Udert K M, Fux C, Münster M, Larsen T A, Siegrist H, Gujer W
Swiss Federal Institute for Aquatic Science and Technology (EAWAG) and Swiss Federal Institute of Technology (ETH), 8600 Dübendorf, Switzerland.
Water Sci Technol. 2003;48(1):119-30.
In laboratory experiments, source-separated urine was stabilised with nitrification and denitrified via nitritation and anaerobic ammonium oxidation. The highest total ammonia concentration in the influent was 7,300 gN/m3, the maximum pH 9.2. In a moving bed biofilm reactor (MBBR) with Kaldnes biofilm carriers, we stabilised urine as a 1:1 ammonium nitrate solution. The maximum nitrification rate was 380 gN/m3/d corresponding to 1.7 gN/m2(biofilm)/d. Nitrite ammonium solutions were produced in a continuous flow stirred tank reactor (CSTR) with 4.8 days sludge retention time (SRT) at 30 degrees C and in a sequencing batch reactor (SBR) with more than 30 days SRT. Nitrate build-up was negligible in both reactors. Nitritation rates were 780 gN/m3/d in the CSTR and 280 gN/m3/d in the SBR, respectively. However, shortening the cycles would increase nitritation in the SBR. High concentrations of nitrous acid, salts, and presumably hydroxylamine suppressed nitrite oxidation in the nitritation reactors. In all three nitrification reactors, maximally 50% of the influent total ammonia was oxidised without pH control. None of the common inhibition or limitation approaches could explain why ammonia oxidation always stopped at pH values around 6. In a batch experiment, we showed that source-separated urine can be denitrified autotrophically by anammox bacteria.
在实验室实验中,源分离尿液通过硝化作用实现稳定,并经由亚硝化作用和厌氧氨氧化进行反硝化。进水的最高总氨浓度为7300 gN/m³,最大pH值为9.2。在装有卡尔德内斯生物膜载体的移动床生物膜反应器(MBBR)中,我们将尿液稳定为1:1的硝酸铵溶液。最大硝化速率为380 gN/m³/d,相当于1.7 gN/m²(生物膜)/d。在30℃下污泥停留时间(SRT)为4.8天的连续流搅拌釜式反应器(CSTR)和SRT超过30天的序批式反应器(SBR)中产生了亚硝酸铵溶液。两个反应器中的硝酸盐积累均可忽略不计。CSTR中的亚硝化速率分别为780 gN/m³/d,SBR中的亚硝化速率为280 gN/m³/d。然而,缩短周期会增加SBR中的亚硝化作用。高浓度的亚硝酸、盐以及可能的羟胺抑制了亚硝化反应器中的亚硝酸盐氧化。在所有三个硝化反应器中,在不控制pH值的情况下,最大有50%的进水总氨被氧化。没有一种常见的抑制或限制方法能够解释为什么氨氧化总是在pH值约为6时停止。在一个批次实验中,我们表明源分离尿液可以被厌氧氨氧化细菌自养反硝化。
