酵过程中没有明显的抑制作用。该文为玉米秸秆发酵生产酒精提供了试验数据。     

汽爆玉米秸秆同步糖化发酵产乙醇的工艺优化

该文对同步糖化发酵玉米秸秆生产纤维乙醇的工艺条件进行了研究,分别利用单因素试验和正交试验考察了影响发酵的工艺条件。结果显示：温度37℃、pH值4.8、底物15%（质量分数）、表面活性剂Tween-20 0.15%（质量分数）、纤维素酶用量30 U/g、酵母用2%的葡萄糖溶液活化,接种量5‰（相对底物干质量）、培养基的组成：KH2PO4 2.5 g/L,(NH4)2SO4 2.0 g/L,MgSO4·7H2O 0.15 g/L,CaCl2 0.35 g/L、发酵时间60 h为同步糖化发酵（SSF）生产乙醇的最优工艺条件,该条件下乙醇的体积分数为2.85%,乙醇得率达理论值的88.12%。     

甘薯渣同步糖化发酵生产酒精的工艺优化

为了综合利用甘薯淀粉工业废渣,本研究以甘薯渣为原料发酵生产酒精,并对其同步糖化发酵工艺(SSF)进行优化。研究同步糖化发酵时影响酒精发酵工艺的9个因素,采用Plackett-Burman试验设计筛选出显著因素,并在筛选结果的基础上,用最陡爬坡途径逼近最大响应区域,然后利用响应面分析法确定其最佳参数。结果表明,影响酒精发酵工艺的显著因素为糖化酶、接种量和发酵温度。酒精发酵优化最佳参数为:α-淀粉酶8U/g,液化时间1.5h,液化温度90℃,硫酸铵质量分数0.15g/100g,pH值4,发酵时间36h,糖化酶151U/g,接种量0.3%,发酵温度36℃。在此条件下,验证试验得到的酒精体积分数达到17.15%,接近理论预测值16.95%。优化后的工艺可为甘薯渣同步糖化发酵生产酒精提供技术参考。     

Optimization of simultaneous saccharification and fermentation for the production of ethanol from lignocellulosic biomass

Simultaneous saccharification and fermentation (SSF) of alkaline hydrogen peroxide pretreated Antigonum leptopus (Linn) leaves to ethanol was optimized using cellulase from Trichoderma reesei QM-9414 (Celluclast from Novo) and Saccharomyces cerevisiae NRRL-Y-132 cells. Response surface methodology (RSM) and a three-level four-variable design were employed to evaluate the effects of SSF process variables such as cellulase concentration (20-100 FPU/g of substrate), substrate concentration (5-15% w/v), incubation time (24-72 h), and temperature (35-45 degrees C) on ethanol production efficiency. Cellulase and substrate concentrations were found to be the most significant variables. The optimum conditions arrived at are as follows: cellulase = 100 FPU/g of substrate, substrate = 15% (w/v), incubation time = 57.2 h, and temperature = 38.5 degrees C. At these conditions, the predicted ethanol yield was 3.02% (w/v) and the actual experimental value was 3.0% (w/v).     

甜高粱茎汁及茎渣同步糖化发酵工艺优化

为了提高甜高粱秸秆乙醇生产中茎汁和茎渣的利用,以甜高粱茎汁及其渣为发酵原料,对茎汁茎渣混合原料同步糖化乙醇发酵的工艺条件进行优化研究。采用Plackett-Burman(PB)筛选设计试验筛选出影响甜高粱茎秆渣汁同步糖化乙醇发酵的显著因素。采用响应面法建立了同步糖化发酵乙醇生产的乙醇产量数学模型。根据该模型进行了工艺参数的优化,以乙醇产量为指标,试验所得甜高粱茎秆渣汁同步糖化化乙醇发酵的优化工艺条件为:发酵温度36.58℃,混合纤维素酶添加量=23.5(FBU/m L)/35.25(CBU/m L),甜高粱渣汁质量体积比为8.2%,理论预测乙醇产量为89.2%,在此条件下进行验证试验,乙醇产量为88.98%,平均质量浓度,验证了数学模型的有效性,为提高甜高粱茎汁及茎渣混合原料同步糖化发酵产乙醇和提高发酵效率提供参考。     

以菊芋粉为原料同步糖化发酵生产燃料乙醇

利用粟酒裂殖酵母（Schizosaccharomyces pombe）能发酵菊芋未水解糖液高产乙醇的特点提出了以菊芋粉为原料,同步糖化发酵生产燃料乙醇的新工艺。在摇瓶中考察了原料预处理方法、原料浓度和初始pH值对乙醇发酵的影响,进而在5 L发酵罐中考察了未调控pH值和恒定pH值与通气情况对乙醇发酵的影响。结果表明：该菌株最适pH值为4.0;100目筛分的菊芋粉发酵效果良好,115℃灭菌处理优于121℃,在此条件下,菊芋粉浓度200 g/L时,乙醇产量达到66.58 g/L,理论转化率为85.88%;发酵液pH值下降对乙醇发酵没有影响,通入适量氧气会导致乙醇产量的下降,这表明粟酒裂殖酵母进行乙醇发酵时不需要供氧;通入氮气保持厌氧环境不能显著提高乙醇产量,不通气进行乙醇发酵也达到高的转化率,因此在工业生产中,不必保持厌氧发酵环境。在此基础上,对菊芋粉补料发酵进行了试验,补料至菊芋粉终浓度为300 g/L,发酵终点乙醇浓度为94.81 g/L,理论转化率为81.54%。这些研究工作,为以菊芋为原料的燃料乙醇工业化生产提供技术依据。     

Solid-substrate fermentation of corn fiber by Phanerochaete chrysosporium and subsequent fermentation of hydrolysate into ethanol

The goal of this study was to develop a fungal process for ethanol production from corn fiber. Laboratory-scale solid-substrate fermentation was performed using the white-rot fungus Phanerochaete chrysosporium in 1 L polypropylene bottles as reactors via incubation at 37 degrees C for up to 3 days. Extracellular enzymes produced in situ by P. chrysosporium degraded lignin and enhanced saccharification of polysaccharides in corn fiber. The percentage biomass weight loss and Klason lignin reduction were 34 and 41%, respectively. Anaerobic incubation at 37 degrees C following 2 day incubation reduced the fungal sugar consumption and enhanced the in situ cellulolytic enzyme activities. Two days of aerobic solid-substrate fermentation of corn fiber with P. chrysosporium, followed by anaerobic static submerged-culture fermentation resulted in 1.7 g of ethanol/100 g of corn fiber in 6 days, whereas yeast ( Saccharomyces cerevisiae) cocultured with P. chrysosporium demonstrated enhanced ethanol production of 3 g of ethanol/100 g of corn fiber. Specific enzyme activity assays suggested starch and hemi/cellulose contribution of fermentable sugar.     

玉米秸秆厌氧产氢工艺参数优化

为解决玉米秸秆结构致密导致秸秆发酵难于直接降解的问题,首先分别采用0.2%、0.4%、0.6%、0.8%的HCl溶液对其进行预处理,以厌氧活性污泥为接种物进行中温(38℃)发酵产氢试验。结果表明,玉米秸秆的累积产氢量和产氢速率随着盐酸质量分数的增大先增加后降低,0.6%HCl处理效果最佳,单位累积产氢量和产氢速率分别为87.90 m L/g和3.05 m L/(g·h)。再以0.6%HCl溶液预处理的玉米秸秆为底物进行发酵产氢的单因素和正交试验,研究了秸秆粒径、底物浓度、初始p H值对玉米秸秆厌氧发酵产氢过程的影响。结果表明:玉米秸秆粒径越小越利于发酵产氢;适度增加底物浓度可增加产氢量;适宜的发酵初始p H值有利于产氢细菌的生长繁殖;得到较佳的工艺参数组合为秸秆粒径150μm、底物浓度15 g/L、初始p H值为7,此时累积产氢量为112.87 m L/g。     

Production of L-lactic acid and oligomeric compounds from apple pomace by simultaneous saccharification and fermentation: a response surface methodology assessment

The potential of apple pomace for lactic acid production by simultaneous saccharification and fermentation (SSF) was evaluated. The effects of the cellulase to solid ratio (CSR), the liquor to solid ratio (LSR), and the beta-glucosidase to cellulase ratio (BCR) on the kinetics of lactic acid generation were assessed, and a set of mathematical models was developed to reproduce and predict the lactic acid concentration of fermentation broths. Operating at low cellulase and cellobiase charges (1 FPU/g and 0.25 IU/FPU, respectively) and short reaction times (10 h), SSF media containing 27.8 g of lactic acid/L were obtained with a volumetric productivity of 2.78 g/Lh. Material balances showed that the SSF processing of 100 kg of dry apple pomace results in the production of 36.6 kg of lactic acid, 18.3 kg of oligomeric carbohydrates (which can be used as ingredients for functional foods), 8.4 kg of microbial biomass, and 8 kg uronic acids.     

玉米秸秆酶解上清液厌氧发酵产氢工艺优化

该文主要以粒度小于0.088 mm秸秆粉的酶解上清液为底物与热预处理后的活性污泥进行厌氧发酵产氢试验,以累积产氢量为考察指标,基于响应面Box-Behnken模型研究不同影响因素对玉米秸秆酶解上清液厌氧发酵产氢的影响,对玉米秸秆酶解上清液厌氧发酵产氢工艺进行优化。结果表明:温度、初始p H值和还原糖浓度三因素中,温度和还原糖浓度对玉米秸秆酶解上清液厌氧发酵产氢的影响最大。采用Box-Behnken模型获得的最佳产氢条件为:温度38.32℃,初始p H值4.93,还原糖浓度20.70 mg/m L,最大产氢量685.59 m L,此时最大产氢率为57.13 m L/g(玉米秸秆)。通过试验验证,实际最大产氢量为659.24 m L,产氢率为54.94 m L/g(玉米秸秆),与模型预测值相比,相对误差为3.84%,说明该模型具有较好的拟合性。该优化工艺可为后期连续流状态下的生物制氢系统提供参考。     

微波预处理对玉米秸秆的组分提取及糖化的影响

为了分离得到玉米秸秆中的半纤维素、木质素,改善纤维素的酶水解可及性,对玉米秸秆进行了二步微波预处理法研究.考察了秸秆粒径、液固比、碱及甘油用量、微波功率与处理时间对半纤维素和木质素得率的影响;探讨了预处理后秸秆的酶水解性能.得到的优化预处理条件为:玉米秸秆粒径40～80目;微波-碱预处理功率116.7 W/g、时间10 min、液固比20 mL/g、碱用量150％(质量分数);微波-甘油预处理功率66.7 W/g、处理时间30 min、液固比20mL/g、甘油质量分数100％.试样结果表明:经微波预处理后每10 g玉米秸秆最终可得到2.48 g半纤维素、0.95 g木质素,3.55 g还原糖;二步微波预处理不仅能够提取出玉米秸秆中的半纤维素、木质素,而且提高了纤维素水解的酶可及性,实现了组分的分离.     

外加电压改善微生物电解池内稻秸同步酶解发酵产氢性能

该文以稻草秸秆等为原料研究了微生物电解池(microbial electrolysis cell,MEC)内外加电压(0、0.4、0.6、0.8、1.0 V)对木质纤维素同步酶解发酵产氢特性的影响,得到MEC利用木质纤维素产氢的最优电压,实现可再生资源综合利用与清洁能源开发的双重目的。试验结果表明,MEC的产氢速率、产氢得率、基质消减量及总能量得率皆呈逐渐增加的趋势,但相对电能消耗的能量得率则呈逐渐下降的趋势。当外加电压为0.4 V时,得到试验条件下最大的相对电能消耗的能量得率(377.59%),当外加电压为1 V时获得最大的氢气产量为44.8 m L和总能量得率2.84%;在发酵产氢过程中,阳极室p H值呈先逐渐下降后略上升的趋势,有机酸分析测试表明,在MEC内的发酵产氢为丁酸发酵型。本研究对探索MEC内木质纤维素原料的同步酶解发酵产氢,提高纤维素基质酶解糖化和发酵产氢效率具有一定的指导意义。     

Contributions by fungi and bacteria to aggregate stability of cultivated soils

Stability changes during ageing (sterile) or incubation (non-sterile) of both natural field aggregates and remoulded aggregates from five soils were studied for periods up to 30 days. Growth of fungal hyphae, estimated by ergosterol measurement, corresponded to temporary stability increases in both types of aggregates during the first 15 days. Thereafter, fungal hyphae disappeared and were replaced by actinomycetes and bacteria. Increased stability due to entanglement by hyphae was comparable to that due to thixotropy in remoulded aggregates. Bacterial growth accompanied the fall in stability associated with fungal decline, but had little direct effect in stabilizing soil aggregates. Destruction of polysaccharides by periodate oxidation greatly diminished aggregate stability. The role of bacterial polysaccharides in soil aggregate stability is discussed.     

Comparative studies on thermochemical characterization of corn stover pretreated by white-rot and brown-rot fungi

The effects of white-rot and brown-rot fungal pretreatment on the chemical composition and thermochemical conversion of corn stover were investigated. Fungus-pretreated corn stover was analyzed by Fourier transform infrared spectroscopy and X-ray diffraction analysis to characterize the changes in chemical composition. Differences in thermochemical conversion of corn stover after fungal pretreatment were investigated using thermogravimetric and pyrolysis analysis. The results indicated that the white-rot fungus Irpex lacteus CD2 has great lignin-degrading ability, whereas the brown-rot fungus Fomitopsis sp. IMER2 preferentially degrades the amorphous regions of the cellulose. The biopretreatment favors thermal decomposition of corn stover. The weight loss of IMER2-treated acid detergent fiber became greater, and the oil yield increased from 32.7 to 50.8%. After CD2 biopretreatment, 58% weight loss of acid detergent lignin was achieved and the oil yield increased from 16.8 to 26.8%.     

瘤胃真菌与酿酒酵母仿生共培养提升秸秆发酵产乙醇量

玉米秸秆中具有较高的纤维素、半纤维素含量,是一种具有稳定产率、可集中处理、可代替木材作制浆原料的生物质材料。为了研究厌氧微生物与酵母共培养预处理玉米秸秆的产物,该研究模拟反刍动物消化玉米秸秆的过程,从羊瘤胃液中分离出厌氧真菌（Pecoramyces sp.）。以玉米秸秆茎皮碎为底物,与厌氧真菌、酿酒酵母菌S1145在39℃进行共培养72 h,分析发酵对秸秆茎皮降解及其代谢产物的影响。结果表明,在瘤胃真菌作用下,添加不同量的酿酒酵母可对代谢产物中乙醇含量产生影响,其中添加5 mL酿酒酵母时产生的乙醇含量最高,占总代谢产物比例为32.09%,相对于未添加酿酒酵母的对照组,乙醇含量提高了23.04百分点。研究表明,在厌氧真菌与酿酒酵母共培养预处理玉米秸秆茎皮的过程中,添加酿酒酵母可提高乙醇产量,为玉米秸秆高效资源化处理和生物质燃料生产提供了一种可靠的方法。     

Impact of competitive fungi on Trichothecene production by Fusarium graminearum

Bioassays were used to determine the production of the trichothecene mycotoxin, deoxynivalenol (DON), by two isolates of Fusarium graminearum when grown in association with potentially competitive fungi and an antifungal chemical, 6-pentyl-alpha-pyrone (6PAP). The presence of 6PAP in the culture medium reduced DON production by as much as 80%, but this effect was reduced for the F. graminearum isolate that most efficiently metabolized the added 6PAP. A 6PAP-producing Trichoderma isolate grown in a competition assay system with the F. graminearum isolates was also able to substantially reduce DON production. When Fusarium isolates (F. crookwellense, F. culmorum, F. subglutinans, F. poae, F. equiseti, F. avenaceum, and F. sambucinum), which co-occur with F. graminearum in New Zealand maize plants (Zea mays), were grown in competition assays, the effect on DON production was variable. However, all isolates of F. subglutinans tested were shown to cause reductions in DON production (by 13-76%, mean = 62%). F. subglutinans frequently co-occurs with F. graminearum, but its presence can vary with location and time of the season. When the competitive fungus tested was also a trichothecene producer (e.g., of nivalenol), both toxins were produced in the assay medium. The results indicate that mycotoxin production by F. graminearum can be affected by the presence of particular competitive fungi. These results have implications for an ecological understanding of pathogenicity and of mycotoxin accumulation in plants. Early establishment of F. subglutinans, for example, may act as a biological control mechanism providing a temporary protection against invasion by more commonly toxigenic fusaria such as F. graminearum.     

蒸汽爆破预处理和微生物发酵对玉米秸秆降解率的影响

为了提高玉米秸秆的利用效率,首先对玉米秸秆进行蒸汽爆破预处理（压力2.5 Mpa,维压200 s）,然后再进行米曲霉发酵,研究物理和生物学处理对秸秆成分及相关酶活变化的影响。结果表明,蒸汽爆破使秸秆中纤维素、半纤维素和木质素的降解率分别达到8.47%、50.45% 和36.65% （p＜0.05）。爆破预处理的秸秆再经米曲霉发酵6 d后,秸秆中纤维素和半纤维素的降解率分别为27.89%和64.80% （p＜0.05）,发酵秸秆中的滤纸酶、羧甲基纤维素酶、淀粉酶和蛋白酶活力分别达到335.10、1138.92、1954.20和201.99 U/g。爆破预处理后进行米曲霉发酵,对于提高玉米秸秆的降解率具有非常重要的意义。     

以黄姜为原料发酵酒精的液化糖化条件的初步研究

利用黄姜根茎富含淀粉的特点,在温和的条件下研究其液化糖化性能,用来发酵酒精。黄姜粉加水调浆后,升至一定温度,加入适量α-淀粉酶进行液化处理,保温一段时间,然后降温至60℃,调pH值,加糖化酶糖化,保温处理使其中的淀粉转化完全。单因素试验结果表明：60目以上黄姜粉,料水质量比1∶5,α-淀粉酶10 U/g,在90℃时,30 min即可达到很好的液化;然后降温到60℃,调pH值4.0～4.5,加糖化酶60 U/g,90 min内基本完全糖化。利用酶解的方法转化黄姜中的淀粉是可行的,并且效果显著。     

蔬菜废弃物厌氧发酵制取沼气的试验研究

该文以废弃的甘蓝菜叶为发酵原料,在实验室自行设计的小型沼气发酵装置上进行了厌氧发酵试验,通过测定发酵过程中发酵液和沼气的各项指标,对蔬菜废弃物厌氧发酵的可行性及接种物浓度对发酵过程的影响进行了研究.结果表明,蔬菜废弃物用厌氧发酵工艺处理是可行的;在试验采用的20%,30%,50%三个水平的接种物浓度中,接种物浓度为30%的实验组的挥发酸含量、氨态氮含量以及pH值都在正常范围内,总产气量和沼气中最高甲烷含量分别为7790.81 mL和42.814%,明显高于其他两组及空白组实验.该项研究对蔬菜废弃物的资源化利用提供了有益的参考.     

利用近红外光谱测定玉米非淀粉组分中纤维素及半纤维素含量

玉米非淀粉组分是可再生的生物质资源,为实现玉米皮渣中纤维素及半纤维含量的快速检测,该研究以偏最小二乘法(PLS)建立数学模型,探讨一阶导数及二阶导数平滑等预处理对建模的影响,建立玉米皮渣中纤维素及半纤维素近红外分析模型.研究结果表明,纤维素模型的定标集和验证集相关系数为0.9806和0.9799,定标集标准偏差(SEE...