WU Tong, LING Yu, WANG Haiyan, CHANG Yang, DONG Weiyang, YAN Guokai. Review on the research and application development of MBBR carrier[J]. Journal of Environmental Engineering Technology, 2020, 10(6): 988-995. DOI: 10.12153/j.issn.1674-991X.20190144
Citation: WU Tong, LING Yu, WANG Haiyan, CHANG Yang, DONG Weiyang, YAN Guokai. Review on the research and application development of MBBR carrier[J]. Journal of Environmental Engineering Technology, 2020, 10(6): 988-995. DOI: 10.12153/j.issn.1674-991X.20190144

Review on the research and application development of MBBR carrier

More Information
  • Corresponding author:

    WANG Haiyan E-mail: wanghy@craes.org.cn

  • Received Date: August 12, 2019
  • Revised Date: July 11, 2020
  • Published Date: November 19, 2020
  • The moving bed biofilm reactor (MBBR) is a novel wastewater treatment process that has been widely used for all kinds of wastewater treatment, and the carrier is one of the key factors influencing the efficiency of MBBR. The research and application progress of the carriers with different material properties, the common fillers and modified fillers of different configurations used in MBBR at home and abroad were mainly reviewed, and the microbial communities characteristics of biofilm attached on different kinds of carriers were analyzed. Finally, the future development trend of carriers was put forward and it was considered that the development of the economic and durable carriers with various pollutants removal efficiency were the future development direction.
  • [1]
    贾丽萍, 姜彬慧, 王一迪, 等. 生物移动床处理农村面源生活污水试验研究[J]. 环境工程, 2016,34(4):16-19.

    JIA L P, JIANG B H, WANG Y D, et al. Treatment of rural non-point source domestic water by moving bed biofilm reactor[J]. Environmental Engineering, 2016,34(4):16-19.
    [2]
    王丹丹, 罗清威. 移动床-膜生物法餐饮废水深度处理[J]. 环境工程, 2015,33(12):19-23.

    WANG D D, LUO Q W. Depth treatment of restaurant wastewater by moving bed biofilm-membrane process[J]. Environmental Engineering, 2015,33(12):19-23.
    [3]
    SU J F, LUO X X, WEI L, et al. Performance and microbial communities of Mn(Ⅱ)-based autotrophic denitrification in a moving bed biofilm reactor (MBBR)[J]. Bioresource Technology, 2016,211:743-750.
    [4]
    叶杰旭, 穆永杰, 孙德智, 等. MBBR-MBR组合工艺处理生活垃圾沥滤液的研究[J]. 工业水处理, 2013,33(1):20-24.

    YE J X, MU Y J, SUN D Z, et al. Treatment of leachate from a domestic waste incineration plant by MBBR-MBR combined process[J]. Industrial Water Treatment, 2013,33(1):20-24.
    [5]
    钱亮, 贺北平, 刘瑞东, 等. 西安市第四污水处理厂一期工程升级改造经验总结[J]. 中国给水排水, 2016,32(2):74-78.

    QIAN L, HE B P, LIU R D, et al. Summary of experience in upgrading and reconstruction of first stage project of Xi’an Fourth WWTP[J]. China Water & Wastewater, 2016,32(2):74-78.
    [6]
    郭中伟, 史凯莹. MBBR工艺在污水处理厂升级改造中的应用[J]. 中国环保产业, 2016(10):66-68.

    GUO Z W, SHI K Y. Application of MBBR in upgrading reform of sewage treatment plants[J]. China Environmental Protection Industry, 2016(10):66-68.
    [7]
    AYGUN A, NAS B, BERKTAY A. Influence of high organic loading rates on COD removal and sludge production in moving bed biofilm reactor[J]. Environmental Engineering Science, 2008,25:1311-1316.
    [8]
    SHORE J L, M’COY W S, GUNSCH C K, et al. Application of a moving bed biofilmreactor for tertiary ammonia treatment in high temperature industrial wastewater[J]. Bioresource Technology, 2012,112:51-60.
    [9]
    王钊, 胡小兵, 许柯, 等. 电解氧化-AF-MBBR处理维生素C生产废水[J]. 中国环境科学, 2011,31(11):1795-1801.

    WANG Z, HU X B, XU K, et al. Advanced treatment of vitamin C wastewater by electrolytic oxidation and AF-MBBR integrated reactor[J]. China Environmental Science, 2011,31(11):1795-1801.
    [10]
    徐晓晨, 周亮, 王超, 等. SNAD-MBBR处理垃圾渗滤液厌氧出水的脱氮研究[J]. 中国给水排水, 2018,34(23):29-33.

    XU X C, ZHOU L, WANG C, et al. Nitrogen removal from anaerobic effluent of landfill leachate by SNAD-MBBR process[J]. China Water & Wastewater, 2018,34(23):29-33.
    [11]
    陈月芳, 王岩, 安丹凤, 等. 组合移动床生物膜(MBBR)中溶解氧浓度和进水流量变化对除碳脱氮的影响[J]. 科学技术与工程, 2016,16(4):130-134.

    CHEN Y F, WANG Y, AN D F, et al. Effect of dissolved oxygen mass concentration and influent flow rate on removal of carbon and nitrogen in combined moving bed biofilm reactor[J]. Science Technology and Engineering, 2016,16(4):130-134.
    [12]
    余春菲. 耦合生物膜系统中生物膜的粘附性能和微生物群落研究[D]. 广州:广东工业大学, 2016.
    [13]
    CHATTERJEE P, GHANGREKAR M M, RAO S. Organic matter and nitrogen removal in a hybrid upflow anaerobic sludge blanket-moving bed biofilm and rope bed biofilm reactor[J]. Journal of Environmental Chemical Engineering, 2016,4(3):3240-3245.
    [14]
    刘靖, 万新南. MBBR水气协同脱氮启动方法研究[J]. 广东微量元素科学, 2007,14(3):23-27.

    LIU J, WAN X N. Experimental study on NOx-process rapid start-up methods of MBBR[J]. Guangdong Trace Elements Science, 2007,14(3):23-27.
    [15]
    赵斌, 刘瑾, 潘博, 等. MBBR工艺处理食品加工区市政污水的工程应用[J]. 城市建设旬刊, 2011(1):114.
    [16]
    GOSWAMI S, MAZUMDER D. Comparative study between activated sludge process (ASP) and moving bed bioreactor (MBBR) for treating composite chrome tannery wastewater[J]. Materials Today:Proceedings, 2016,3(10):3337-3342.
    [17]
    王广智, 王敬元, 黄丽坤, 等. 好氧MBBR处理含吲哚废水的工艺优化试验研究[J]. 环境保护科学, 2017,43(2):41-46.

    WANG G Z, WANG J Y, HUANG L K, et al. Experimental study of the process optimization of Indole-contained wastewater treatment by aerobic MBBR[J]. Environmental Protection Science, 2017,43(2):41-46.
    [18]
    LIM J W, SENG C E, LIM P E, et al. Nitrogen removal in moving bed sequencing batch reactor using polyurethane foam cubes of various sizes as carrier materials[J]. Bioresource Technology, 2011,102(21):9876-9883.
    doi: 10.1016/j.biortech.2011.08.014 pmid: 21890353
    [19]
    CHU L, WANG J. Comparison of polyurethane foam and biodegradable polymer as carriers in moving bed biofilm reactor for treating wastewater with a low C/N ratio[J]. Chemosphere, 2011,83(1):63-68.
    [20]
    FENG Q, WANG Y, WANG T, et al. Effects of packing rates of cubic-shaped polyurethane foam carriers on the microbial community and the removal of organics and nitrogen in moving bed biofilm reactors[J]. Bioresource Technology, 2012,117:201-207.
    doi: 10.1016/j.biortech.2012.04.076 pmid: 22621807
    [21]
    冀巍. 大孔网状聚氨酯载体MBBR工艺处理低浓度硝基苯废水实验研究[J]. 环境科学与管理, 2014,39(6):101-104.

    JI W. Study on treatment of low concentration nitrobenzene by MBBR process using large bore reticulated polyurethane carrier[J]. Environmental Science and Management, 2014,39(6):101-104.
    [22]
    周艾文, 金腊华, 魏臻, 等. 生物陶粒MBBR同步硝化反硝化脱氮试验研究[J]. 工业用水与废水, 2010,41(5):30-34.

    ZHOU A W, JIN L H, WEI Z, et al. Experimental research on nitrogen removal by simultaneous nitrification and denitrification in bio-ceramic filled MBBR[J]. Industrial Water & Wastewater, 2010,41(5):30-34.
    [23]
    SHOKOOHI R, ASGARI G, LEILI M, et al. Efficiency of a bed biofilm reactor using a LECA carrier to treat hospital was tewater[J/OL]. Avicenna Journal of Environmental Health Engineering, 2016.doi: 10.17795/ajehe-5330.
    [24]
    KAVOOSI A, BORGHEEI M. The use of light expanded clay aggregates as a biological support in wastewater treatment[J]. Water and Wastewater, 2005,53:37-47.
    [25]
    苑泉, 王海燕, 刘凯, 等. 污水厂尾水MBBR反硝化深度脱氮填料比较[J]. 环境科学学报, 2015,35(3):713-721.

    YUAN Q, WANG H Y, LIU K, et al. Comparison of the MBBR denitrification carriers for advanced nitrogen removal of wastewater treatment plant effluent[J]. Acta Scientiae Circumstantiae, 2015,35(3):713-721.
    [26]
    CHU L, WANG J. Nitrogen removal using biodegradable polymers as carbon source and biofilm carriers in a moving bed biofilm reactor[J]. Chemical Engineering Journal, 2011,170(1):220-225.
    [27]
    郑兰香, 彭党聪. 反硝化MBBR中生物膜和悬浮微生物的特性[J]. 宁夏工程技术, 2006,5(1):54-56.

    ZHENG L X, PENG D C. Characteristics of attached biomass and suspended biomass in a denitrifying MBBR[J]. Ningxia Engineering Technology, 2006,5(1):54-56.
    [28]
    赵冬霞. 活性炭催化臭氧深度处理发酵废水与现场成套中试装置除污染效能研究[D]. 北京:北京林业大学, 2016.
    [29]
    徐斌, 夏四清, 胡晨燕, 等. MBBR工艺预处理黄浦江微污染原水[J]. 中国给水排水, 2004,20(8):5-9.

    XU B, XIA S Q, HU C Y, et al. MBBR technology for pretreatment of micro-polluted raw water in Huangpu River[J]. China Water & Wastewater, 2004,20(8):5-9.
    [30]
    LI L, YAN G K, WANG H Y, et al. Denitrification and microbial community in MBBR using A. donax as carbon source and biofilm carriers for reverse osmosis concentrate treatment[J]. Journal of Environmental Sciences, 2019,84(10):133-143.
    [31]
    刘晗. 丝瓜络悬浮填料移动床处理生活废水研究[J]. 云南化工, 2019(46):51-55.

    LIU H. Study on treatment of domestic wastewater with mobile bed of loofah suspension packing[J]. Yunnan Chemical Technology, 2019(46):51-55.
    [32]
    丁晶静. 移动床生物膜反应器填料的选择及其处理低浓度废水的特性研究[D]. 南京:南京理工大学, 2012.
    [33]
    MAURER M, FUX C, GRAFF M, et al. Moving-bed biological treatment (MBBT) of municipal wastewater: denitrification[J]. Water Science & Technology, 2001,43(11):337-344.
    pmid: 11443981
    [34]
    海景, 黄尚东, 程江, 等. 水处理用塑料生物膜载体改性研究进展[J]. 合成材料老化与应用, 2006,35(4):41-45.

    HAI J, HUANG S D, CHENG J, et al. Advanced in modification of plastic biofilm carriers for biodegration of wastewater[J]. Synthetic Materials Aging and Application, 2006,35(4):41-45.
    [35]
    安燕, 程江, 杨卓如, 等. 磁性聚乙烯填料对含酚废水好氧生物降解的影响[J]. 中国造纸, 2007,26(7):19-22.

    AN Y, CHENG J, YANG Z R, et al. Influence of magnetic polyethylene packing on biological degradation of phenol wastewater in aerated process[J]. China Pulp & Paper, 2007,26(7):19-22.
    [36]
    李亚峰, 李旭光, 单连斌, 等. 不同填料对AA-MBBR系统处理效果及菌群多样性影响[J]. 工业水处理, 2019,39(1):73-77.

    LI Y F, LI X G, SHAN L B, et al. Influence of different fillers on the treatment effect and flora diversity of AA-MBBR system[J]. Industrial Water Treatment, 2019,39(1):73-77.
    [37]
    李莉, 王海燕, 吴桐, 等. 反渗透浓水反硝化MBBR深度脱氮填料比较研究[C]// 2018中国环境科学学会科学技术年会论文集(第二卷).北京:中国环境科学学会, 2018.
    [38]
    郭志涛, 任洪强, 丁丽丽. 改性填料对移动床生物膜反应器性能的影响[J]. 化工环保, 2010(6):473-476.

    GUO Z T, REN H Q, DING L L. Influence of modified carriers on moving bed biofilm reactor[J]. Environmental Protection of Chemical Industry, 2010(6):473-476.
    [39]
    欧日浩, 何德文, 周康根, 等. 移动床生物膜反应器用聚乙烯填料的改性研究[J]. 湖南师范大学自然科学学报, 2019,42(2):69-74.

    OU R H, HE D W, ZHOU K G, et al. Modification of polyethylene biocarrier for moving-bed biofilm reactor[J]. Journal of Natural Science of Hunan Normal University, 2019,42(2):69-74.
    [40]
    张旭, 李媛, 柏丽梅, 等. 废水处理用聚乙烯生物填料表面改性与表征研究[J]. 环境工程学报, 2010,4(5):3-8.

    ZHANG X, LI Y, BAI L M, et al, Surface modification and characterization of polyethylene bio-carrier for wastewater treatment[J]. Chinese Journal of Environmental Engineering, 2010,4(5):3-8.
    [41]
    李彦锋, 赵光辉, 马鹏程, 等. 改性载体固定化微生物处理高氨氮废水的研究[J]. 安徽农业科学, 2008,36(7):2877-2879.

    LI Y F, ZHAO G H, MA P C, et al. Study on wastewater containing strong ammonium by immobilized microorganism of modified carrier[J]. Journal of Anhui Agricultural Science, 2008,36(7):2877-2879.
    [42]
    杜振峰, 王芬, 成国栋, 等. 化学氧化-铁离子覆盖改性聚氨酯泡沫塑料填料的特性[J]. 化工进展, 2012,31(7):1575-1580.

    DU Z F, WANG F, CHENG G D, et al. Characteristics of polyurethane (PU) foam plastics bio-carrier modified by chemical oxidation-surface covering with iron ion[J]. Chemical Industry and Engineering Process, 2012,31(7):1575-1580.
    [43]
    王玉晓, 孔秀琴, 冯权, 等. 以亲水化改性聚氨酯为多孔载体的生物膜移动床反应器处理污水中试研究[J]. 环境科学, 2012,33(10):3489-3494.

    WANG Y X, KONG X Q, FENG Q, et al. Pilot-scale study on treatment of municipal sewage by moving-bed biofilm reactor with the hydrophobically modified polyurethane cubes as biofilm carriers[J]. Environmental Science, 2012,33(10):3489-3494.
    [44]
    杜慷慨. 超声波在丙烯酸固相接枝聚丙烯中的应用[J]. 合成树脂及塑料, 2002,19(2):1-3.

    DU K K. The application of ultrasound in the research of acrylic acid solid phase grafting polypropylene[J]. China Synthetic Resins and Plastics, 2002,19(2):1-3.
    [45]
    ZHAO Y, CAO D, LIU L, et al. Municipal wastewater treatment by moving-bed-biofilm reactor with diatomaceous earth as carriers[J]. Water Environment Research, 2006,78(4):392-396.
    pmid: 16749307
    [46]
    DONG Z, LU M, HUANG W, et al. Treatment of oilfield wastewater in moving bed biofilm reactors using a novel suspended ceramic biocarrier[J]. Journal of Hazardous Materials, 2011,196:123-130.
    doi: 10.1016/j.jhazmat.2011.09.001 pmid: 21925792
    [47]
    齐勇, 陶涛, 吴韵瑕, 等. MBBR应用于污水处理厂提标改造中试研究[J]. 给水排水, 2011,37(11):132-135.

    QI Y, TAO T, WU Y X, et al. Pilot study on MBBR application in upgrading of sewage treatment plant[J]. Water & Wastewater Engineering, 2011,37(11):132-135.
    [48]
    BASSIN J P, RACHID C T C C, VILELA C, et al. Revealing the bacterial profile of an anoxic-aerobic moving-bed biofilm reactor system treating a chemical industry wastewater[J]. International Biodeterioration & Biodegradation, 2017,120:152-160.
    [49]
    GUSTAVSSON D J I, SUAREZ C, WILÉN B M, et al. Long-term stability of partial nitritation-anammox for treatment of municipal wastewater in a moving bed biofilm reactor pilot system[J]. Science of the Total Environment, 2020,74:136342.
    [50]
    SONG Z, ZHANG X B, SUN F Y, et al. Specific microbial diversity and functional gene (AOB amoA) analysis of a sponge-based aerobic nitrifying moving bed biofilm reactor exposed to typical pharmaceuticals[J]. Science of the Total Environment, 2020,742:140660.
    [51]
    GAO Y, WANG X, LI J, et al. Effect of aquaculture salinity on nitrification and microbial community in moving bed bioreactors with immobilized microbial granules[J]. Bioresource Technology, 2020,297:122427.
    doi: 10.1016/j.biortech.2019.122427 pmid: 31784249
    [52]
    姚美辰, 段亮, 张恒亮, 等. MBBR-MBR组合工艺处理生活污水试验中微生物种群结构的演变[J]. 环境工程技术学报, 2019,9(3):252-260.

    YAO M C, DUAN L, ZHANG H L, et al. Microbial community structure and succession of MBBR-MBR combined process for domestic wastewater treatment[J]. Journal of Environmental Engineering Technology, 2019,9(3):252-260.
    [53]
    LÜ Y F, PAN J J, HUO T R, et al. Enhanced microbial metabolism in one stage partial nitritation-anammox system treating low strength wastewater by novel composite carrier[J]. Water Research, 2019,163:114872.
    doi: 10.1016/j.watres.2019.114872 pmid: 31362210
  • Related Articles

    [1]YI Fu, YANG Lei, DU Changbo, CHENG Chuanwang. Effect of composite modifier on the physical properties of graphite tailings[J]. Journal of Environmental Engineering Technology, 2024, 14(3): 1015-1025. DOI: 10.12153/j.issn.1674-991X.20230898
    [2]XU Daifei, WU Bingdang, YANG Jingjing, SHEN Zhengdong, HUANG Tianyin. Removal efficiency of nitrobenzene and electricity generation by microbial fuel cell with algal biochar modified electrode[J]. Journal of Environmental Engineering Technology, 2023, 13(6): 2092-2104. DOI: 10.12153/j.issn.1674-991X.20230092
    [3]YAN Xianghua, LIU Xinghai, WANG Xingrun, ZHAO Caiyun, TONG Xuejiao. Condition optimization of pesticide contaminated soils remediation by modified Fenton reagent[J]. Journal of Environmental Engineering Technology, 2020, 10(2): 288-292. DOI: 10.12153/j.issn.1674-991X.20190094
    [4]FANG Kai, SHANG Weichun, YAO Junqi, ZHONG Tianyi, FENG Qian, GE Ran. A study on the regeneration of lanthanum modified attapulgite[J]. Journal of Environmental Engineering Technology, 2020, 10(1): 91-96. DOI: 10.12153/j.issn.1674-991X.20190078
    [5]LI Zhilin, XIE Yufeng, CHENG Deyi, WANG Lei, SHI Jiaqi, ZHU Xin. Adsorption properties of ammonia-modified wheat straw on aquatic cadmium[J]. Journal of Environmental Engineering Technology, 2019, 9(5): 566-572. DOI: 10.12153/j.issn.1674-991X.2019.04.010
    [6]SHI Wanli, ZHAO Zehua, YE Fei, XU Yuanshun. Experimental study on adsorption of copper containing wastewater by modified attapulgite[J]. Journal of Environmental Engineering Technology, 2018, 8(2): 169-175. DOI: 10.3969/j.issn.1674-991X.2018.02.023
    [7]FANG Caixia, LI Fangfang, JIA Jing, WANG Bin. Adsorption of cationic dye from aqueous solution by thiol-modified Spartina alterniflora[J]. Journal of Environmental Engineering Technology, 2017, 7(2): 188-193. DOI: 10.3969/j.issn.1674-991X.2017.02.028
    [8]WANG Yannan, LI Wenwen, SUN Yunfei, ZHAO Guangchao. Removal of Malachite Green in Simulated Wastewater by Modified Bagasse[J]. Journal of Environmental Engineering Technology, 2016, 6(5): 434-439. DOI: 10.3969/j.issn.1674-991X.2016.05.064
    [9]LI Chunmei, WANG Haiyan, WANG Youle, HANG Qianyu, CHENG Zirui, LIU Kai. Influence of the Liquid-phase Chemical Method Modified MBBR Carriers on Advanced Nitrogen Removal of Urban Wastewater Treatment Plant Effluent[J]. Journal of Environmental Engineering Technology, 2016, 6(4): 336-342. DOI: 10.3969/j.issn.1674-991X.2016.04.050
    [10]ZHAO Hai-xia, SONG Yong-hui, QIAN Feng, DENG Zun, YUAN Lin-jiang. Process of Phosphorus and Nitrogen Dissolution from Sludge by Anaerobic Digestion and Their Recovery by Modified Red Mud Seeded Crystallization[J]. Journal of Environmental Engineering Technology, 2012, 2(6): 473-479. DOI: 10.3969/j.issn.1674-991X.2012.06.074
  • Cited by

    Periodical cited type(20)

    1. 徐伟,李斐,陈锐. 基于综合评分法筛选填埋场周边浅层地下水优控有机污染物研究. 环境污染与防治. 2024(04): 569-574 .
    2. 丁琪琪,胡琳,王子洲,蒋涛,王晓敏,李欲如,许明珠. 浙北地区典型饮用水水源地优先污染物筛选. 给水排水. 2024(04): 1-11 .
    3. 齐翠翠,金胜,许子牧. 基于信息调查和高分辨质谱的新污染物筛查研究进展. 环境与健康杂志. 2024(07): 648-653 .
    4. 许利,何鹏,张熠杰,韦娅俪. 化工园区污水处理厂排放标准管控指标探析. 环境保护与循环经济. 2024(07): 101-106 .
    5. 赵曦,韦斯. 环境样品新污染物非靶向识别结果中定量检测因子优选指标体系研究. 环境工程. 2024(07): 81-87 .
    6. 冯尚华,蒋波,张建平,赵仕华. 含苯胺废水处理技术研究进展. 工业水处理. 2023(06): 32-44 .
    7. 周峰,李朋,翁茂芝,邢新丽,刘力,张雅,朱晛亭,罗红. 武汉龙阳湖、墨水湖沉积物重金属生态风险评价. 中国环境科学. 2023(10): 5433-5443 .
    8. 刘媚,郇环,谢先军,杨洋,李海祥,晁韶良. 基于ETD模型的化工园区地下水中优控污染物筛选方法研究. 安全与环境工程. 2023(06): 192-201 .
    9. 丁琪琪,龚雄虎,王兆德,金苗,卢少勇,张路,赵中华. 基于多指标综合评分法筛选地表水环境优先污染物——以湖北涨渡湖为例. 湖泊科学. 2022(01): 90-108 .
    10. 陈莹,杨凯,杨梦杰,卢士强,朱永青,徐露,钱美尹,施泠西. 长三角生态绿色一体化示范区优先污染物筛选及协同监测探讨. 长江流域资源与环境. 2022(02): 358-365 .
    11. 林海龙,张凡,杜磊,张志鹏,傅佳泽. 环境有机污染物质谱分析应用研究进展. 广州化工. 2022(10): 6-10 .
    12. 吴颜岐,宋帅,史雅娟,刘莹,杨胜杰. 天津市地表水中新型优先污染物筛选与管控对策. 环境科学. 2022(08): 4074-4086 .
    13. 刘琳豆,崔倩,杨波,董小艳,王琼. 环境污染物的优先筛选方法及中国优先污染物筛选结果分析研究. 环境卫生学杂志. 2022(08): 611-619 .
    14. 王伟霞,姚烘烨,赵静,顾凰琳,张丹,刘伟. 基于逼近理想解排序的江苏省优先控制毒害有机化学物质筛查研究. 生态毒理学报. 2022(04): 197-212 .
    15. 毛小柳. 基于层次分析法的化工园区气态优先控制污染物筛查研究——以南京江北新材料科技园为例. 黑龙江环境通报. 2022(04): 34-38 .
    16. 张丽丽,朱晓晶,于洋,牛文凤,郑玉婷,张杨,林军. 京津冀及周边地区优先控制有毒有害大气污染物名录研究. 环境科学研究. 2021(01): 194-201 .
    17. 龚雄虎,丁琪琪,金苗,薛滨,张路,姚书春,王兆德,卢少勇,赵中华. 升金湖水体优先污染物筛选与风险评价. 环境科学. 2021(10): 4727-4738 .
    18. 陈旭东. 基于熵权法的化工园区有毒有害大气污染物环境风险排序研究. 化工管理. 2021(29): 69-71 .
    19. 方镜尧,童颂颖,张林,鲍雅莉,沈盼盼,翁兴彪,顾海涛. 某工业园区VOCs监测预警系统研究与应用. 环境科技. 2021(05): 52-56 .
    20. 胡志军,董其超,王志良. 江苏省化学工业大气优先控制挥发性有机物筛选方法及候选名录研究?. 广州化学. 2019(02): 17-24 .

    Other cited types(20)

Catalog

    Article Metrics

    Article views (1016) PDF downloads (212) Cited by(40)
    Related

    /

    DownLoad:  Full-Size Img  PowerPoint
    Return
    Return