非离子-阴离子Bola型表面活性剂和纳米SiO2颗粒协同稳定的双重响应型O/W乳状液

合成了一种非离子-阴离子Bola型智能表面活性剂,通过pH-响应可以在非离子型CH_(3)O(EO)_(5)-R_(11)-COOH(pHpKa)之间转换。单独使用时,非离子型和Bola型分别表现为不良乳化剂和优良乳化剂。与纳米SiO_(2)颗粒复配使用时,非离子型能与SiO_(2)颗粒协同稳定O/W(正癸烷)型Pickering乳状液,其中表面活性剂通过氢键作用吸附到颗粒表面产生原位疏水化作用,提高了颗粒的表面活性,并且这种Pickering乳状液具有pH-和温度-双重响应性,能够通过改变pH或者温度使乳状液在稳定和破乳之间实现多次转换。另一方面,Bola型CH_(3)O(EO)5-R_(11)-COONa能够与纳米SiO_(2)颗粒协同稳定分散液包油(oil-in-dispersion)乳状液,该乳状液具有良好的耐温性,但对调节pH时产生的盐较为敏感。然而与破乳后能完全返回水相便于回收再利用的同系物CH_(3)O(EO)7-R_(11)-COOH相比,具有较短EO链的CH_(3)O(EO)_(5)-R_(11)-COOH无论处于非离子型还是Bola型状态仍具有相当的油溶性,破乳后不能完全返回水相,表明EO数大小对这类新型智能表面活性剂的性能有显著的影响。

新型拟双子表面活性剂构筑的蠕虫状胶束及其pH和温度响应行为

将短链二元酸(丁二酸(SA)、戊二酸(GA)、己二酸(AA))和长链N-(3-(二甲基氨基)丙基)硬脂酰胺(C18N3N)以1∶2的摩尔比混合,通过静电相互作用,构筑了三种新型的拟双子表面活性剂。该过程无需复杂的合成。通过表面张力仪和流变仪测试了该系列表面活性剂的表面活性和流变性能。结果发现,2C18N3N/GA拟双子表面活性剂的cmc为4.60×10^(-5)mol/L,该值远低于传统双子表面活性剂,说明构筑的拟双子表面活性剂2C18N3N/GA具有很强的胶束聚集能力,2C18N3N/SA和2C18N3N/AA体系也具有类似的特征。在浓度超过50 mmol/L时,该系列表面活性剂可形成蠕虫状胶束,溶液表现出黏弹行为,且黏弹溶液具有较好的耐温耐剪切性能。还考查了上述黏弹溶液的pH和温度响应性,发现体系pH为6.1时,溶液黏度很高,pH为4.0或9.3时,黏度下降。随着温度的升高,体系的黏度也会迅速增加。在60℃时,该体系的零剪切黏度可高达11967.73 Pa·s。该表面活性剂制备简单,性能优良,拓展了新型表面活性剂的制备方法和应用范围。

静电作用构筑的新型表面活性剂及其性能

以硬脂酸为原料,合成了长碳链的N-(2-(二甲基氨基)乙基)硬脂酰胺(C18N2N)。将C18N2N与天然有机酸肉桂酸(TA)按一定比例复配,即可得到一种新型表面活性剂。该表面活性剂通过非共价键的静电相互作用而形成,省去了繁琐的合成步骤。通过表面张力仪和流变仪测试了该表面活性剂的表面活性和流变性能,结果表明该表面活性剂的临界胶束浓度和γ_(cmc)分别为0.11 mmol/L和32.4 mN/m,表现出很强的聚集和吸附能力。在浓度为25 mmol/L时,该表面活性剂即可形成蠕虫状胶束,形成的黏弹溶液具有较好的耐温耐剪切性能。还考查了该新型表面活性剂作为压裂液的应用性质,发现该新型表面活性剂还具有优良的携砂性能,沉降速率仅为0.26 cm/min。该表面活性剂制备简单,性能优良,拓展了新型表面活性剂的制备方法和应用范围。

Clean Monascus pigments production from Chinese rice wine wastes through submerged fermentation

The potential for Monascus pigments(MPs)production in a mixture of Chinese rice wine lees,soaked rice wastewater and broken rice was explored.MPs production reached 120.1 U/mL with optimal solid-liquid ratio of culture medium 1:10 and 20 g/L broken rice addition at shake flask level.We further explored the effects of stirring speed on MPs production in 7.5 L agitated bioreactor.The stirring speed had a great impact on cell morphology and the maximum MPs concentration and yield were 128.4 U/mL and 8174 U/g respectively at 400 rpm.The soluble chemical oxygen demand for the soaked rice wastewater decreased by 78.7%,which was mainly due to the intake of carbohydrates,organic acids and amino acids.Furthermore,a simultaneous fermentation process and production system with two-stage stirring speed control strategy was further developed in the 50 L pilot scale,in which the MPs production reached 158.9 U/mL.Meanwhile,Chinese rice wine wastes were fully utilized without addition of organic solvents during the process and no generation of new waste.Our results showed that Monascus was capable of converting Chinese rice wine wastes into natural pigments by submerged fermentation,which could provide an economic and environmentally friendly approach to reduce the cost of wastes treatment as well as high-value utilization.