本文主要研究内容
作者黄浩(2019)在《超湿润聚苯硫醚油水分离超细纤维膜的制备与性能研究》一文中研究指出:近年来,随着工业化进程的加速,伴随而来的工业化过程中产生的原油污染以及化学试剂污染已经严重威胁人类的可持续发展。因此,有效的处理油类和有机污染物已经成为目前亟需解决的问题之一。传统的燃烧、重力沉降、离心或化学分散等处理方法,虽在一定程度上能实现油水分离,但是能耗过高、分离效率低以及会造成二次污染等缺点使其在实际应用上面临着巨大的挑战。因此,开发新型高效分离膜材料具有重要的意义。目前,应用于油水分离领域的膜材料大多存在着材料自身结构单一、孔隙率低以及制备过程复杂、后处理繁琐等一系列问题。针对上述问题,本文利用熔喷超细纤维膜纤维直径小、孔隙率高、比表面积大、功能化改性容易、结构可控性好的特点,对纤维膜的结构及湿润性进行有效调节,制备出了多种具有超湿润性的熔喷超细纤维油水分离膜材料。具体研究结果如下:(1)在荷叶表面超疏水现象的启发下,通过简单的喷涂法,在熔喷聚苯硫醚(PPS)超细纤维膜表面构筑粗糙结构,制备具有超疏水-超亲油特性的PPS超细纤维膜。考察了聚四氟乙烯(PTFE)微粉含量对熔喷PPS超细纤维膜结构及疏水性的影响;分析了纤维膜的油水分离机理;并进一步研究了其油水分离性能。实验结果表明:PTFE微粉和聚乙烯蜡粉(PEW)的引入,不仅有效降低了熔喷PPS超细纤维膜的表面能还提高了其表面粗糙度,进而使纤维膜呈现出超疏水-超亲油性能。此外,超疏水-超亲油PPS超细纤维膜能在重力作用下高效的分离多种油水混合物,最高渗透通量可达5190L m-2 h-1,分离效率高达99.5%,具有良好的循环使用性能。(2)通过将浸渍法与热压法相结合,采用壳聚糖(CTS)对熔喷PPS超细纤维膜进行修饰,制备出具有高孔隙率和小孔径的超亲水-水下超疏油PPS超细纤维膜。研究了CTS浓度对纤维膜亲水性的影响;分析了其超亲水和水下超疏油性能的机理;考察了热压对纤维膜孔径和孔隙率的影响;并进一步探究了其对不同类型的油包水乳液的分离性能以及分离机理。研究数据表明:得益于CTS自身的亲水性以及交联后在纤维表面形成的纳米级皱纹状凸起,表面修饰后的纤维膜呈现出超亲水-水下超疏油性能。通过热压可以有效的降低纤维膜的孔径,同时保持较高的孔隙率,从而提高其对油水混合物的分离效率和渗透通量。此外,超亲水-水下超疏油PPS超细纤维膜在重力下对水包油乳液的渗透通量最高可达2250L m-2 h-1,分离效率高达99.5%,且还呈现出良好的抗污染性、循环使用性以及抗菌性。
Abstract
jin nian lai ,sui zhao gong ye hua jin cheng de jia su ,ban sui er lai de gong ye hua guo cheng zhong chan sheng de yuan you wu ran yi ji hua xue shi ji wu ran yi jing yan chong wei xie ren lei de ke chi xu fa zhan 。yin ci ,you xiao de chu li you lei he you ji wu ran wu yi jing cheng wei mu qian ji xu jie jue de wen ti zhi yi 。chuan tong de ran shao 、chong li chen jiang 、li xin huo hua xue fen san deng chu li fang fa ,sui zai yi ding cheng du shang neng shi xian you shui fen li ,dan shi neng hao guo gao 、fen li xiao lv di yi ji hui zao cheng er ci wu ran deng que dian shi ji zai shi ji ying yong shang mian lin zhao ju da de tiao zhan 。yin ci ,kai fa xin xing gao xiao fen li mo cai liao ju you chong yao de yi yi 。mu qian ,ying yong yu you shui fen li ling yu de mo cai liao da duo cun zai zhao cai liao zi shen jie gou chan yi 、kong xi lv di yi ji zhi bei guo cheng fu za 、hou chu li fan suo deng yi ji lie wen ti 。zhen dui shang shu wen ti ,ben wen li yong rong pen chao xi qian wei mo qian wei zhi jing xiao 、kong xi lv gao 、bi biao mian ji da 、gong neng hua gai xing rong yi 、jie gou ke kong xing hao de te dian ,dui qian wei mo de jie gou ji shi run xing jin hang you xiao diao jie ,zhi bei chu le duo chong ju you chao shi run xing de rong pen chao xi qian wei you shui fen li mo cai liao 。ju ti yan jiu jie guo ru xia :(1)zai he xie biao mian chao shu shui xian xiang de qi fa xia ,tong guo jian chan de pen tu fa ,zai rong pen ju ben liu mi (PPS)chao xi qian wei mo biao mian gou zhu cu cao jie gou ,zhi bei ju you chao shu shui -chao qin you te xing de PPSchao xi qian wei mo 。kao cha le ju si fu yi xi (PTFE)wei fen han liang dui rong pen PPSchao xi qian wei mo jie gou ji shu shui xing de ying xiang ;fen xi le qian wei mo de you shui fen li ji li ;bing jin yi bu yan jiu le ji you shui fen li xing neng 。shi yan jie guo biao ming :PTFEwei fen he ju yi xi la fen (PEW)de yin ru ,bu jin you xiao jiang di le rong pen PPSchao xi qian wei mo de biao mian neng hai di gao le ji biao mian cu cao du ,jin er shi qian wei mo cheng xian chu chao shu shui -chao qin you xing neng 。ci wai ,chao shu shui -chao qin you PPSchao xi qian wei mo neng zai chong li zuo yong xia gao xiao de fen li duo chong you shui hun ge wu ,zui gao shen tou tong liang ke da 5190L m-2 h-1,fen li xiao lv gao da 99.5%,ju you liang hao de xun huan shi yong xing neng 。(2)tong guo jiang jin zi fa yu re ya fa xiang jie ge ,cai yong ke ju tang (CTS)dui rong pen PPSchao xi qian wei mo jin hang xiu shi ,zhi bei chu ju you gao kong xi lv he xiao kong jing de chao qin shui -shui xia chao shu you PPSchao xi qian wei mo 。yan jiu le CTSnong du dui qian wei mo qin shui xing de ying xiang ;fen xi le ji chao qin shui he shui xia chao shu you xing neng de ji li ;kao cha le re ya dui qian wei mo kong jing he kong xi lv de ying xiang ;bing jin yi bu tan jiu le ji dui bu tong lei xing de you bao shui ru ye de fen li xing neng yi ji fen li ji li 。yan jiu shu ju biao ming :de yi yu CTSzi shen de qin shui xing yi ji jiao lian hou zai qian wei biao mian xing cheng de na mi ji zhou wen zhuang tu qi ,biao mian xiu shi hou de qian wei mo cheng xian chu chao qin shui -shui xia chao shu you xing neng 。tong guo re ya ke yi you xiao de jiang di qian wei mo de kong jing ,tong shi bao chi jiao gao de kong xi lv ,cong er di gao ji dui you shui hun ge wu de fen li xiao lv he shen tou tong liang 。ci wai ,chao qin shui -shui xia chao shu you PPSchao xi qian wei mo zai chong li xia dui shui bao you ru ye de shen tou tong liang zui gao ke da 2250L m-2 h-1,fen li xiao lv gao da 99.5%,ju hai cheng xian chu liang hao de kang wu ran xing 、xun huan shi yong xing yi ji kang jun xing 。
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论文作者分别是来自武汉纺织大学的黄浩,发表于刊物武汉纺织大学2019-07-12论文,是一篇关于聚苯硫醚论文,熔喷超细纤维膜论文,超湿润性论文,油水分离论文,武汉纺织大学2019-07-12论文的文章。本文可供学术参考使用,各位学者可以免费参考阅读下载,文章观点不代表本站观点,资料来自武汉纺织大学2019-07-12论文网站,若本站收录的文献无意侵犯了您的著作版权,请联系我们删除。
标签:聚苯硫醚论文; 熔喷超细纤维膜论文; 超湿润性论文; 油水分离论文; 武汉纺织大学2019-07-12论文;