本文主要研究内容
作者赵志啸(2019)在《改性海藻酸钙双响应硝化菌微球的制备与氨扩散性能研究》一文中研究指出:水污染是当前水环境存在的主要问题之一,其中氮类污染物是引起水体富营养化的重要因素,严格控制水中氮类物质含量,是保障水环境质量安全的关键所在。目前,生物脱氮工艺在污水处理中的应用最为广泛,然而传统生物脱氮工艺往往存在适应性差、冬季低温条件下脱氮效果不理想等缺陷。针对上述问题,本文探究了改性海藻酸钙(Calcium alginate,CA)双响应硝化菌微球的制备与氨扩散性能,以期为低温含氮废水提供新的有效处理途径,这对于大幅度削减污水和自然水体中的氮类污染物,提升水环境质量具有重要的理论与实际意义。实验使用序批式活性污泥法(SBR)富集培养硝化细菌,采用包埋法滴制了粒径均匀的固定化硝化菌微球,并利用NaCl溶液对CA硝化菌微球进行了改性处理并研究了其氨扩散性能。探究了改性CA双响应硝化菌微球的制备原料配合比对氨扩散性能的影响并确定了最优配合比,考察了制得的改性CA双响应硝化菌微球对实际废水的氨氮处理情况,得到如下结论:通过对活性污泥15天的富集培养,SBR反应器成功启动,活性污泥对模拟废水的氨氮去除率稳定在90%以上,硝化反应进行彻底,几乎不存在亚硝酸盐氮的积累,反应器中的活性污泥颜色由最初打捞上来时的灰黑色变为黄褐色,且沉降性能良好。微生物种群结构显示硝化细菌富集效果较好。采用不同浓度的NaCI溶液对CA硝化菌微球进行改性处理,确定改善其氨扩散性能的最佳NaCl浓度为0.3%。FTIR(傅里叶红外光谱分析仪)结果验证了微球扩散性能改善得益于结构上发生了Na+与Ca2+的置换。以N-异丙基丙烯酰胺(NIPAAm)、丙烯酸(AA)为单体材料,以N,N-亚甲基双丙烯酰胺(MBA)为交联剂制备了改性CA双响应硝化菌微球,利用氨氮去除率为指标考察了其在不同制备条件下的氨扩散性能。通过单因素实验获得最佳响应条件为:NIPAAm=AA=200mg,MBA=4mg。温度及pH对改性CA双响应硝化菌微球氨扩散性能的影响情况如下,当温度低于30℃时,氨氮去除率随温度的升高而增大,最大为36.99%;温度高于30℃时,氨氮去除率随温度的升高而减小,40℃时氨氮去除率仅为23.23%。在pH为6.0~9.0时,氨氮去除率随着pH增大而升高,pH=6.0时,氨氮去除率最低为26.35%,pH=9.0时,氨氮去除率最高为35.48%,从宏观角度证明了该固定化硝化菌微球是一类具有温度与pH双重敏感的包埋微粒。改性CA双响应硝化菌微球的SEM(Scanning Electron Microscope)照片进一步从微观结构验证了其双响应特性,微球表面微孔结构在低温(碱性)条件下较多,高温(酸性)条件下较少。将改性CA双响应硝化菌微球应用于实际废水处理,在HRT为6 h的条件下,改性CA双响应硝化菌微球对进水氨氮浓度为7 mg.L-1左右的低温微污染废水表现出50%左右的去除效果,对COD也具有一定的去除能力。运行阶段后期存在微生物流出载体的现象。微生物种群结构显示,在实际生活污水中运行40天后的改性CA双响应硝化菌微球内的微生物群落结构发生改变。初步判断微球的使用寿命约30天。综上所述,改性CA双响应硝化菌微球能够有效去除低温微污染水体中的氨氮,经济且简单,可操作性较强。但是为了更好地应用于实际工程,该技术需要在载体材料研发,高效制备反应器开发及提高固定化硝化细菌颗粒传质性能等方面进行研究。
Abstract
shui wu ran shi dang qian shui huan jing cun zai de zhu yao wen ti zhi yi ,ji zhong dan lei wu ran wu shi yin qi shui ti fu ying yang hua de chong yao yin su ,yan ge kong zhi shui zhong dan lei wu zhi han liang ,shi bao zhang shui huan jing zhi liang an quan de guan jian suo zai 。mu qian ,sheng wu tuo dan gong yi zai wu shui chu li zhong de ying yong zui wei an fan ,ran er chuan tong sheng wu tuo dan gong yi wang wang cun zai kuo ying xing cha 、dong ji di wen tiao jian xia tuo dan xiao guo bu li xiang deng que xian 。zhen dui shang shu wen ti ,ben wen tan jiu le gai xing hai zao suan gai (Calcium alginate,CA)shuang xiang ying xiao hua jun wei qiu de zhi bei yu an kuo san xing neng ,yi ji wei di wen han dan fei shui di gong xin de you xiao chu li tu jing ,zhe dui yu da fu du xiao jian wu shui he zi ran shui ti zhong de dan lei wu ran wu ,di sheng shui huan jing zhi liang ju you chong yao de li lun yu shi ji yi yi 。shi yan shi yong xu pi shi huo xing wu ni fa (SBR)fu ji pei yang xiao hua xi jun ,cai yong bao mai fa di zhi le li jing jun yun de gu ding hua xiao hua jun wei qiu ,bing li yong NaClrong ye dui CAxiao hua jun wei qiu jin hang le gai xing chu li bing yan jiu le ji an kuo san xing neng 。tan jiu le gai xing CAshuang xiang ying xiao hua jun wei qiu de zhi bei yuan liao pei ge bi dui an kuo san xing neng de ying xiang bing que ding le zui you pei ge bi ,kao cha le zhi de de gai xing CAshuang xiang ying xiao hua jun wei qiu dui shi ji fei shui de an dan chu li qing kuang ,de dao ru xia jie lun :tong guo dui huo xing wu ni 15tian de fu ji pei yang ,SBRfan ying qi cheng gong qi dong ,huo xing wu ni dui mo ni fei shui de an dan qu chu lv wen ding zai 90%yi shang ,xiao hua fan ying jin hang che de ,ji hu bu cun zai ya xiao suan yan dan de ji lei ,fan ying qi zhong de huo xing wu ni yan se you zui chu da lao shang lai shi de hui hei se bian wei huang he se ,ju chen jiang xing neng liang hao 。wei sheng wu chong qun jie gou xian shi xiao hua xi jun fu ji xiao guo jiao hao 。cai yong bu tong nong du de NaCIrong ye dui CAxiao hua jun wei qiu jin hang gai xing chu li ,que ding gai shan ji an kuo san xing neng de zui jia NaClnong du wei 0.3%。FTIR(fu li xie gong wai guang pu fen xi yi )jie guo yan zheng le wei qiu kuo san xing neng gai shan de yi yu jie gou shang fa sheng le Na+yu Ca2+de zhi huan 。yi N-yi bing ji bing xi xian an (NIPAAm)、bing xi suan (AA)wei chan ti cai liao ,yi N,N-ya jia ji shuang bing xi xian an (MBA)wei jiao lian ji zhi bei le gai xing CAshuang xiang ying xiao hua jun wei qiu ,li yong an dan qu chu lv wei zhi biao kao cha le ji zai bu tong zhi bei tiao jian xia de an kuo san xing neng 。tong guo chan yin su shi yan huo de zui jia xiang ying tiao jian wei :NIPAAm=AA=200mg,MBA=4mg。wen du ji pHdui gai xing CAshuang xiang ying xiao hua jun wei qiu an kuo san xing neng de ying xiang qing kuang ru xia ,dang wen du di yu 30℃shi ,an dan qu chu lv sui wen du de sheng gao er zeng da ,zui da wei 36.99%;wen du gao yu 30℃shi ,an dan qu chu lv sui wen du de sheng gao er jian xiao ,40℃shi an dan qu chu lv jin wei 23.23%。zai pHwei 6.0~9.0shi ,an dan qu chu lv sui zhao pHzeng da er sheng gao ,pH=6.0shi ,an dan qu chu lv zui di wei 26.35%,pH=9.0shi ,an dan qu chu lv zui gao wei 35.48%,cong hong guan jiao du zheng ming le gai gu ding hua xiao hua jun wei qiu shi yi lei ju you wen du yu pHshuang chong min gan de bao mai wei li 。gai xing CAshuang xiang ying xiao hua jun wei qiu de SEM(Scanning Electron Microscope)zhao pian jin yi bu cong wei guan jie gou yan zheng le ji shuang xiang ying te xing ,wei qiu biao mian wei kong jie gou zai di wen (jian xing )tiao jian xia jiao duo ,gao wen (suan xing )tiao jian xia jiao shao 。jiang gai xing CAshuang xiang ying xiao hua jun wei qiu ying yong yu shi ji fei shui chu li ,zai HRTwei 6 hde tiao jian xia ,gai xing CAshuang xiang ying xiao hua jun wei qiu dui jin shui an dan nong du wei 7 mg.L-1zuo you de di wen wei wu ran fei shui biao xian chu 50%zuo you de qu chu xiao guo ,dui CODye ju you yi ding de qu chu neng li 。yun hang jie duan hou ji cun zai wei sheng wu liu chu zai ti de xian xiang 。wei sheng wu chong qun jie gou xian shi ,zai shi ji sheng huo wu shui zhong yun hang 40tian hou de gai xing CAshuang xiang ying xiao hua jun wei qiu nei de wei sheng wu qun la jie gou fa sheng gai bian 。chu bu pan duan wei qiu de shi yong shou ming yao 30tian 。zeng shang suo shu ,gai xing CAshuang xiang ying xiao hua jun wei qiu neng gou you xiao qu chu di wen wei wu ran shui ti zhong de an dan ,jing ji ju jian chan ,ke cao zuo xing jiao jiang 。dan shi wei le geng hao de ying yong yu shi ji gong cheng ,gai ji shu xu yao zai zai ti cai liao yan fa ,gao xiao zhi bei fan ying qi kai fa ji di gao gu ding hua xiao hua xi jun ke li chuan zhi xing neng deng fang mian jin hang yan jiu 。
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论文作者分别是来自西安科技大学的赵志啸,发表于刊物西安科技大学2019-10-15论文,是一篇关于硝化细菌论文,固定化技术论文,双响应论文,氨氮去除率论文,应用论文,西安科技大学2019-10-15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,资料来自西安科技大学2019-10-15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:硝化细菌论文; 固定化技术论文; 双响应论文; 氨氮去除率论文; 应用论文; 西安科技大学2019-10-15论文;