中国给水排水
中國給水排水
중국급수배수
CHINA WATER & WASTEWATER
2010年
3期
96-99
,共4页
蒋永荣%邓秀梅%容翠娟%周若梅%韦添尹%黄清辉%覃梅连%农以宁
蔣永榮%鄧秀梅%容翠娟%週若梅%韋添尹%黃清輝%覃梅連%農以寧
장영영%산수매%용취연%주약매%위첨윤%황청휘%담매련%농이저
厌氧折流板反应器%糖蜜酒精废水%启动
厭氧摺流闆反應器%糖蜜酒精廢水%啟動
염양절류판반응기%당밀주정폐수%계동
anaerobic baffled reactor%molasses alcohol wastewater%start-up
为避免糖蜜酒精废水厌氧处理中硫酸盐还原菌(SRB)对产甲烷菌(MPB)的基质竞争性抑制,并消除硫化物对MPB的毒性作用,在30 ℃下,利用厌氧折流板反应器(ABR)对糖蜜酒精模拟废水进行了历时92 d的启动试验.结果表明,采用低COD和低SO_4~(2-)负荷启动,是ABR反应器成功启动的关键;成功启动后,各隔室出现明显的相分离(产酸还原硫酸盐相和生成硫单质产甲烷相)特征,说明在微氧/厌氧环境中,酸化菌(AB)可与SRB共存,无色硫细菌(CSB)可与MPB共存;在反应器的第4隔室生成大量单质硫颗粒,可以达到回收利用单质硫的目的.可见,采用ABR处理糖蜜酒精废水是完全可行的.
為避免糖蜜酒精廢水厭氧處理中硫痠鹽還原菌(SRB)對產甲烷菌(MPB)的基質競爭性抑製,併消除硫化物對MPB的毒性作用,在30 ℃下,利用厭氧摺流闆反應器(ABR)對糖蜜酒精模擬廢水進行瞭歷時92 d的啟動試驗.結果錶明,採用低COD和低SO_4~(2-)負荷啟動,是ABR反應器成功啟動的關鍵;成功啟動後,各隔室齣現明顯的相分離(產痠還原硫痠鹽相和生成硫單質產甲烷相)特徵,說明在微氧/厭氧環境中,痠化菌(AB)可與SRB共存,無色硫細菌(CSB)可與MPB共存;在反應器的第4隔室生成大量單質硫顆粒,可以達到迴收利用單質硫的目的.可見,採用ABR處理糖蜜酒精廢水是完全可行的.
위피면당밀주정폐수염양처리중류산염환원균(SRB)대산갑완균(MPB)적기질경쟁성억제,병소제류화물대MPB적독성작용,재30 ℃하,이용염양절류판반응기(ABR)대당밀주정모의폐수진행료력시92 d적계동시험.결과표명,채용저COD화저SO_4~(2-)부하계동,시ABR반응기성공계동적관건;성공계동후,각격실출현명현적상분리(산산환원류산염상화생성류단질산갑완상)특정,설명재미양/염양배경중,산화균(AB)가여SRB공존,무색류세균(CSB)가여MPB공존;재반응기적제4격실생성대량단질류과립,가이체도회수이용단질류적목적.가견,채용ABR처리당밀주정폐수시완전가행적.
In order to avoid substrate-competitive inhibition of sulfate reducing bacteria (SRB) on methane producing bacteria (MPB) in anaerobic treatment of molasses alcohol wastewater and reduce tox-icity inhibition of sulfide on MPB, the three-stage start-up experiment for treatment of simulated molasses alcohol wastewater was conducted with an anaerobic baffled reactor (ABR) at 30 ℃ and lasted 92 days. The results show that low COD and SO_4~(2-) loading are critical to the start-up of ABR. After the successful start-up, a significant separation phenomenon between acidogenic (or sulfate-reducing) phase and meth-anogenic (or sulfur-producing) phase occurs in each compartment, which shows that acidogenic bacteria (AB) can co-exist with SRB, and colorless sulfur bacteria (CSB) can co-exist with MPB in oxygen-lim-ited anaerobic environment. Also, an abundant amount of granular sulfur produced in the fourth compart-ment of ABR can be reused. The feasibility of treating molasses alcohol wastewater in ABR is evident.