河南科学
河南科學
하남과학
HENAN SCIENCE
2014年
2期
263-269
,共7页
刘冰%古励%李清飞%翟慧敏%余国忠
劉冰%古勵%李清飛%翟慧敏%餘國忠
류빙%고려%리청비%적혜민%여국충
饮用水生物滤池%氮亏损现象%NH4+-N去除%陶粒和活性炭
飲用水生物濾池%氮虧損現象%NH4+-N去除%陶粒和活性炭
음용수생물려지%담우손현상%NH4+-N거제%도립화활성탄
drinking water biofilter%nitrogen loss phenomenon%removal of NH4+-N%ceramic and activated carbon
为探讨饮用水生物滤池对NH4+-N去除和“氮亏损”现象的影响因素,测定生物滤池进出水中NH4+-N,NO2--N, NO3--N等指标.结果表明,陶粒生物滤池对NH4+-N的去除率从14.97%到60.99%,活性炭生物滤池对NH4+-N的去除率从16.59%到83.02%;陶粒和活性炭滤池对NH4+-N的去除率都随着流速的增加而降低;陶粒滤池内NH4+-N的去除率随着气水比和C∶N的增加而先增加后下降;NH4+-N的去除率在活性炭滤池内随C∶N的增加而降低,气∶水的增加而增加;气∶水对两种生物滤池中NH4+-N去除的影响最大.陶粒生物滤池氮亏损的量从0.10 mg/L到0.70 mg/L,活性炭生物滤池氮亏损量从0.11 mg/L到1.01 mg/L;氮亏损量随着流速增加而降低,随着气水比增加而增加,随着C∶N的增加而先下降后增加;气水比对陶粒和活性炭生物滤池的氮亏损量影响最大.
為探討飲用水生物濾池對NH4+-N去除和“氮虧損”現象的影響因素,測定生物濾池進齣水中NH4+-N,NO2--N, NO3--N等指標.結果錶明,陶粒生物濾池對NH4+-N的去除率從14.97%到60.99%,活性炭生物濾池對NH4+-N的去除率從16.59%到83.02%;陶粒和活性炭濾池對NH4+-N的去除率都隨著流速的增加而降低;陶粒濾池內NH4+-N的去除率隨著氣水比和C∶N的增加而先增加後下降;NH4+-N的去除率在活性炭濾池內隨C∶N的增加而降低,氣∶水的增加而增加;氣∶水對兩種生物濾池中NH4+-N去除的影響最大.陶粒生物濾池氮虧損的量從0.10 mg/L到0.70 mg/L,活性炭生物濾池氮虧損量從0.11 mg/L到1.01 mg/L;氮虧損量隨著流速增加而降低,隨著氣水比增加而增加,隨著C∶N的增加而先下降後增加;氣水比對陶粒和活性炭生物濾池的氮虧損量影響最大.
위탐토음용수생물려지대NH4+-N거제화“담우손”현상적영향인소,측정생물려지진출수중NH4+-N,NO2--N, NO3--N등지표.결과표명,도립생물려지대NH4+-N적거제솔종14.97%도60.99%,활성탄생물려지대NH4+-N적거제솔종16.59%도83.02%;도립화활성탄려지대NH4+-N적거제솔도수착류속적증가이강저;도립려지내NH4+-N적거제솔수착기수비화C∶N적증가이선증가후하강;NH4+-N적거제솔재활성탄려지내수C∶N적증가이강저,기∶수적증가이증가;기∶수대량충생물려지중NH4+-N거제적영향최대.도립생물려지담우손적량종0.10 mg/L도0.70 mg/L,활성탄생물려지담우손량종0.11 mg/L도1.01 mg/L;담우손량수착류속증가이강저,수착기수비증가이증가,수착C∶N적증가이선하강후증가;기수비대도립화활성탄생물려지적담우손량영향최대.
In order to explore the impacting factors of NH4+-N removal and“nitrogen loss” in drinking biofilter, water quality parameters,such as NH4+-N,NO2--N,NO3--N,and dissolved oxygen etc,were determined in inflow and outflow of biofilter. Removal of NH4+-N was increased from 14.97% to 60.99% in ceramic biofilter,and that in activated carbon biofilter was increased from 16.59% to 83.02%. NH4+-N removal was decreased with the increase of the flow rate in ceramic and activated carbon biofilter. Removal of NH4+-N in ceramic biofilter was first increased and then decreased with the ratio of air/water and C∶N. In activated carbon biofilter,NH4+-N removal was decreased with the ratio of C∶N and increased with the ratio of air/water. The ratio air/water has maximum impacting factor for removal of NH4+-N. Nitrogen losses increased from 0.10 mg/L to 0.70 mg/L in ceramic biofilter,and from 0.11 mg/L to 1.01 mg/L in activated carbon biofilter. The amount of nitrogen loss was decreased with the flow rate increase,and increased with the increase air-water ratio. Nitrogen loss first increased and then decreased with the ratio of C∶N. The ratio air/water has maximum impacting factor for nitrogen losses.
