Volume 10 Issue 1
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Article Navigation >  Journal of Environmental Engineering Technology  > 2020  >  10(1): 56-62
WANG Haishan, ZOU Ping, FU Xianping, DAI Ben, ZHU Fangfang, WANG Zitong. Research progress on combined biological purification technologies for black and smelly water bodies[J]. Journal of Environmental Engineering Technology, 2020, 10(1): 56-62. doi: 10.12153/j.issn.1674-991X.20190038
Citation: WANG Haishan, ZOU Ping, FU Xianping, DAI Ben, ZHU Fangfang, WANG Zitong. Research progress on combined biological purification technologies for black and smelly water bodies[J]. Journal of Environmental Engineering Technology, 2020, 10(1): 56-62. doi: 10.12153/j.issn.1674-991X.20190038
shu

Research progress on combined biological purification technologies for black and smelly water bodies

doi: 10.12153/j.issn.1674-991X.20190038
  • 1.

    Ecology and Environment College, Yunnan University

  • 2.

    Institute of International Rivers and Eco-Security, Yunnan University

  • 3.

    Key Laboratory of Plateau Mountain Ecology and Degraded Environment Restoration in Yunnan Province

  • 4.

    Yunnan Key Laboratory of International Rivers and Transboundary Eco-Security

More Information
  • Corresponding author: Ping ZOU E-mail: 851517048@qq.com
  • Received Date: 2019-03-13
  • Publish Date: 2020-01-20
    Abstract
  • At present, black and smelly water bodies appear in many cities and towns in China, so it is urgent to strengthen the control of black and smelly water bodies in cities and towns. The definition, formation process, characteristics of black and smelly water bodies and the present situation of treatment of them in China were introduced, the common methods of treatment were summarized, and the advantages and importance of biotechnology were put forward. The technical idea of combining biological technologies to treat black and smelly water bodies was expounded, which was to purify the water through several links of artificial aeration, adding bacteria agent, adding growth-promoting agent, adding fillers and planting aquatic plants. The purification principle of different links, main technical measures and research progress of combinatorial biotechnology were reviewed. The comprehensive application and effect of combinatorial biotechnology were summarized, and the future research direction of combinatorial biotechnology was prospected. It aims to provide a diversified view and reasonable control framework for the purification of black and smelly water bodies by combination technology.

     

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    • References(44)
  • [1]
    朱韻洁, 李国文, 张列宇 , 等. 黑臭水体治理思路与技术措施[J]. 环境工程技术学报, 2018,8(5):495-501.

    ZHU Y J, LI G W, ZHANG L Y , et al. Treatment ideas and technical measures of black and stinky water bodies[J]. Journal of Environmental Engineering Technology, 2018,8(5):495-501.
    [2]
    张杰, 韦道领, 应一梅 , 等. 厌氧处理原理及其在低浓度有机废水处理中的应用现状[J]. 环境科学与管理,2006(9):84-87.

    ZHANG J, WEI D L, YING Y M , et al. Study advances of low strength organic wastewater treatment at anaerobic conditions[J]. Environmental Science & Management,2006(9):84-87.
    [3]
    李伟洁, 汪永辉 . 铁离子在水体中价态的转化及其与河道黑臭的关系[J]. 净水技术,2007(2):35-37.

    LI W J, WANG Y H . The cycle and conversion of iron in the rivers and its relation to water blackening and stink[J]. Water Purification Technology,2007(2):35-37.
    [4]
    CORBETT D R . Resuspension and estuarine nutrient cycling:insights from the Neuse River Estuary[J]. Biogeosciences, 2010,7(10):3289-3300.
    [5]
    KALNEJAIS L H, MARTIN W R, BOTHNER M H . The release of dissolved nutrients and metals from coastal sediments due to resuspension[J]. Marine Chemistry, 2010,121(1/2/3/4):224-235.
    [6]
    YU S, LI H B . Perspectives on the release of heavy metals via sediment resuspension[J]. Ecology and Environmental Sciences, 2010,19(7):1724-1731.
    [7]
    柏杨巍, 李斌, 路金霞 , 等.强化督查, 倒逼实质性解决水体黑臭[J]. 环境保护, 2018,46(17):11-13.
    [8]
    RICHARDSON C J, FLANAGAN N E, HO M , et al. Integrated stream and wetland restoration:a watershed approach to improved water quality on the landscape[J]. Ecological Engineering, 2011,37(1):25-39.
    [9]
    TEH X Y, POH P E, GOUWANDA D , et al. Decentralized light greywater treatment using aerobic digestion and hydrogen peroxide disinfection for non-potable reuse[J]. Journal of Cleaner Production, 2015,99:305-311.
    [10]
    FACCIO G, KRUUS K, SALOHEIMO M , et al. Bacterial tyrosinases and their applications[J]. Process Biochemistry, 2012,47(12):1749-1760.
    [11]
    WANG W H, WANG Y, LI Z , et al.Effect of a strengthened ecological floating bed on the purification of urban landscape water supplied with reclaimed water[J].Science of the Total Environment, 2018, 622/ 623:1630-1639.
    [12]
    UGGETTI E, HUGHES-RILEY T, MORRIS R H , et al. Intermittent aeration to improve wastewater treatment efficiency in pilot-scale constructed wetland[J]. Science of the Total Environment, 2016,559:212-217.
    [13]
    FREITAS H E S, SANTANA K V D, PAIVA E C D , et al. Evaluation of using aluminum sulfate and water-soluble Moringa oleifera seed lectin to reduce turbidity and toxicity of polluted stream water[J]. Chemosphere, 2016,163:133-141.
    [14]
    BINDHU M R, UMADEVI M, MICHEAL M K , et al. Structural morphological and optical properties of MgO nanoparticles for antibacterial applications[J]. Materials Letters, 2016,166:19-22.
    [15]
    ZINGARETTI D, VERGINELLI I, BACIOCCHI R . Catalyzed hydrogen peroxide combined with CO2 sparging for the treatment of contaminated groundwater[J]. Chemical Engineering Journal, 2016,300:119-126.
    [16]
    谭晓林, 袁星 . 微生物强化技术在黑臭水体治理中的应用[J]. 中国水运, 2018,18(5):110-112.
    [17]
    王越, 程婧雯, 汪伯宁 , 等. 微气泡曝气对模拟黑臭水体的治理效果[J]. 净水技术, 2018,37(6):108-112.

    WANG Y, CHENG J W, WANG B N , et al. Effect of microbubble aeration on simulated black and odorous water body[J]. Water Purification Technology, 2018,37(6):108-112.
    [18]
    何岩, 姚丽平, 李文超 , 等. 黑臭河道底泥细菌群落结构对人工曝气响应的DGGE分析[J]. 华东师范大学学报(自然科学版),2015(2):84-90.

    HE Y, YAO L P, LI W C , et al. Responses of bacterial community structure in malodorous river sediments to aeration by DGGE[J]. Journal of East China Normal University(Natural Science),2015(2):84-90.
    [19]
    贾紫永, 刘强, 伍灵 , 等. 微纳米曝气技术在黑臭河道治理中的应用研究[J]. 化工管理,2017(36):106.
    [20]
    徐熊鲲, 谢翼飞, 陈政阳 , 等. 曝气强化微生物功能菌修复黑臭水体[J]. 环境工程学报, 2017,11(8):4559-4565.

    XU X K, XIE Y F, CHEN Z Y , et al. Remediation of urban black-odorous river by aeration enhancing functional strains[J]. Chinese Journal of Environmental Engineering, 2017,11(8):4559-4565.
    [21]
    黄红梅, 赵晓峰, 陆永跃 , 等. 昆虫共生放线菌多样性、功能及其活性次生代谢产物研究进展[J]. 环境昆虫学报, 2018,40(6):1266-1275.

    HUANG H M, ZHAO X F, LU Y Y , et al. Research progress on the diversity, function and activity secondary metabolites of insect symbiotic actinomycetes[J]. Journal of Environmental Entomology, 2018,40(6):1266-1275.
    [22]
    赵晓雨, 李梦, 唐金秀 , 等. 乳酸菌在抗病原微生物感染中的作用[J]. 微生物学杂志, 2018,38(6):107-113.

    ZHAO X Y, LI M, TANG J X , et al. The role of lactic acid bacteria in anti-pathogenic microorganism infection[J]. Journal of Microbiology, 2018,38(6):107-113.
    [23]
    邵昭 . 酵母菌对重金属离子的吸附研究[D]. 沈阳:沈阳理工大学, 2016.
    [24]
    赵志萍 . 河流黑臭水体的微生物修复研究[D]. 咸阳:西北农林科技大学, 2007.
    [25]
    高丹英, 杨娇艳, 王文玲 , 等. 黑臭水净化菌株的筛选及其水质改善能力[J]. 环境科学研究, 2010,23(3):350-354.

    GAO D Y, YANG J Y, WANG W L , et al. Screening of microorganisms for treatment of black and odorous water and study on their water quality improvement ability[J]. Research of Environmental Sciences, 2010,23(3):350-354.
    [26]
    黄菲菲 . 组合微生物对黑臭水的净化研究[D]. 武汉:华中师范大学, 2012.
    [27]
    杜聪, 冯胜, 张毅敏 , 等. 微生物菌剂对黑臭水体水质改善及生物多样性修复效果研究[J]. 环境工程, 2018,36(8):1-7.

    DU C, FENG S, ZHANG Y M , et al. Study on the improvement of water quality and biological diversity of black and odorous water by microbial inoculants[J]. Environmental Engineering, 2018,36(8):1-7.
    [28]
    刘溪 . 用微生物和酶制剂处理城市黑臭河道的研究[J]. 中国环保产业,2017(11):37-40.

    LIU X . Study on urban malodorous watercourse treated by microbe and enzyme pharmaceutics[J]. China’s Environmental Protection Industry,2017(11):37-40.
    [29]
    TANG V T, TRAN N B, NGUYEN N A, et al. 曝气结合投加微生物法去除河水氨氮效果研究[J]. 绿色科技,2017(6):5-8.
    [30]
    张秀芝, 邱金泉, 陈进斌 , 等. 固体生物促生剂净化河道水体的效果研究[J]. 环境科学与技术, 2017,40(增刊1):196-199.

    ZHANG X Z, QIU J Q, CHEN J B , et al. Study on effects of solid bio-stimulant on remediation of black-odorous river water[J]. Environmental Science & Technology, 2017,40(Suppl 1):196-199.
    [31]
    刘泽君 . 硝酸钙、生物促生剂和沉水植物对城市河道黑臭底泥微生物群落结构的影响[D]. 广州:暨南大学, 2017.
    [32]
    李继洲, 嵇浩然, 袁旭音 , 等. 投加生物促生剂、葡萄糖和氨基酸修复黑臭水体的效果[J]. 湖北农业科学, 2013,52(13):3027-3030.

    LI J Z, JI H R, YUAN X Y , et al. Study on remediation of black-odorous water by dosing bio-energizer,glucose and amino acid[J]. Hubei Agricultural Sciences, 2013,52(13):3027-3030.
    [33]
    吴光前, 刘倩灵, 周培国 , 等. 固定化微生物技术净化黑臭水体和底泥技术[J]. 水处理技术,2008(6):26-29.

    WU G Q, LIU Q L, ZHOU P G , et al. Remediation of polluted water and sediment by using immobilized microorganism technology[J]. Technology of Water Treatment,2008(6):26-29.
    [34]
    陈志刚 . 黑臭河水污染治理中的固定生物膜技术分析[J]. 科技创新与应用,2015(33):160-162.
    [35]
    阮宇鹰 . 黑臭河水生物栅处理系统中填料及植物根系微生物生态研究[D]. 上海:华东师范大学, 2008.
    [36]
    NARASIMHAN K, BASHEER C, BAJIC V B , et al. Enhancement of plant-microbe interactions using a rhizosphere metabolomics-driven approach and its application in the removal of polychlorinated biphenyls[J]. Plant Physiology, 2003,132(1):146-153.
    [37]
    熊明彪, 何建平, 宋光煜 . 根分泌物对根际微生物生态分布的影响[J]. 土壤通报, 2002,33(2):145-148.

    XIONG M B, HE J P, SONG G Y . Effect of root exudations on ecological distribution of rhizospheric microorganisms[J]. Chinese Journal of Soil Science, 2002,33(2):145-148.
    [38]
    藕翔 . 三种水生植物对黑臭水体修复效果的研究[D]. 合肥:合肥工业大学, 2018.
    [39]
    金树权, 周金波, 包薇红 , 等. 5种沉水植物的氮、磷吸收和水质净化能力比较[J]. 环境科学, 2017,38(1):156-161.

    JIN S Q, ZHOU J B, BAO W H , et al. Comparison of nitrogen and phosphorus uptake and water purification ability of five submerged macrophytes[J]. Environmental Science, 2017,38(1):156-161.
    [40]
    张梦绯 . 生态修复技术在治理城市黑臭河流的应用[J]. 污染防治技术, 2017,30(5):59-83.

    ZHANG M F . Application of ecological remediation technology in the renovation of urban black and odorous rivers[J]. Pollution Prevention Technology, 2017,30(5):59-83.
    [41]
    韩潇源, 宋志文, 李培英 . 高效净化氮磷污水的湿地水生植物筛选与组合[J]. 湖泊科学,2008(6):741-747.
    [42]
    路金霞, 柏杨巍, 傲德姆 , 等. 上海市黑臭水体整治思路、措施及典型案例分析[J]. 环境工程学报, 2019,13(3):541-549.

    LU J X, BO Y W, AO D M , et al. Analysis of regulation thoughts,measures and typical case for the black-stinking water body in Shanghai City,China[J]. Chinese Journal of Environmental Engineering, 2019,13(3):541-549.
    [43]
    迟娟, 姜勇, 袁训珂 , 等. 福创溪-大排沟黑臭水体一河一策治理工程[J]. 环境工程学报, 2019,13(2):496-504.

    CHI J, JIANG Y, YUAN X K , et al. Remediation project of black and odorous waterbody of Fuchuangxi and Dapaigou with one river and one policy[J]. Chinese Journal of Environmental Engineering, 2019,13(2):496-504.
    [44]
    王晓娟 . 南京市黑臭河道整治实践与思考:以农花河为例[J]. 中国水利,2018(21):25-27.

    WANG X J . Practices of black smelly river remediation in Nanjing City:a case study of the Nonghua River[J]. China Water Conservancy,2018(21):25-27.
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