本文主要研究内容
作者杨玉(2019)在《新型磁性碳纳米复合材料对水中抗生素的去除研究》一文中研究指出:抗生素作为一类广谱抗菌药物,广泛用于人类和畜牧养殖业的抗菌治疗,然而由于生物体的不完全吸收,大量的抗生素通过生物体代谢被排放到水和土壤中,对环境造成潜在的威胁。因此,由抗生素引起的环境毒性问题亟待解决。目前,高级氧化和吸附是去除污染物的有效方法且经济实用,已成功应用于水污染处理厂(WWTPs)。影响这两大工艺实际应用的关键分别是高级氧化降解中的催化剂和吸附过程中的吸附剂。制备高效的催化剂和吸附剂用于提高水中抗生素的去除效率是本文的主要研究内容。磁性碳纳米复合材料具有分散均匀的活性位点、稳定的多孔结构、疏水的石墨碳基质和便于磁性分离的特点,有潜力应用于污染物治理领域。此外,磁性碳纳米复合材料可以通过不同的方法和途径制备获取。本文通过高温煅烧金属盐、碳源和氮源制备得到过渡金属氮碳复合物,其具有制备简单、成本低、稳定性高且催化活性高等优点。为获得较高稳定性和便于回收利用的吸附剂,我们利用具有多孔结构和较大的比表面积的金属有机骨架(MOFs)作为前体制备多功能金属碳纳米复合材料。基于此,制备的过渡金属氮碳复合物和双MOFs碳化衍生材料,因具备较高的石墨化程度和较大的材料比表面积,其成为高效的非均相Fenton催化剂或吸附剂用于去除抗生素,但迄今为止相关的研究工作还很缺乏。为此,本论文以盐酸四环素(TC)和磺胺嘧啶(SDZ)为研究对象,制备了三种多孔磁性碳纳米复合材料,并探究了它们作为类芬顿催化剂和新型吸附剂对抗生素的去除性能,主要开展了:(1)Fe/N-C-x/H2O2类芬顿体系超声辅助降解TC的研究;(2)双金属MOFs碳化衍生的多孔ZnxCo1.5-xO@Cs有效吸附去除水中TC的研究;(3)MIL-100(Fe)@ZIF-8碳化衍生的微孔磁性纳米碳复合材料吸附去除水中SDZ的研究。全文共四章,主要内容如下:第1章:我们通过对去除抗生素的有关文献进行调研,从抗生素的分类、抗生素的使用现状及环境危害、常用的治理工艺方法、过渡金属氮碳化物和MOFs碳化衍生材料五个方面对抗生素污染及治理研究现状进行介绍。第2章:传统均相Fenton催化剂主要存在不稳定和较低的过氧化氢催化利用率、有铁淤泥产生和低效的降解性能等缺陷,限制了实际应用范围。因此,制备一种具有较高催化活性和优异稳定性的催化剂用于污染物氧化降解研究是十分必要的。本文将葡萄糖、九水硝酸铁和氯化铵充分研磨混合均匀后,转至氮气保护下的高温管式炉中碳化得到多孔磁性Fe/N-C-x催化材料(x表示加入的不同金属盐摩尔比),用于去除水中的TC。通过SEM、HRTEM、VSM、XRD和N2吸附-解吸等表征手段对催化剂进行了表征,结果表明制备的Fe/N-C-x呈现片状堆积的多孔结构,其中铁氧化物纳米颗粒均匀分布在石墨碳基质中,有强的顺磁性。为探究Fe/N-C-x的氧化酶和过氧化物酶催化性质,实验在超声(US)和外加氧化剂(H2O2)条件下评估Fe/N-C-x对TC的降解效果,实验表明Fe/N-C-2表现出较高的TC去除效率。实验还讨论了pH、Fe/N-C-2用量、H2O2浓度和超声功率等参数对催化过程的影响。四个条件优化实验结果表明,在pH=3-11范围内Fe/N-C-2都表现出较高的降解效率。干扰实验结果表明,共存阴离子和腐殖酸(HA)几乎不影响TC的去除效果。在最优实验条件下,Fe/N-C-2/US/H2O2降解体系能达到94%的TC和39%的TOC去除效率。此外,催化剂的重复利用实验表明,Fe/N-C-2具有优异的稳定性,在连续6次降解TC实验后去除效率仍保持在83%左右。第3章:本研究通过一步法合成了一系列具有不同形貌的Zn-Co-BTCs,并在高温管式炉中煅烧转化为二元金属氧化物@碳复合物(ZnxCo1.5-xO@Cs,x表示前体中加入的金属盐摩尔比,其中x=0、0.25、0.5、0.75和1.5)。实验通过SEM、TEM、XRD、FT-IR、Zeta电位、TG、N2吸附-解吸和XPS光谱分析等一系列表征方法对ZnxCo1.5-xO@Cs的结构和性质进行分析。与其他对比材料相比,Zn0.5CoO@C表现出优异的TC吸附性能,并且Zn0.5CoO@C吸附去除TC的过程符合Langmuir模型和准二级动力学模型。为优化实验操作条件,我们探究了主要的实验影响因素如pH、吸附剂用量、不同浓度的HA和阳离子等反应参数。在最佳实验条件下,吸附剂Zn0.5CoO@C循环利用10次后仍保留75%左右的TC去除效率。通过表征和模型模拟结果分析出吸附剂Zn0.5CoO@C对TC的吸附机理主要是疏水作用、π-π相互作用和TC与吸附剂碳结构中有机官能团的氢键作用。第4章:本实验采用静置法合成MIL-100(Fe)@ZIF-8,并在氮气保护下高温煅烧得到多孔磁性纳米碳复合材料(CMZ),用以去除水中广泛分布的抗生素污染物SDZ。我们通过XRD、N2吸附-解吸、TG、SEM、TEM、XPS和饱和磁化强度等表征手段分析了磁性纳米复合材料CMZ的结构性质。为进一步探究纳米复合材料CMZ对水溶液中SDZ的吸附去除能力,我们对主要的吸附影响因素如pH、吸附剂浓度、干扰离子浓度和腐殖酸浓度等条件进行了优化,并完成吸附等温线模型模拟和动力学模型模拟。拟合结果表明吸附体系符合准二级动力学模型和Freundlich模型,吸附过程先后受液膜扩散和粒子内扩散控制。结合干扰离子对CMZ吸附去除SDZ的影响实验和不同离子浓度下CMZ的Zeta电位分析证实CMZ吸附去除SDZ存在静电吸附作用。在最优的吸附条件下,达到吸附平衡时10 mg/L的SDZ吸附容量为98.6 mg/g。
Abstract
kang sheng su zuo wei yi lei an pu kang jun yao wu ,an fan yong yu ren lei he chu mu yang shi ye de kang jun zhi liao ,ran er you yu sheng wu ti de bu wan quan xi shou ,da liang de kang sheng su tong guo sheng wu ti dai xie bei pai fang dao shui he tu rang zhong ,dui huan jing zao cheng qian zai de wei xie 。yin ci ,you kang sheng su yin qi de huan jing du xing wen ti ji dai jie jue 。mu qian ,gao ji yang hua he xi fu shi qu chu wu ran wu de you xiao fang fa ju jing ji shi yong ,yi cheng gong ying yong yu shui wu ran chu li an (WWTPs)。ying xiang zhe liang da gong yi shi ji ying yong de guan jian fen bie shi gao ji yang hua jiang jie zhong de cui hua ji he xi fu guo cheng zhong de xi fu ji 。zhi bei gao xiao de cui hua ji he xi fu ji yong yu di gao shui zhong kang sheng su de qu chu xiao lv shi ben wen de zhu yao yan jiu nei rong 。ci xing tan na mi fu ge cai liao ju you fen san jun yun de huo xing wei dian 、wen ding de duo kong jie gou 、shu shui de dan mo tan ji zhi he bian yu ci xing fen li de te dian ,you qian li ying yong yu wu ran wu zhi li ling yu 。ci wai ,ci xing tan na mi fu ge cai liao ke yi tong guo bu tong de fang fa he tu jing zhi bei huo qu 。ben wen tong guo gao wen duan shao jin shu yan 、tan yuan he dan yuan zhi bei de dao guo du jin shu dan tan fu ge wu ,ji ju you zhi bei jian chan 、cheng ben di 、wen ding xing gao ju cui hua huo xing gao deng you dian 。wei huo de jiao gao wen ding xing he bian yu hui shou li yong de xi fu ji ,wo men li yong ju you duo kong jie gou he jiao da de bi biao mian ji de jin shu you ji gu jia (MOFs)zuo wei qian ti zhi bei duo gong neng jin shu tan na mi fu ge cai liao 。ji yu ci ,zhi bei de guo du jin shu dan tan fu ge wu he shuang MOFstan hua yan sheng cai liao ,yin ju bei jiao gao de dan mo hua cheng du he jiao da de cai liao bi biao mian ji ,ji cheng wei gao xiao de fei jun xiang Fentoncui hua ji huo xi fu ji yong yu qu chu kang sheng su ,dan qi jin wei zhi xiang guan de yan jiu gong zuo hai hen que fa 。wei ci ,ben lun wen yi yan suan si huan su (TC)he huang an mi ding (SDZ)wei yan jiu dui xiang ,zhi bei le san chong duo kong ci xing tan na mi fu ge cai liao ,bing tan jiu le ta men zuo wei lei fen du cui hua ji he xin xing xi fu ji dui kang sheng su de qu chu xing neng ,zhu yao kai zhan le :(1)Fe/N-C-x/H2O2lei fen du ti ji chao sheng fu zhu jiang jie TCde yan jiu ;(2)shuang jin shu MOFstan hua yan sheng de duo kong ZnxCo1.5-xO@Csyou xiao xi fu qu chu shui zhong TCde yan jiu ;(3)MIL-100(Fe)@ZIF-8tan hua yan sheng de wei kong ci xing na mi tan fu ge cai liao xi fu qu chu shui zhong SDZde yan jiu 。quan wen gong si zhang ,zhu yao nei rong ru xia :di 1zhang :wo men tong guo dui qu chu kang sheng su de you guan wen suo jin hang diao yan ,cong kang sheng su de fen lei 、kang sheng su de shi yong xian zhuang ji huan jing wei hai 、chang yong de zhi li gong yi fang fa 、guo du jin shu dan tan hua wu he MOFstan hua yan sheng cai liao wu ge fang mian dui kang sheng su wu ran ji zhi li yan jiu xian zhuang jin hang jie shao 。di 2zhang :chuan tong jun xiang Fentoncui hua ji zhu yao cun zai bu wen ding he jiao di de guo yang hua qing cui hua li yong lv 、you tie yu ni chan sheng he di xiao de jiang jie xing neng deng que xian ,xian zhi le shi ji ying yong fan wei 。yin ci ,zhi bei yi chong ju you jiao gao cui hua huo xing he you yi wen ding xing de cui hua ji yong yu wu ran wu yang hua jiang jie yan jiu shi shi fen bi yao de 。ben wen jiang pu tao tang 、jiu shui xiao suan tie he lv hua an chong fen yan mo hun ge jun yun hou ,zhuai zhi dan qi bao hu xia de gao wen guan shi lu zhong tan hua de dao duo kong ci xing Fe/N-C-xcui hua cai liao (xbiao shi jia ru de bu tong jin shu yan ma er bi ),yong yu qu chu shui zhong de TC。tong guo SEM、HRTEM、VSM、XRDhe N2xi fu -jie xi deng biao zheng shou duan dui cui hua ji jin hang le biao zheng ,jie guo biao ming zhi bei de Fe/N-C-xcheng xian pian zhuang dui ji de duo kong jie gou ,ji zhong tie yang hua wu na mi ke li jun yun fen bu zai dan mo tan ji zhi zhong ,you jiang de shun ci xing 。wei tan jiu Fe/N-C-xde yang hua mei he guo yang hua wu mei cui hua xing zhi ,shi yan zai chao sheng (US)he wai jia yang hua ji (H2O2)tiao jian xia ping gu Fe/N-C-xdui TCde jiang jie xiao guo ,shi yan biao ming Fe/N-C-2biao xian chu jiao gao de TCqu chu xiao lv 。shi yan hai tao lun le pH、Fe/N-C-2yong liang 、H2O2nong du he chao sheng gong lv deng can shu dui cui hua guo cheng de ying xiang 。si ge tiao jian you hua shi yan jie guo biao ming ,zai pH=3-11fan wei nei Fe/N-C-2dou biao xian chu jiao gao de jiang jie xiao lv 。gan rao shi yan jie guo biao ming ,gong cun yin li zi he fu shi suan (HA)ji hu bu ying xiang TCde qu chu xiao guo 。zai zui you shi yan tiao jian xia ,Fe/N-C-2/US/H2O2jiang jie ti ji neng da dao 94%de TChe 39%de TOCqu chu xiao lv 。ci wai ,cui hua ji de chong fu li yong shi yan biao ming ,Fe/N-C-2ju you you yi de wen ding xing ,zai lian xu 6ci jiang jie TCshi yan hou qu chu xiao lv reng bao chi zai 83%zuo you 。di 3zhang :ben yan jiu tong guo yi bu fa ge cheng le yi ji lie ju you bu tong xing mao de Zn-Co-BTCs,bing zai gao wen guan shi lu zhong duan shao zhuai hua wei er yuan jin shu yang hua wu @tan fu ge wu (ZnxCo1.5-xO@Cs,xbiao shi qian ti zhong jia ru de jin shu yan ma er bi ,ji zhong x=0、0.25、0.5、0.75he 1.5)。shi yan tong guo SEM、TEM、XRD、FT-IR、Zetadian wei 、TG、N2xi fu -jie xi he XPSguang pu fen xi deng yi ji lie biao zheng fang fa dui ZnxCo1.5-xO@Csde jie gou he xing zhi jin hang fen xi 。yu ji ta dui bi cai liao xiang bi ,Zn0.5CoO@Cbiao xian chu you yi de TCxi fu xing neng ,bing ju Zn0.5CoO@Cxi fu qu chu TCde guo cheng fu ge Langmuirmo xing he zhun er ji dong li xue mo xing 。wei you hua shi yan cao zuo tiao jian ,wo men tan jiu le zhu yao de shi yan ying xiang yin su ru pH、xi fu ji yong liang 、bu tong nong du de HAhe yang li zi deng fan ying can shu 。zai zui jia shi yan tiao jian xia ,xi fu ji Zn0.5CoO@Cxun huan li yong 10ci hou reng bao liu 75%zuo you de TCqu chu xiao lv 。tong guo biao zheng he mo xing mo ni jie guo fen xi chu xi fu ji Zn0.5CoO@Cdui TCde xi fu ji li zhu yao shi shu shui zuo yong 、π-πxiang hu zuo yong he TCyu xi fu ji tan jie gou zhong you ji guan neng tuan de qing jian zuo yong 。di 4zhang :ben shi yan cai yong jing zhi fa ge cheng MIL-100(Fe)@ZIF-8,bing zai dan qi bao hu xia gao wen duan shao de dao duo kong ci xing na mi tan fu ge cai liao (CMZ),yong yi qu chu shui zhong an fan fen bu de kang sheng su wu ran wu SDZ。wo men tong guo XRD、N2xi fu -jie xi 、TG、SEM、TEM、XPShe bao he ci hua jiang du deng biao zheng shou duan fen xi le ci xing na mi fu ge cai liao CMZde jie gou xing zhi 。wei jin yi bu tan jiu na mi fu ge cai liao CMZdui shui rong ye zhong SDZde xi fu qu chu neng li ,wo men dui zhu yao de xi fu ying xiang yin su ru pH、xi fu ji nong du 、gan rao li zi nong du he fu shi suan nong du deng tiao jian jin hang le you hua ,bing wan cheng xi fu deng wen xian mo xing mo ni he dong li xue mo xing mo ni 。ni ge jie guo biao ming xi fu ti ji fu ge zhun er ji dong li xue mo xing he Freundlichmo xing ,xi fu guo cheng xian hou shou ye mo kuo san he li zi nei kuo san kong zhi 。jie ge gan rao li zi dui CMZxi fu qu chu SDZde ying xiang shi yan he bu tong li zi nong du xia CMZde Zetadian wei fen xi zheng shi CMZxi fu qu chu SDZcun zai jing dian xi fu zuo yong 。zai zui you de xi fu tiao jian xia ,da dao xi fu ping heng shi 10 mg/Lde SDZxi fu rong liang wei 98.6 mg/g。
论文参考文献
论文详细介绍
论文作者分别是来自西南大学的杨玉,发表于刊物西南大学2019-09-24论文,是一篇关于金属氮碳复合物论文,金属有机框架论文,磁性论文,抗生素论文,去除论文,西南大学2019-09-24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,资料来自西南大学2019-09-24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:金属氮碳复合物论文; 金属有机框架论文; 磁性论文; 抗生素论文; 去除论文; 西南大学2019-09-24论文;