Environmental Science Program, College of Natural Resources, University of Idaho, Moscow, ID, 83843, USA.
Department of Soil and Water Systems, Twin Falls Research and Extension Center, University of Idaho, 315 Falls Avenue, PO Box 1827, Twin Falls, ID, 83303-1827, USA.
Appl Biochem Biotechnol. 2024 Jan;196(1):537-557. doi: 10.1007/s12010-023-04562-2. Epub 2023 May 8.
The technological development for efficient nutrient removal from liquid dairy manure is critical to a sustainable dairy industry. A nutrient removal process using a two-step fed sequencing batch reactor (SBR) system was developed in this study to achieve the applicability of simultaneous removal of phosphorus, nitrogen, and chemical oxygen demand from anaerobically digested liquid dairy manure (ADLDM). Three operating parameters, namely anaerobic time:aerobic time (min), anaerobic DO:aerobic DO (mg L), and hydraulic retention time (days), were systematically investigated and optimized using the Taguchi method and grey relational analysis for maximum removal efficiencies of total phosphorus (TP), ortho-phosphate (OP), ammonia-nitrogen (NH-N), total nitrogen (TN), and chemical oxygen demand (COD) simultaneously. The results demonstrated that the optimal mean removal efficiencies of 91.21%, 92.63%, 91.82%, 88.61%, and 90.21% were achieved for TP, OP, NH-N, TN, and COD at operating conditions, i.e., anaerobic:aerobic time of 90:90 min, anaerobic DO:aerobic DO of 0.4:2.4 mg L, and HRT of 3 days. Based on analysis of variance, the percentage contributions of these operating parameters towards the mean removal efficiencies of TP and COD were ranked in the order of anaerobic DO:aerobic DO > HRT > anaerobic time:aerobic time, while HRT was the most influential parameter for the mean removal efficiencies of OP, NH-N, and TN followed by anaerobic time:aerobic time and anaerobic DO:aerobic DO. The optimal conditions obtained in this study are beneficial to the development of pilot and full-scale systems for simultaneous biological removal of phosphorus, nitrogen, and COD from ADLDM.
从液体乳制品废水中高效去除营养物质的技术发展对于可持续的乳制品行业至关重要。本研究开发了一种两步 fed 序批式反应器(SBR)系统的营养物质去除工艺,以实现同时从厌氧消化液体乳制品废水中(ADLDM)去除磷、氮和化学需氧量(COD)的适用性。使用 Taguchi 方法和灰色关联分析系统地研究和优化了三个操作参数,即厌氧时间:好氧时间(分钟)、厌氧 DO:好氧 DO(mg L)和水力停留时间(天),以获得总磷(TP)、正磷酸盐(OP)、氨氮(NH-N)、总氮(TN)和 COD 的最大去除效率。结果表明,在操作条件下,即厌氧:好氧时间为 90:90 分钟,厌氧 DO:好氧 DO 为 0.4:2.4 mg L,HRT 为 3 天时,TP、OP、NH-N、TN 和 COD 的最佳平均去除效率分别为 91.21%、92.63%、91.82%、88.61%和 90.21%。方差分析表明,这些操作参数对 TP 和 COD 平均去除效率的贡献百分比依次为厌氧 DO:好氧 DO> HRT >厌氧时间:好氧时间,而 HRT 是对 OP、NH-N 和 TN 的平均去除效率影响最大的参数,其次是厌氧时间:好氧时间和厌氧 DO:好氧 DO。本研究中获得的最佳条件有利于开发同时从 ADLDM 中生物去除磷、氮和 COD 的中试和全规模系统。
