四川环境
四川環境
사천배경
2012年
4期
65-70
,共6页
黑水%灰水%混合生活污水%预处理%人工湿地
黑水%灰水%混閤生活汙水%預處理%人工濕地
흑수%회수%혼합생활오수%예처리%인공습지
Black water%grey water%mixed domestic sewage%pre-treatment%constructed wetland
针对农村生活污水污染问题已成为影响我国农村水环境的主要因素以及目前黑灰分离收集处理与现状不相符合,本文对崇明县某村的污水排放特征以及水量水质进行调研,并对硝化预处理系统结合人工湿地反硝化以及脱氮预处理结合人工湿地深度处理两种运行模式进行了深入探讨并分析了其去除机理,结果显示,硝化预处理系统结合人工湿地反硝化由于后续反硝化需要投加大量碳源从经济管理方面而言变得不可行;脱氮预处理结合人工湿地深度处理在预处理系统以进水3h、曝气2h、沉淀0.5h、排水0.5h、气水比40∶1的模式运行、人工湿地水力停留时间为48h条件下出水可满足《城镇污水处理厂污染物排放标准》(GB18918-2002)的二级要求,且因氨氮指标的降低大幅缩短了人工湿地的水力停留时间而减小占地面积。
針對農村生活汙水汙染問題已成為影響我國農村水環境的主要因素以及目前黑灰分離收集處理與現狀不相符閤,本文對崇明縣某村的汙水排放特徵以及水量水質進行調研,併對硝化預處理繫統結閤人工濕地反硝化以及脫氮預處理結閤人工濕地深度處理兩種運行模式進行瞭深入探討併分析瞭其去除機理,結果顯示,硝化預處理繫統結閤人工濕地反硝化由于後續反硝化需要投加大量碳源從經濟管理方麵而言變得不可行;脫氮預處理結閤人工濕地深度處理在預處理繫統以進水3h、曝氣2h、沉澱0.5h、排水0.5h、氣水比40∶1的模式運行、人工濕地水力停留時間為48h條件下齣水可滿足《城鎮汙水處理廠汙染物排放標準》(GB18918-2002)的二級要求,且因氨氮指標的降低大幅縮短瞭人工濕地的水力停留時間而減小佔地麵積。
침대농촌생활오수오염문제이성위영향아국농촌수배경적주요인소이급목전흑회분리수집처리여현상불상부합,본문대숭명현모촌적오수배방특정이급수량수질진행조연,병대초화예처리계통결합인공습지반초화이급탈담예처리결합인공습지심도처리량충운행모식진행료심입탐토병분석료기거제궤리,결과현시,초화예처리계통결합인공습지반초화유우후속반초화수요투가대량탄원종경제관리방면이언변득불가행;탈담예처리결합인공습지심도처리재예처리계통이진수3h、폭기2h、침정0.5h、배수0.5h、기수비40∶1적모식운행、인공습지수력정류시간위48h조건하출수가만족《성진오수처리엄오염물배방표준》(GB18918-2002)적이급요구,차인안담지표적강저대폭축단료인공습지적수력정류시간이감소점지면적。
Now the domestic sewage in rural area has become the main factor affecting the water environment, and the separated collection and treatment of black water and grey water do not coincide with the present situation. In this paper, the discharging flow rate and quality of domestic sewage in a village of Chongming county were investigated. The two operation modes of sewage? purification, pre-treatment by nitrification combining denitrification using constructed wetland and pre-treatment by denitrifying combining advanced treatment using constructed wetland were discussed and their mechanisms were discussed. The results showed that the former was unfeasible economically due to requirement of a lot of carbon sources. While for the latter, the effluent quality met the requirement of Class lI from the Pollutants Discharge Standard of Municipal Sewage Treatment Plant ( GB18918-2002) of China at the operation conditions of pre-treatment influent for three hours, aeration for two hours, sediment for 0. 5 hour, drainage for 0. 5 hour, gas to water ratio 40:1 and 48 hours of hydraulic retention time for constructed wetland. Furthermore, the reduced ammonia nitrogen greatly shortened the hydraulic retention time of the constructed wedand, sequentially reduced the land occupation.
