濟寧天通污水處理設備技術參數
有機污染物從TT-CL1000系列污水處理設備去除氨氮主要依賴于設備中的AO生物處理工藝。好氧微生物分解為CO2和H2O的有機材料;自養菌(細菌)分解有機或無機空氣中CO2的碳作為一種在污水營養成NH 3-N的N - 2-on,N 3上源產生,O返回池池池和作為電子受體,通過氮污染和較終消除反硝化。因此,一級游泳池不僅具有去除有機物的功能,而且能減少后續好氧池的有機負荷,促進硝化作用。利用原水中的高濃度有機物,完成脫氮,較終消除氮營養富營養化的污染。其工作原理是在A級,由于廢水中有機物濃度高,微生物氣不足,微生物為兼性微生物,它們將污水中的有機氨轉化為氨氮的同時,有機碳的使用作為電子供體,NO 2-N,無氮轉化為N2,而且部分有機碳源和新的細胞物質氨氮合成使用。O期主要有好氧細菌和好氧菌(硝化細菌)。在O級,由于有機物濃度已大大減少,仍有一定量的有機質,為高氨氮存在進一步氧化分解有機物,硝化的順利進行時,碳化后,好氧生物接觸氧化池低有機負荷為零的水平設置。
工藝組成調節池:TT-CL1000系列調節時間為6 小時。
初沉池:TT-CL1000系列初沉池為平式沉淀池,表面負荷為1.5m3/m2.hr。
A級生物池:TT-CL1000系列A級生物池為推流式厭氧生化池,污水在池內的停留時間為 2小時,填料為彈性立體填料,填料比表面積為200m2/m3。
O級生物池:TT-CL1000系列O 級生物池為推動式生物接觸氧化他,污水在池內的停留時間為7.0小時,填料為彈性立體填料,填料比表面積為200m2/m3。
二沉池:TT-CL1000系列二沉池為旋流式沉淀池,表面負荷為1.0m3/m2.hr沉淀時間為2小時。
消毒池:TT-CL1000系列消毒池為旋流反應池,污水在池內總停留時間為40分鐘左右。
污泥池:TT-CL1000系列污泥池與初沉池泥斗容積之和能儲存180天污泥,然后可用吸糞車從污泥池的入孔伸入污泥池底部進行抽吸后外運即可。
濟寧天通品牌污水處理設備可埋入地表以下,地表可作為綠地或廣場,所以表面區域的設備,不需要建房子,但不需要加熱。TT-CL1000污水處理池由兩級,*一級是鋼筋混凝土結構,埋深較大,另一個是鋼結構,和埋藏深度淺。鋼結構水池采用*一種互穿網絡防腐涂層防腐。它是一個橡膠網和塑料網相互貫通形成互穿聚合物網絡耐酸、堿、鹽、汽油、煤油、耐老化、耐磨損,并能防銹防銹。設備一般涂上涂料后,防腐壽命可達15年以上。
The removal of ammonia nitrogen from the TT-CL1000 series *age treatment equipment is mainly dependent on the AO biological treatment process in the equipment. Aerobic microbial decomposition of organic materials CO2 and H2O; autotrophic bacteria (bacteria) decomposition of organic or inorganic carbon CO2 in the air as a nutrient in wastewater into NH N - 3-N 2-on, N 3 O source, the return of Ikeike Ikewa as an electron acceptor, and ultimately eliminate pollution of nitrogen through denitrification. Therefore, the first class swimming pool not only has the function of removing organic matter, but also reduces the organic load of the subsequent aerobic pool, and promotes the nitrification. The high concentration organic matter in the raw water is used to complete denitrification, and the pollution of nitrogen nutrition eutrophication is finally eliminated. Its working principle is in Grade A, because the organic wastewater of high concentration, microbial gas shortage, microorganisms as facultative microorganisms, they will organic ammonia in *age into ammonia nitrogen at the same time, the use of organic carbon as an electron donor, NO 2-N, no nitrogen into N2, and a portion of the organic carbon source and new the use of synthetic ammonia cell material. The O phase mainly includes aerobic bacteria and aerobic bacteria (nitrifying bacteria). At O level, as the concentration of organic compounds has been greatly reduced, there is still a certain amount of organic matter. For high ammonia nitrogen, there is further oxidation and decomposition of organic matter and nitrification is proceeding smoothly. After carbonization, the aerobic biological contact oxidation tank has low organic loading level of zero.