中国环境科学
中國環境科學
중국배경과학
CHINA ENVIRONMENTAL SCIENCE
2010年
4期
504-509
,共6页
厌氧氨氧化%制药废水%毒性机理
厭氧氨氧化%製藥廢水%毒性機理
염양안양화%제약폐수%독성궤리
anammox process%pharmaceutical wastewater%toxic mechanism
采用上流式厌氧氨氧化污泥床反应器考察了制药废水的生物脱氮性能,并采用发光细菌急性毒性试验研究了制药废水、厌氧氨氧化处理进出水的生物毒性,以及制药废水对厌氧氨氧化污泥的蓄积毒性.结果表明,当制药废水稀释30倍以上时,毒性物质浓度低于毒性抑制浓度阈值,厌氧氨氧化反应器运行性能良好,平均氨氮和亚硝氮去除率分别达87.8%和95.6%,平均总氮容积负荷可达10.38 kg/m~3·d);但当进水稀释小于20倍时,毒性物质浓度高于毒性抑制浓度阈值,反应器运行性能恶化,平均氨氮和亚硝氮去除率降至24.6%和26.0%,直到完全消失.制药废水、厌氧氨氧化反应器进出水均具有较强的生物毒性,在相对发光度为50%时,所对应的制药废水、反应器进水、出水的稀释倍数分别为70.5,5.19,7.77倍.经厌氧氨氧化处理后,出水毒性增强,说明制药废水毒性物质可在厌氧氨氧化污泥中蓄积,具有蓄积毒性.
採用上流式厭氧氨氧化汙泥床反應器攷察瞭製藥廢水的生物脫氮性能,併採用髮光細菌急性毒性試驗研究瞭製藥廢水、厭氧氨氧化處理進齣水的生物毒性,以及製藥廢水對厭氧氨氧化汙泥的蓄積毒性.結果錶明,噹製藥廢水稀釋30倍以上時,毒性物質濃度低于毒性抑製濃度閾值,厭氧氨氧化反應器運行性能良好,平均氨氮和亞硝氮去除率分彆達87.8%和95.6%,平均總氮容積負荷可達10.38 kg/m~3·d);但噹進水稀釋小于20倍時,毒性物質濃度高于毒性抑製濃度閾值,反應器運行性能噁化,平均氨氮和亞硝氮去除率降至24.6%和26.0%,直到完全消失.製藥廢水、厭氧氨氧化反應器進齣水均具有較彊的生物毒性,在相對髮光度為50%時,所對應的製藥廢水、反應器進水、齣水的稀釋倍數分彆為70.5,5.19,7.77倍.經厭氧氨氧化處理後,齣水毒性增彊,說明製藥廢水毒性物質可在厭氧氨氧化汙泥中蓄積,具有蓄積毒性.
채용상류식염양안양화오니상반응기고찰료제약폐수적생물탈담성능,병채용발광세균급성독성시험연구료제약폐수、염양안양화처리진출수적생물독성,이급제약폐수대염양안양화오니적축적독성.결과표명,당제약폐수희석30배이상시,독성물질농도저우독성억제농도역치,염양안양화반응기운행성능량호,평균안담화아초담거제솔분별체87.8%화95.6%,평균총담용적부하가체10.38 kg/m~3·d);단당진수희석소우20배시,독성물질농도고우독성억제농도역치,반응기운행성능악화,평균안담화아초담거제솔강지24.6%화26.0%,직도완전소실.제약폐수、염양안양화반응기진출수균구유교강적생물독성,재상대발광도위50%시,소대응적제약폐수、반응기진수、출수적희석배수분별위70.5,5.19,7.77배.경염양안양화처리후,출수독성증강,설명제약폐수독성물질가재염양안양화오니중축적,구유축적독성.
In order to develop effective process to remove nitrogen from pharmaceutical wastewater,the performance of anaerobic ammonia oxidation(anammox)for nitrogen removal from pharmaceutical wastewater was investigated using upflow anaerobic sludge bed (UASB) reactor.The acute toxicity of pharmaceutical wastewater,the influent and effluent of anammox UASB reactor as well as the cumulative toxicity of pharmaceutical wastewater to anammox sludge were also studied.The reactor operation results indicated that when the pharmaceutical wastewater was diluted more than 30 times,the toxicant concentration below the threshold and the operation performance of anammox reactor was very good,the average removal rate of ammonia and nitrite reached 87.8%and 95.6% respectively,the average volumetric total nitrogen loading rate was up to 10.38kg/(m~3·d).However,when the pharmaceutical wastewater was diluted less than 20 times,the toxicant concentration higher than the threshold and the operation performance of anammox reactor deteriorated,the average removal rate of ammonia and nitrite reduced to 24.6%and 26.0%,and then completely disappeared.The acute toxicity by photobacteria tests showed that the pharmaceutical wastewater,the influent and effluent of anammox process all had intense biotoxicity.When the relative luminosity was 50%,the dilution factors of the three samples were 70.5,5.19,7.77 respectively.After analnmox treatment,the toxicity of effluent enhanced.The cumulative toxicity by photobacteria tests suggested that the toxicants in pharmaceutical wastewater could cumulate in anamlnox sludge,leading to higher toxicity in the test Anammox sludge than that in the seed sludge.