Toh S K, Ashbolt N J
Environmental Engineering Research Centre, Civil and Environmental Engineering School, Nanyang Technological University, Singapore 640261.
Appl Microbiol Biotechnol. 2002 Jul;59(2-3):344-52. doi: 10.1007/s00253-002-1007-7. Epub 2002 May 15.
A consortium with autotrophic anaerobic ammonium oxidising (AAAO) activity was developed from municipal sludge, and its ability to remove high ammonium concentrations in a toxic wastewater such as coke ovens wastewater is presented here. The enriched AAAO consortium was acclimatised to a synthetic coke ovens wastewater to establish anaerobic ammonium oxidation (AAO) activity. Phenol was the main carbon component of the synthetic wastewater whereby it was added stepwise from 50+/-10 to 550+/-10 mg l(-1) into an anammox enrichment medium. Ammonium-N removal was initially impaired; however, it gradually recovered. After 15 months of further selection and enrichment, the ammonium removal rate reached 62+/-2 mg NH(4)(+)-N l(-1) day(-1), i.e. 1.5 times the rate in the original AAAO reactor. The new consortium demonstrated higher ammonium and nitrite removal rates, even under phenol perturbation (up to 330+/-10 mg l(-1)). It is therefore concluded that the AAO activity in the consortium was resistant to high phenol and has potential for treating coke-ovens wastewater.
从城市污泥中培育出了具有自养厌氧氨氧化(AAAO)活性的菌群,并在此展示了其在处理如焦炉废水这类有毒废水中高浓度铵的能力。将富集得到的AAAO菌群驯化至合成焦炉废水,以建立厌氧氨氧化(AAO)活性。苯酚是合成废水的主要碳成分,在厌氧氨氧化富集培养基中,苯酚从50±10mg/L逐步添加至550±10mg/L。起初,铵氮的去除受到抑制,但随后逐渐恢复。经过15个月的进一步筛选和富集,铵去除率达到62±2mg NH₄⁺-N/L·d⁻¹,即原始AAAO反应器中去除率的1.5倍。即使在苯酚干扰(高达330±10mg/L)的情况下,新菌群仍表现出更高的铵和亚硝酸盐去除率。因此可以得出结论,该菌群中的AAO活性对高浓度苯酚具有抗性,具有处理焦炉废水的潜力。