以水葫芦纤维为原料,在乙醇、KOH碱性溶液中,以氯乙酸为醚化剂,制备了羧甲基化水葫芦纤维。并用FeCl3作交联剂,制得交联羧甲基化水葫芦纤维基吸水剂。通过FT-IR,SEM进行化学和表面结构表征、通过滴定法测定羧甲基纤维素的含量、通过称...以水葫芦纤维为原料,在乙醇、KOH碱性溶液中,以氯乙酸为醚化剂,制备了羧甲基化水葫芦纤维。并用FeCl3作交联剂,制得交联羧甲基化水葫芦纤维基吸水剂。通过FT-IR,SEM进行化学和表面结构表征、通过滴定法测定羧甲基纤维素的含量、通过称量法测定水葫芦基吸水剂在蒸馏水和典型的化肥液中的吸水率。考察了KOH、氯乙酸、交联剂用量以及反应温度对吸水率的影响,并进一步考察了水葫芦基吸水剂对土壤的保水性能。结果表明:水葫芦纤维、氯乙酸及KOH的适宜质量比为1:1.25:1.05;在60℃醚化2.0 h,接着在22℃用0.45%(wt)的FeCl3(相对羧甲基化水葫芦纤维)交联,所得交联羧甲基化水葫芦纤维基吸水剂在蒸馏水中的吸水率可达78 mL g 1,在弱电解质(尿素)溶液中的吸水率略有下降、而在强电解质(氯化钾和碳酸铵)溶液中的吸水率明显下降;含5%交联羧甲基化水葫芦纤维基吸水剂的泥土,其保水率明显提高。展开更多
In order to take advantage of the lignocellulosic material in water hyacinth (Eichhornia crassipes), dehydration pretreatment in the first step and then sodium hydroxide and hydrogen peroxide pretreatment was perfor...In order to take advantage of the lignocellulosic material in water hyacinth (Eichhornia crassipes), dehydration pretreatment in the first step and then sodium hydroxide and hydrogen peroxide pretreatment was performed. The microorganism used for the fermentation process was Zimomonas mobilis. Batch fermentation experiments were carried out with four tests using 22 factorial design with two levels leadings to evaluate the effect of NaOH concentration, conditioning salts as independent variables and ethanol produced as a dependent variable. The optimum condition with higher amount of glucose hydrolyzed and ethanol was: substrate conditioning cellulases, it was pretreated 10% NaOH, with 92.38% conversion of glucose to ethanol and yield of 0.47 g ethanol per g of glucose and 0.018 g ethanol per g of biomass.展开更多
Water hyacinth is a raw material for long-term sustainable production of cellulosics ethanol. In this study, the acid pretreatment and enzymatic hydrolysis were used to evaluate to produce more sugar, to be fermented ...Water hyacinth is a raw material for long-term sustainable production of cellulosics ethanol. In this study, the acid pretreatment and enzymatic hydrolysis were used to evaluate to produce more sugar, to be fermented to ethanol. Separated hydrolysis and fermentation (SHF) studies were carried out to produce ethanol from water hyacinth leaves. Dilute sulfuric acid pretreatment and enzymatic hydrolysis were conducted to select the optimum pretreatment conditions. The optimum pretreatment conditions included T = 135 ℃, t = 30 min, and sulfuric acid concentration = 0.1 M. The residue was enzymatically hydrolyzed using the mixture of enzymes cellulase, xylanase and pectinase. The maximum enzymatic saccharification of cellulosic material (76.8%) was achieved. SHF by mono-culture of Saccharomyces cerevisiae KM1195 achieved the highest yields of ethanol. Furthermore, ethanol production was accomplished with the co-culture ofS. cerevisiae TISTR5048 and Candida tropicalis TISTR5045 which produced the highest increase in ethanol Yield. In this case, the ethanol concentration of 3.42 (g/L), percentage of the theoretical ethanol yield of 99.9%, the ethanol yield of 0.27 g/g and the productivity of 0.22 g/L/h were obtained. This suggested that mild acid pretreatment and co-cultureare promising methods to improve enzymatic hydrolysis and ethanol production from water hyacinth.展开更多
文摘以水葫芦纤维为原料,在乙醇、KOH碱性溶液中,以氯乙酸为醚化剂,制备了羧甲基化水葫芦纤维。并用FeCl3作交联剂,制得交联羧甲基化水葫芦纤维基吸水剂。通过FT-IR,SEM进行化学和表面结构表征、通过滴定法测定羧甲基纤维素的含量、通过称量法测定水葫芦基吸水剂在蒸馏水和典型的化肥液中的吸水率。考察了KOH、氯乙酸、交联剂用量以及反应温度对吸水率的影响,并进一步考察了水葫芦基吸水剂对土壤的保水性能。结果表明:水葫芦纤维、氯乙酸及KOH的适宜质量比为1:1.25:1.05;在60℃醚化2.0 h,接着在22℃用0.45%(wt)的FeCl3(相对羧甲基化水葫芦纤维)交联,所得交联羧甲基化水葫芦纤维基吸水剂在蒸馏水中的吸水率可达78 mL g 1,在弱电解质(尿素)溶液中的吸水率略有下降、而在强电解质(氯化钾和碳酸铵)溶液中的吸水率明显下降;含5%交联羧甲基化水葫芦纤维基吸水剂的泥土,其保水率明显提高。
文摘In order to take advantage of the lignocellulosic material in water hyacinth (Eichhornia crassipes), dehydration pretreatment in the first step and then sodium hydroxide and hydrogen peroxide pretreatment was performed. The microorganism used for the fermentation process was Zimomonas mobilis. Batch fermentation experiments were carried out with four tests using 22 factorial design with two levels leadings to evaluate the effect of NaOH concentration, conditioning salts as independent variables and ethanol produced as a dependent variable. The optimum condition with higher amount of glucose hydrolyzed and ethanol was: substrate conditioning cellulases, it was pretreated 10% NaOH, with 92.38% conversion of glucose to ethanol and yield of 0.47 g ethanol per g of glucose and 0.018 g ethanol per g of biomass.
文摘Water hyacinth is a raw material for long-term sustainable production of cellulosics ethanol. In this study, the acid pretreatment and enzymatic hydrolysis were used to evaluate to produce more sugar, to be fermented to ethanol. Separated hydrolysis and fermentation (SHF) studies were carried out to produce ethanol from water hyacinth leaves. Dilute sulfuric acid pretreatment and enzymatic hydrolysis were conducted to select the optimum pretreatment conditions. The optimum pretreatment conditions included T = 135 ℃, t = 30 min, and sulfuric acid concentration = 0.1 M. The residue was enzymatically hydrolyzed using the mixture of enzymes cellulase, xylanase and pectinase. The maximum enzymatic saccharification of cellulosic material (76.8%) was achieved. SHF by mono-culture of Saccharomyces cerevisiae KM1195 achieved the highest yields of ethanol. Furthermore, ethanol production was accomplished with the co-culture ofS. cerevisiae TISTR5048 and Candida tropicalis TISTR5045 which produced the highest increase in ethanol Yield. In this case, the ethanol concentration of 3.42 (g/L), percentage of the theoretical ethanol yield of 99.9%, the ethanol yield of 0.27 g/g and the productivity of 0.22 g/L/h were obtained. This suggested that mild acid pretreatment and co-cultureare promising methods to improve enzymatic hydrolysis and ethanol production from water hyacinth.
