中国给水排水
中國給水排水
중국급수배수
CHINA WATER & WASTEWATER
2010年
1期
24-27
,共4页
董春娟%冯美荣%王海会%陈素云%汪艳霞
董春娟%馮美榮%王海會%陳素雲%汪豔霞
동춘연%풍미영%왕해회%진소운%왕염하
EGSB反应器%焦化废水%驯化%产甲烷活性%微氧
EGSB反應器%焦化廢水%馴化%產甲烷活性%微氧
EGSB반응기%초화폐수%순화%산갑완활성%미양
EGSB reactor%coking wastewater%acclimation%methanogenic activity%micro-aerobic condition
为了确定处理焦化废水的EGSB反应器快速启动和高效稳定运行的可行性,在22~27℃的环境温度下,稳定进水COD为2 200 mg/L左右,通过逐渐提高焦化废水的添加比例来驯化EGSB反应器内的颗粒污泥,待进水完全为焦化废水后开始微氧曝气,对驯化过程中以及微量曝气后污泥产甲烷活性的变化进行了研究.结果表明:焦化废水会对EGSB反应器内颗粒污泥产生毒性抑制作用,使其产甲烷活性明显降低,与未添加焦化废水时相比,添加比例为100%时产甲烷活性降幅达75.8%.但颗粒污泥真正的产甲烷活性却几乎没有被抑制,当以乙酸钙为基质时产甲烷活性的降幅仅为6.23%.焦化废水对污泥产甲烷活性的抑制是可逆的,随着微生物菌群逐渐适应焦化废水的水质,颗粒污泥的活性又开始恢复.微氧曝气能够明显提高颗粒污泥的产甲烷活性.微氧时污泥的产甲烷活性比厌氧时提高了32.2%,对COD的去除率也由58%提高到了87.4%.
為瞭確定處理焦化廢水的EGSB反應器快速啟動和高效穩定運行的可行性,在22~27℃的環境溫度下,穩定進水COD為2 200 mg/L左右,通過逐漸提高焦化廢水的添加比例來馴化EGSB反應器內的顆粒汙泥,待進水完全為焦化廢水後開始微氧曝氣,對馴化過程中以及微量曝氣後汙泥產甲烷活性的變化進行瞭研究.結果錶明:焦化廢水會對EGSB反應器內顆粒汙泥產生毒性抑製作用,使其產甲烷活性明顯降低,與未添加焦化廢水時相比,添加比例為100%時產甲烷活性降幅達75.8%.但顆粒汙泥真正的產甲烷活性卻幾乎沒有被抑製,噹以乙痠鈣為基質時產甲烷活性的降幅僅為6.23%.焦化廢水對汙泥產甲烷活性的抑製是可逆的,隨著微生物菌群逐漸適應焦化廢水的水質,顆粒汙泥的活性又開始恢複.微氧曝氣能夠明顯提高顆粒汙泥的產甲烷活性.微氧時汙泥的產甲烷活性比厭氧時提高瞭32.2%,對COD的去除率也由58%提高到瞭87.4%.
위료학정처리초화폐수적EGSB반응기쾌속계동화고효은정운행적가행성,재22~27℃적배경온도하,은정진수COD위2 200 mg/L좌우,통과축점제고초화폐수적첨가비례래순화EGSB반응기내적과립오니,대진수완전위초화폐수후개시미양폭기,대순화과정중이급미량폭기후오니산갑완활성적변화진행료연구.결과표명:초화폐수회대EGSB반응기내과립오니산생독성억제작용,사기산갑완활성명현강저,여미첨가초화폐수시상비,첨가비례위100%시산갑완활성강폭체75.8%.단과립오니진정적산갑완활성각궤호몰유피억제,당이을산개위기질시산갑완활성적강폭부위6.23%.초화폐수대오니산갑완활성적억제시가역적,수착미생물균군축점괄응초화폐수적수질,과립오니적활성우개시회복.미양폭기능구명현제고과립오니적산갑완활성.미양시오니적산갑완활성비염양시제고료32.2%,대COD적거제솔야유58%제고도료87.4%.
At ambient temperature ( 22 to 27℃) , and with the influent COD concentration of a-bout 2 200 mg/L, the granular sludge in the expanded granular sludge bed (EGSB) reactor was acclimated through gradually increasing coking wastewater supplement ratios to determine the feasibility of rapid start-up, efficient and stable operation of the EGSB reactor in the treatment of actual coking wastewater. When the influent is totally coking wastewater, the micro-aerobic treatment began. The methanogenic activity of granular sludge at the acclimation stage and micro-aerobic stage was studied. The results indicate that the coking wastewater can distinctly restrain the granular sludge and reduce its methanogenic activity. But the methanogenic activity of the granular sludge is not really restrained. When using 100% coking wastewater instead of 0% coking wastewater, the decrease of methanogenic activity is 75. 8% when using coking wastewater as substrate, but only 6.23% when using calcium acetate as substrate. Moreover, the inhibition effect of coking wastewater on the methanogenesis is reversible, and the methanogenic activity of the granular sludge begins to recover as different microbial communities gradually adapt to the coking wastewater. The methanogenic activity of the granular sludge under the micro-aerobic condition is 32. 2% higher than that under the anaerobic condition. Also, the COD removal efficiency is increased from 58% to 87.4%.