本文主要研究内容
作者钱成锋(2019)在《磁性壳聚糖@钨酸铋光催化复合吸附剂对养猪废水中重金属及抗生素的实验研究》一文中研究指出:近年来,我国养猪业规模迅速发展壮大,逐渐从分散式走向集约式,污水处理能力不断增强,但达标排放的废水还是会造成一定程度的环境污染。其中,重金属和抗生素残留时间长、隐蔽性大、易诱导抗性基因,成为人类健康和水生态保护的潜在威胁,因此,进一步处理养猪废水中残留的重金属和抗生素是极为必要的。吸附-光催化结合技术是利用其还原重金属和降解有机物两者的协同作用,应用于多种污染物共存的复合废水深度处理。本论文通过将天然聚合物壳聚糖(CTS)和半导体银离子掺杂型钨酸铋(Ag-Bi2WO6)包裹于磁性粒子Fe3O4的表面,制备出光催化复合吸附剂(MCTS-Ag/Bi2WO6),随后分析该材料对重金属和抗生素废水的吸附降解性能,并且在符合禽畜养殖废水排放标准的情况下,模拟养猪废水出水水质,研究在该水质条件下对铜离子-诺氟沙星的联合去除机理,并进行磁分离和再生稳定性分析。详细的研讨内容及主要成果如下:(1)以磁性壳聚糖(MCTS)为基核,高温水热合成MCTS-Ag/Bi2WO6,利用FT-IR、FE-SEM及XRD等手段进行结构表征。结果显示:CTS包裹及Bi2WO6负载过程中,其平均粒径进一步增大,呈近似球状,形貌较均匀;在Bi2WO6的X衍射图谱中,成功检测到银元素,说明银离子已掺杂到Bi2WO6晶胞中,另外,CTS包裹和Bi2WO6负载均不会对Fe3O4晶格产生影响。(2)通过对初始pH值(37)、初始浓度(10120mg/L)、温度(20℃、30℃、40℃)及光照时间等环境因素分析,研究MCTS-Ag/Bi2WO6对Cu(Ⅱ)的静态吸附机理,并且对吸附模型进行数据拟合。结果显示:pH值增大,对Cu(Ⅱ)的吸附量逐渐上升,在条件pH=6、20mg吸附剂用量及光照时间120min下,去除率达到90%以上;模拟太阳光在500W氙灯照射下有利于促进吸附Cu(Ⅱ);温度升高不利于对Cu(Ⅱ)吸附。根据吸附模型拟合结果,Freundlich和Langmuir拟合R2在0.95以上,均能够描述吸附Cu(Ⅱ)的过程,而且该过程主要是以化学吸附为主,光催化为辅;根据热力学拟合参数(35)H<0及(35)G<0,表明是一种自发放热型的吸附反应,其最大理论吸附量达到181.818mg/g。(3)通过对初始pH值(3、5、7、9)、流速(3 mL/min、4 mL/min、5mL/min)、填料层高度(1.5cm、2.0cm、2.5cm)、初始浓度(4 mg/L、6 mg/L、8mg/L)及光照(光反应、暗反应)等环境因素分析,研究在固定床装置中MCTS-Ag/Bi2WO6对抗生素诺氟沙星(Nor)的动态降解机理,随后对Thomas、Yoon-Nelson及BDST三种动态模型进行拟合。结果显示:初始pH升高,流速和初始浓度降低,填料层高度增大及光反应下,有利于对Nor的吸附降解;根据拟合结果,Thomas和Yoon-Nelson拟合R2在0.97以上,均能够很好描述对Nor的动态降解行为;BDST拟合R2在0.93以上,可以预测出不同条件下MCTS-Ag/Bi2WO6对Nor的理论穿透时间,穿透时间理论值与实验值误差在3%40%之间。(4)研究MCTS-Ag/Bi2WO6在可见光照射下对模拟水质中铜离子-诺氟沙星的静态吸附降解,通过对初始pH值(5、7、9)、浓度配比及投加量等因素进行分析。结果显示:在不同pH值下,Cu(Ⅱ)和Nor有不同的络合形式,pH=9更有利于对铜离子-诺氟沙星络合物的吸附降解;在没有吸附剂时,添加Cu(Ⅱ)影响较小,对Nor降解率最大达到9.6%,在有20mg吸附剂存在时,添加Nor影响较大,对Cu(Ⅱ)吸附率最大达到86%以上,Cu(Ⅱ)和Nor之间形成协同吸附。(5)通过磁性分离和再生稳定性分析,MCTS-Ag/Bi2WO6能迅速从废水中分离出来,其吸附-解吸次数可达到5次,最后一次两种污染物去除率降到80%以下,仍具有良好地再生稳定性,对处理重金属和抗生素联合污染的复合废水有很好的应用前景。
Abstract
jin nian lai ,wo guo yang zhu ye gui mo xun su fa zhan zhuang da ,zhu jian cong fen san shi zou xiang ji yao shi ,wu shui chu li neng li bu duan zeng jiang ,dan da biao pai fang de fei shui hai shi hui zao cheng yi ding cheng du de huan jing wu ran 。ji zhong ,chong jin shu he kang sheng su can liu shi jian chang 、yin bi xing da 、yi you dao kang xing ji yin ,cheng wei ren lei jian kang he shui sheng tai bao hu de qian zai wei xie ,yin ci ,jin yi bu chu li yang zhu fei shui zhong can liu de chong jin shu he kang sheng su shi ji wei bi yao de 。xi fu -guang cui hua jie ge ji shu shi li yong ji hai yuan chong jin shu he jiang jie you ji wu liang zhe de xie tong zuo yong ,ying yong yu duo chong wu ran wu gong cun de fu ge fei shui shen du chu li 。ben lun wen tong guo jiang tian ran ju ge wu ke ju tang (CTS)he ban dao ti yin li zi can za xing wu suan bi (Ag-Bi2WO6)bao guo yu ci xing li zi Fe3O4de biao mian ,zhi bei chu guang cui hua fu ge xi fu ji (MCTS-Ag/Bi2WO6),sui hou fen xi gai cai liao dui chong jin shu he kang sheng su fei shui de xi fu jiang jie xing neng ,bing ju zai fu ge qin chu yang shi fei shui pai fang biao zhun de qing kuang xia ,mo ni yang zhu fei shui chu shui shui zhi ,yan jiu zai gai shui zhi tiao jian xia dui tong li zi -nuo fu sha xing de lian ge qu chu ji li ,bing jin hang ci fen li he zai sheng wen ding xing fen xi 。xiang xi de yan tao nei rong ji zhu yao cheng guo ru xia :(1)yi ci xing ke ju tang (MCTS)wei ji he ,gao wen shui re ge cheng MCTS-Ag/Bi2WO6,li yong FT-IR、FE-SEMji XRDdeng shou duan jin hang jie gou biao zheng 。jie guo xian shi :CTSbao guo ji Bi2WO6fu zai guo cheng zhong ,ji ping jun li jing jin yi bu zeng da ,cheng jin shi qiu zhuang ,xing mao jiao jun yun ;zai Bi2WO6de Xyan she tu pu zhong ,cheng gong jian ce dao yin yuan su ,shui ming yin li zi yi can za dao Bi2WO6jing bao zhong ,ling wai ,CTSbao guo he Bi2WO6fu zai jun bu hui dui Fe3O4jing ge chan sheng ying xiang 。(2)tong guo dui chu shi pHzhi (37)、chu shi nong du (10120mg/L)、wen du (20℃、30℃、40℃)ji guang zhao shi jian deng huan jing yin su fen xi ,yan jiu MCTS-Ag/Bi2WO6dui Cu(Ⅱ)de jing tai xi fu ji li ,bing ju dui xi fu mo xing jin hang shu ju ni ge 。jie guo xian shi :pHzhi zeng da ,dui Cu(Ⅱ)de xi fu liang zhu jian shang sheng ,zai tiao jian pH=6、20mgxi fu ji yong liang ji guang zhao shi jian 120minxia ,qu chu lv da dao 90%yi shang ;mo ni tai yang guang zai 500Wxian deng zhao she xia you li yu cu jin xi fu Cu(Ⅱ);wen du sheng gao bu li yu dui Cu(Ⅱ)xi fu 。gen ju xi fu mo xing ni ge jie guo ,Freundlichhe Langmuirni ge R2zai 0.95yi shang ,jun neng gou miao shu xi fu Cu(Ⅱ)de guo cheng ,er ju gai guo cheng zhu yao shi yi hua xue xi fu wei zhu ,guang cui hua wei fu ;gen ju re li xue ni ge can shu (35)H<0ji (35)G<0,biao ming shi yi chong zi fa fang re xing de xi fu fan ying ,ji zui da li lun xi fu liang da dao 181.818mg/g。(3)tong guo dui chu shi pHzhi (3、5、7、9)、liu su (3 mL/min、4 mL/min、5mL/min)、tian liao ceng gao du (1.5cm、2.0cm、2.5cm)、chu shi nong du (4 mg/L、6 mg/L、8mg/L)ji guang zhao (guang fan ying 、an fan ying )deng huan jing yin su fen xi ,yan jiu zai gu ding chuang zhuang zhi zhong MCTS-Ag/Bi2WO6dui kang sheng su nuo fu sha xing (Nor)de dong tai jiang jie ji li ,sui hou dui Thomas、Yoon-Nelsonji BDSTsan chong dong tai mo xing jin hang ni ge 。jie guo xian shi :chu shi pHsheng gao ,liu su he chu shi nong du jiang di ,tian liao ceng gao du zeng da ji guang fan ying xia ,you li yu dui Norde xi fu jiang jie ;gen ju ni ge jie guo ,Thomashe Yoon-Nelsonni ge R2zai 0.97yi shang ,jun neng gou hen hao miao shu dui Norde dong tai jiang jie hang wei ;BDSTni ge R2zai 0.93yi shang ,ke yi yu ce chu bu tong tiao jian xia MCTS-Ag/Bi2WO6dui Norde li lun chuan tou shi jian ,chuan tou shi jian li lun zhi yu shi yan zhi wu cha zai 3%40%zhi jian 。(4)yan jiu MCTS-Ag/Bi2WO6zai ke jian guang zhao she xia dui mo ni shui zhi zhong tong li zi -nuo fu sha xing de jing tai xi fu jiang jie ,tong guo dui chu shi pHzhi (5、7、9)、nong du pei bi ji tou jia liang deng yin su jin hang fen xi 。jie guo xian shi :zai bu tong pHzhi xia ,Cu(Ⅱ)he Noryou bu tong de lao ge xing shi ,pH=9geng you li yu dui tong li zi -nuo fu sha xing lao ge wu de xi fu jiang jie ;zai mei you xi fu ji shi ,tian jia Cu(Ⅱ)ying xiang jiao xiao ,dui Norjiang jie lv zui da da dao 9.6%,zai you 20mgxi fu ji cun zai shi ,tian jia Norying xiang jiao da ,dui Cu(Ⅱ)xi fu lv zui da da dao 86%yi shang ,Cu(Ⅱ)he Norzhi jian xing cheng xie tong xi fu 。(5)tong guo ci xing fen li he zai sheng wen ding xing fen xi ,MCTS-Ag/Bi2WO6neng xun su cong fei shui zhong fen li chu lai ,ji xi fu -jie xi ci shu ke da dao 5ci ,zui hou yi ci liang chong wu ran wu qu chu lv jiang dao 80%yi xia ,reng ju you liang hao de zai sheng wen ding xing ,dui chu li chong jin shu he kang sheng su lian ge wu ran de fu ge fei shui you hen hao de ying yong qian jing 。
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论文详细介绍
论文作者分别是来自长安大学的钱成锋,发表于刊物长安大学2019-11-04论文,是一篇关于光催化复合吸附剂论文,铜离子论文,诺氟沙星论文,吸附降解模型论文,协同效应论文,长安大学2019-11-04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,资料来自长安大学2019-11-04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:光催化复合吸附剂论文; 铜离子论文; 诺氟沙星论文; 吸附降解模型论文; 协同效应论文; 长安大学2019-11-04论文;