氢氧化钠预处理对乳酸-氯化胆碱处理化学木浆中半纤维素选择性溶出的影响

以山东华泰纸业股份有限公司提供的桉木化学浆为试验材料,以氢氧化钠(NaOH)溶液、乳酸(LA)、氯化胆碱(ChCl)为主要试剂,按照摩尔比(n(乳酸)∶n(氯化胆碱))为1∶1的比例制备乳酸-氯化胆碱低共熔溶剂;用质量分数为5%的氢氧化钠溶液对纸浆纤维进行预处理,然后用制备的乳酸-氯化胆碱低共熔溶剂对预处理后的纸浆进行二次处理,获得试验浆料样品(化学浆);参照国家标准测定并计算试验浆料样品半纤维素去除率、纤维素损失率、半纤维素选择性、纤维素结晶度、纤维素特性黏度,分析氢氧化钠预处理在乳酸-氯化胆碱处理桉木化学浆过程中的效果及机理。结果表明:氢氧化钠预处理,不仅可以提高乳酸-氯化胆碱低共熔溶剂处理桉木化学浆过程中半纤维素的选择性溶出,而且能减少纤维素的降解。与乳酸-氯化胆碱低共熔溶剂单段处理相比,“氢氧化钠+(乳酸-氯化胆碱)”处理后,化学浆中半纤维素的去除率从29.3%提高到57.0%、浆料特性黏度从448 g·L^(-1)提高到844 g·L^(-1)、纤维素结晶度从79.6%提高到80.7%。氢氧化钠对浆料的润胀,减小了纤维素与半纤维素及纤维素分子间氢键的结合力;促进乳酸-氯化胆碱进入纤维内部,与半纤维素或纤维素羟基作用,加强了半纤维素溶出。此外,碱的残余,对乳酸-氯化胆碱中的酸有一定的中和作用,减少了纤维素在乳酸-氯化胆碱中的酸性降解。

氢氧化钠预处理对甘蔗渣酶解和发酵性能的影响

采用氢氧化钠预处理甘蔗渣,通过单因素和正交试验考察了不同预处理条件对甘蔗渣酶解和发酵性能的影响,并进一步分析了比表面积和木质素含量对酶解性能的影响。结果表明:预处理温度、氢氧化钠质量分数及预处理时间对酶解和发酵效率影响较为显著,最佳的预处理条件为:温度85℃、时间11 h、NaOH质量分数4.5%,在此优化条件下预处理的甘蔗渣,含纤维素56.46%,与原料相比提高了46.16%;半纤维素20.30%、Klason木质素5.79%,与原料相比分别降低了15.77%和72.87%,酶解36 h的还原糖得率为0.69 g/g(以甘蔗渣质量计)。经过氢氧化钠预处理后的甘蔗渣比表面积显著增加(由原料的0.07 m^2/g最大可增加到1.07 m^2/g),木质素显著降低,有利于提高酶解和发酵效率。当比表面积超过0.30 m^2/g时,酶解初始速率和酶解效率达到平衡;当木质素低于11%时,酶解效率达到平衡。

两步碱法预处理对玉米秸秆组分及结构的影响

针对乙酸对乙醇发酵的影响及其在预处理过程中的产生机制,采用氢氧化钠-氢氧化钙2步预处理的方法:第1步氢氧化钠预处理实现乙酰基的去除,从源头上将乙酸与"糖"分开;脱乙酰基后的玉米秸秆进一步采用氢氧化钙预处理,提高纤维素酶水解得率。采用红外光谱(FT-IR)、X射线衍射仪(XRD)和扫描电镜(SEM)对玉米秸秆纤维结构特性进行分析。研究结果表明,玉米秸秆经第1步氢氧化钠可实现乙酰基去除率和木聚糖残留率分别为95.2%和87.8%,纤维素基本不被降解。脱乙酰基玉米秸秆第2步氢氧化钙预处理正交试验优化条件为氢氧化钙用量0.100g/g玉米秸秆、温度90℃、时间36h,纤维素酶水解36h后的酶水解得率为85.1%,所得固体渣纤维素和半纤维素的回收率分别为92.1%和65.5%,木质素去除率为63.0%。2步碱法预处理后的玉米秸秆纤维表面出现大量的裂纹和裂片,纤维束间发生分离,纤维素的结晶指数由55.1%上升到60.6%,1245cm-1处的C-O基团伸展振动峰形明显减弱是由于乙酰基的去除,结合酶水解得率的提高也说明预处理达到提高纤维素酶对纤维素的可及度。

Research on Hydrolysis and Saccharification of Corn Stover

In this paper three methods(dilute acid pretreatment, aqueous ammonia/dilute acid pretreatment and alkaline pretreatment) were used to study the hydrolysis of corn stover and characteristics of each method were compared. The results showed that the lignin removal rate was 71.8% when the corn stover was treated with a caustic soda solution containing 1.5% of NaOH, at a temperature of 75 ℃ for 90 min with an initial solid-liquid ratio of 1:8(w/v). Hydrolysis yield of the NaOH pretreated sample reached 78.5%, which was much higher than other control groups. These results are useful for evaluation of pretreatment technologies, and identification of key factors that limit cellulose hydrolysis, and can also serve as a basis for designing and screening appropriate pretreatment technologies.

Studies on Environmentally Friendly Leaching Processes in China

The newly developed green leaching processes for chromium, lead and gold extraction from ores or concentrates are described. The chromium is extracted from the iron chromite ore with fused sodium hydroxide at 500-550℃ as sodium chromate. The galena in lead sulfide concentrate is converted into lead carbonate in ammonium or sodium carbonate solution at 50-80℃ followed by the separation of lead carbonate formed from the unconverted sulfide ores by flotation. Gold associated with sulfide ore (such as pyrite and chalcopyrite) can be extracted into sodium thiosulfate solution without any pretreatment such as roasting, high pressure aqueous oxidation or bacteria pre-leaching.