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页岩-钢渣组合填料湿地强化脱氮除磷研究 被引量:14

Studies on Nitrogen and Phosphorus Enhancing Removal in Combined Shale and Steel Slag Subsurface Constructed Wetlands
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摘要 以城市污水A/O工艺出水为处理对象,运用页岩和钢渣物化除磷、调控进水碳氮比和氮素氧化性等技术手段,在中试规模上研究了页岩和钢渣组合填料湿地的脱氮除磷效能及影响因素.结果表明,当COD面积负荷率、TN面积负荷率、TP面积负荷率、HRT(水力停留时间)分别为6.5~20.7g·(m^2·d)^-1、2.57~8.22g·(m^2·d)^-1、0.41~1.32g·(m^2·d)^-1、0.5~1.6d时,①氨氮、亚硝态氮和硝态氮的去除率分别为85.8%、56.3%和18.6%,TN去除率为58.0%,TN面积负荷去除率为3.58g·(m^2·d)^-1,TN反应动力学常数为0.31m·d^-1,TN面积负荷去除率随进水TN负荷的增加而线性增加.②TP去除率为90.4%,TP面积负荷去除率为0.89g·(m^2·d)^-1,TP反应动力学常数为0.86m·d^-1,TP面积负荷去除率随进水TP负荷的增加而线性增加.③水温、HRT、氮素组分、C/N等因素对湿地系统的脱氮除磷效率有显著影响.TN面积负荷去除率随HRT、COD/TN值的增加而幂函数增加.TN面积负荷去除率随水温、(NO2^- -N+NO3^- -N)/TN值的增加而呈指数函数增加. Effluent of municipal wastewater treatment plant operated under A/O process was treated by constructed wetlands for reclamation and reuse. These methods, such as phosphorus removal by adsorption of shale and steel slag, regulating C/N ratio and nitrogen oxidability in influent of wetland, were employed to study efficiency and impact factors of nitrogen and phosphorus removal in pilot-scale in combined shale and steel slag subsurface constructed wetlands. Results indicate that, When COD area load rate, TN area load rate, TP area load rate and hydraulic retention time (HRT) is 6.5- 20.7 g·(m^2·d)^-1, 2.57- 8.22 g·(m^2·d)^-1, 0.41 1.32 g·(m^2·d)^-1 and 0.5 - 1.6d, respectively. Removal efficiency of ammonium nitrogen, nitrite nitrogen and nitrate nitrogen is 85.8 %, 56.3 % and 18.6 %, respectively. Removal efficiency, area load removal rate and removal kinetic constant of total nitrogen are 58.0 % , 3.58 g·(m^2·d)^-1 and 0.31m· d^-1, respectively. TN area load removal rate is linearly increased with the increase of total nitrogen area load rate. Removal efficiency, area load removal rate and removal kinetic constant of total phosphorus are 90.4 %, 0.89 g·(m^2·d)^-1 and 0.86 m· d^- 1, respectively. TP area load removal rate is linearly increased with the increase of total phosphorus area load rate. Water temperature, HRT, COD/TN ratio and (NO2^- -N + NO3^- -N) /TN ratio are primary factors impacting nitrogen and phosphorus area load removal rate. Along with HRT and COD/TN ratio increase, TN area load removal rate increases according to power function. Along with water temperature and (NO2^- -N + NO3^- -N)/TN ratio increase, TN area load removal rate increases according to exponential function.
作者 谭洪新 周琪 杨殿海
机构地区 上海水产大学生命科学与技术学院 同济大学环境科学与工程学院
出处 《环境科学》 EI CAS CSCD 北大核心 2006年第11期2182-2187,共6页 Environmental Science
基金 国家高技术研究发展计划(863)项目(2002AA601023) 上海市重点学科建设项目(Y1101)
关键词 页岩 钢渣 潜流湿地 脱氮除磷 shale steel slag subsurface constructed wetland nitrogen and phosphorus removal
分类号 X799.3 [环境科学与工程—环境工程]
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参考文献10

  • 1Drizo A,Frost C A,Grace J,et al.Phosphate and ammonium distribution in a horizontal subsurface flow using shale as a substrate[J].Wat.Res.,2000,34(9):2483~2490.
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二级参考文献5

  • 1Kadlec R H,Knight R L.Treatment Wetland[M].Lewis Publishers.Chelsea,MI. 1996.215-243.
  • 2Zhu T, Jenssen P D, Maehlum T, Krogstad T. Phosphorus and chemical characteristics of lightweight aggregates(LWA):potential filter media in treatment wetland[J]. Water Sci. Technol. 1997.35(5): 103-108.
  • 3Drizo A, Frost C A, Grace J, Smith K A. Physico-chemieal screening of phosphate removing substrates for use in eonstructed wetland systems[J].Wat Res,1999,33(17):3595-3602.
  • 4Drizo A, Comeau Y, Forget C, Chapuis R P. Phosphorus saturation potential: A parameter for estimating the longevity of constructed wetland systems[J]. Environ Sci Technol, 2002,36(21):4642-4648.
  • 5李明锐,沙丽清.云南保山西庄河流域森林土壤磷吸附特性[J].山地学报,2002,20(3):313-318. 被引量:6

共引文献63

同被引文献225

引证文献14

二级引证文献101

环境科学
2006年 第11期

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