共查询到10条相似文献,搜索用时 109 毫秒
1.
丝绸废水经过真空浓缩和喷雾干燥制成粗粉末。采用酸析法和低温乙醇沉淀法对粗粉末中的丝胶进行提取,结果表明:低温乙醇沉淀法的提取率较高,采用体积分数为75%的乙醇溶液提取率达到64%。理化性质分析结果表明,低温乙醇沉淀法提取的丝胶蛋白含量高达90%以上,溶解度有所下降,灰分含量降低,蚕腥味被去除。应用圆二色光谱和红外光谱研究2种方法提取的丝胶二级结构分子构象的变化,结果显示提取得到的丝胶蛋白分子构象以无规卷曲为主,β转角构象的比例增加。研究结果表明,低温乙醇沉淀法是一种简便有效提取丝胶的方法。 相似文献
2.
3.
4.
丝胶蛋白质离子交换回收方法的研究 总被引:1,自引:1,他引:0
介绍了一种用阴离子交换纤维来回收丝胶蛋白质的方法.蚕丝精练一般是在碱性条件下进行,精练处理后丝胶蛋白带有负电荷,与阴离子交换纤维上的正电荷之间有静电吸引力作用,被吸附到阴离子交换纤维上;当用酸浸泡时,丝胶蛋白上的负电荷被中和或转变成正电荷,与阴离子交换纤维之间的静电引力作用消失或产生静电斥力,而从阴离子交换纤维上解析.研究了丝胶蛋白质对阴离子交换纤维的吸附性能以及从阴离子交换纤维上解析丝胶蛋白质的最佳条件. 相似文献
5.
6.
7.
8.
采用聚合硫酸铝(PAS)、双氰胺-甲醛缩聚物(DDF)及PAS/DDF复合混凝剂对丝绸精练废水进行处理。结果表明:碱基度在60%~80%的PAS产品对废水的处理效果较好;DDF比PAS对丝绸精练废水的处理能力强,其用量在70mg/L时,就可以达到较佳的处理效果;PAS与DDF复配后具有协同效应,采用80mg/L的低PAS/DDF复配比混凝剂对丝绸精练废水处理时,CODcr去除率为75.5%,BOD5去除率为82.9%。 相似文献
9.
以二氯均三嗪化合物作为交联剂,采用丝胶对棉织物进行改性,探讨了不同丝胶质量浓度对改性棉织物性能的影响。结果表明,棉织物用丝胶改性,能提高其尺寸稳定性、抗皱性、吸湿性,但对白度影响不大。 相似文献
10.
ana aranovi Zita ere Joki Aleksandar Biljana Pajin Ljubica Doki Julianna Gyura Boo Dalmacija Dragana oronja Simovi 《Starch - St?rke》2011,63(2):64-74
Wastewater obtained in the production process of wheat starch and vital wheat gluten was treated by microfiltration through a ceramic tubular membrane with 200 nm pore sizes. The consumption of process water would thus be reduced, the starch would be recovered to a greater extent and the wastewater problem would consequently be solved. Reduction of the occurrence of polarization layer on the membrane and the constant wastewater permeate flux through the membrane was maintained by inserting of the mixer Kenics inside the membrane tube. The maximum value of the permeate flux (24 L m−2 h−1) without the use of a static mixer was achieved at 3 × 10−5 Pa and at a flow rate of 150 L/h, for wastewater samples initially allowed to settle for 4 h prior microfiltration. Under the very same conditions of the working parameters, the use of a static mixer enables a flux that is up to two or three times more intensive compared to the values obtained without using a mixer. Microfiltration reduces the wastewater dry matter from 11 000 to 4000 mg/L, lessens the chemical oxygen demand by 74%, i.e. from 21 000 to 5100 mgO2/L and significantly decreases the values of the suspended matter, namely from 9000 to 300 mg/L. 相似文献