Ramírez-Sáenz D, Zarate-Segura P B, Guerrero-Barajas C, García-Peña E I
Bioprocesses Department, Unidad Profesional Interdisciplinaria de Biotecnología-IPN, Avenida Acueducto s/n. Po Box 07340, Mexico DF, Mexico.
J Hazard Mater. 2009 Apr 30;163(2-3):1272-81. doi: 10.1016/j.jhazmat.2008.07.129. Epub 2008 Aug 5.
In the present work, the main objective was to evaluate a biofiltration system for removing hydrogen sulfide (H(2)S) and volatile fatty acids (VFAs) contained in a gaseous stream from an anaerobic digestor (AD). The elimination of these compounds allowed the potential use of biogas while maintaining the methane (CH(4)) content throughout the process. The biodegradation of H(2)S was determined in the lava rock biofilter under two different empty bed residence times (EBRT). Inlet loadings lower than 200 g/m(3)h at an EBRT of 81 s yielded a complete removal, attaining an elimination capacity (EC) of 142 g/m(3)h, whereas at an EBRT of 31 s, a critical EC of 200 g/m(3)h was reached and the EC obtained exhibited a maximum value of 232 g/m(3)h. For 1500 ppmv of H(2)S, 99% removal was maintained during 90 days and complete biodegradation of VFAs was observed. A recovery of 60% as sulfate was obtained due to the constant excess of O(2) concentration in the system. Acetic and propionic acids as a sole source of carbon were also evaluated in the bioreactor at different inlet loadings (0-120 g/m(3)h) obtaining a complete removal (99%) for both. Microcosms biodegradation experiments conducted with VFAs demonstrated that acetic acid provided the highest biodegradation rate.
在本研究中,主要目标是评估一种生物过滤系统,用于去除来自厌氧消化器(AD)的气流中所含的硫化氢(H₂S)和挥发性脂肪酸(VFA)。去除这些化合物能够在整个过程中保持甲烷(CH₄)含量的同时,实现沼气的潜在利用。在两种不同的空床停留时间(EBRT)下,测定了熔岩岩石生物滤池中H₂S的生物降解情况。在EBRT为81秒时,入口负荷低于200 g/m³·h可实现完全去除,去除容量(EC)达到142 g/m³·h;而在EBRT为31秒时,达到了200 g/m³·h的临界EC,所获得的EC最大值为232 g/m³·h。对于1500 ppmv的H₂S,在90天内保持了99%的去除率,并且观察到VFA完全生物降解。由于系统中O₂浓度持续过量,以硫酸盐形式获得了60%的回收率。还在生物反应器中评估了乙酸和丙酸作为唯一碳源在不同入口负荷(0 - 120 g/m³·h)下的情况,两者均实现了完全去除(99%)。用VFA进行的微观世界生物降解实验表明,乙酸的生物降解速率最高。
