| [1] | 李丽娟,马贵平,赵林果. 固定化酶载体研究进展[J]. 中国生物工程杂志,2015,35(11):105-113 |
| [2] | 赵欣欣,孙玲,董玉玮,等. 固定化微生物技术及其在污水处理中的应用[J]. 水处理技术,2015,41(7):17-20 |
| [3] | 张业健,叶海仁,郑向勇,等. 固定化包埋技术在水处理领域的应用进展[J]. 工业水处理,2011,31(1):9-12 |
| [4] | ALI M,OSHIKI M,RATHNAYAKE L,et al. Rapid and successful start-up of anammox process by immobilizing the minimal quantity of biomass in PVA-SA gel beads[J]. Water Research,2015,79:147-157 |
| [5] | 方定,谌婕妤,吴丁山,等. 微生物包埋固定化技术及其在废水处理中的应用[J]. 广东化工,2015,42(17):133-134 |
| [6] | SHULER M L,KARGI F. Bioprocess Engineering[M]. New York:Prentice Hall,2002 |
| [7] | JANJAROEN D,LING Fangqiong,MONROY G,et al. Roles of ionic strength and biofilm roughness on adhesion kinetics of Escherichia coli onto groundwater biofilm grown on PVC surfaces[J]. Water Research,2013,47(7):2531-2542 |
| [8] | 茆云汉,王建龙. 聚乙烯醇固定化微生物新方法的研究[J]. 环境科学学报,2013,33(2):370-376 |
| [9] | CHEN Kuocheng,LIN Yingfeng. Immobilization of microorganisms with phosphorylated polyvinyl alcohol (PVA)gel[J]. Enzyme and Microbial Technology,1994,16(1):79-83 |
| [10] | SONG S H,CHOI S S,PARK K,et al. Novel hybrid immobilization of microorganisms and its applications to biological denitrification[J]. Enzyme and Microbial Technology,2005,37(6):567-573 |
| [11] | SEKER D C,ZAIN N A M. Response surface optimization of glucose production from liquid pineapple waste using immobilized invertase in PVA-alginate-sulfate beads[J]. Separation and Purification Technology,2014,133:48-54 |
| [12] | 黄真真,陈桂秋,曾光明,等. 固定化微生物技术及其处理废水机制的研究进展[J]. 环境污染与防治,2015,37(10):77-85 |
| [13] | 王杏佳,徐丽,高静,等. PVA固定化微生物凝胶小球的制备及性能研究[J]. 塑料工业,2014,42(2):89-92 |
| [14] | TAKEI T,IKEDA K,IJIMA H,et al. Fabrication of poly (vinyl alcohol)hydrogel beads crosslinked using sodium sulfate for microorganism immobilization[J]. Process Biochemistry,2011,46(2):566-571 |
| [15] | KIMURA Y,ITOKAWA H,NOTO K,et al. Stability of autotrophic nitrogen removal system under four non-steady operations[J]. Bioresource Technology,2013,137:196-201 |
| [16] | BAE H,YANG H,CHOI M,et al. Optimization of the mechanical strength of PVA/alginate gel beads and their effects on the ammonia-oxidizing activity[J]. Desalination and Water Treatment,2015,53(9):2412-2420 |
| [17] | WU K Y A,WISECARVER K D. Cell immobilization using PVA crosslinked with boric acid[J]. Biotechnology and Bioengineering,1992,39(4):447-449 |
| [18] | ARAVINTHAN V,TAKIZAWA S,FUJITA K,et al. Factors affecting nitrogen removal from domestic wastewater using immobilized bacteria[J]. Water Science and Technology,1998,38(1):193-201 |
| [19] | 李峰,吕锡武,严伟. 聚乙烯醇作为固定化细胞包埋剂的研究[J]. 中国给水排水,2000,16(12):14-17 |
| [20] | 钟成华,刘鹏,张文东,等. 卡拉胶、膨润土改性PVA包埋小球[J]. 环境工程学报,2013,7(8):2837-2843 |
| [21] | 李志荣. 包埋颗粒内硝化菌增殖衰亡规律及硝化特性研究[D]. 上海:上海交通大学,2012 |
| [22] | 吴亚杰,李辉军,戴昕,等. 无机材料对固定化微生物凝胶球性能的影响[J]. 环境工程学报,2014,8(8):3289-3293 |
| [23] | 郑佩,陈芳艳,唐玉斌,等. 固定化菌藻微球的制备、表征及其对富营养化湖水的修复[J]. 环境工程学报,2014,8(5):1999-2005 |
| [24] | 晋凯迪,于鲁冀,陈慧敏,等. 亚硝化细菌吸附-包埋固定化方法的优化及其脱氮性能[J]. 水处理技术,2015,41(7):57-60 |
| [25] | REDDY L V A,WEE Y J,YUN J S,et al. Optimization of alkaline protease production by batch culture of Bacillus sp. RKY3 through Plackett-Burman and response surface methodological approaches[J]. Bioresource Technology,2008,99(7):2242-2249 |