从气体流中生物催化去除硫化氢

G. Tóth, É. Lövitusz, N. Nemestóthy, K. Bélafi-Bakó
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引用次数: 4

摘要

硫化氢是气相中产生难闻气味的重要物质之一。它的形成浓度通常高于其他含硫挥发性化合物,如甲烷硫醇(MT)、二甲基硫化物(DMS)和二甲基硫化物(DMDS)。硫化氢的去除通常是通过物理化学方法(如吸附)进行的,但现在一些生物过程可能被认为是有前途的替代方法。某些硫氧化硫杆菌可以成功地应用于沼气等气体流的硫化氢转化。目前已有多种菌株用于降解硫化氢,它们大多属于硫杆菌群,是一种自养微生物。这些自养细菌在应用上的缺点是它们的生长速度比异养细菌慢,并且难于控制它们的生长。许多趋化营养物适合于H2S的生物降解。这些细菌利用无机碳(CO2)作为碳源,利用还原的无机化合物(如H2S)氧化产生的化学能来生长和生产新的细胞材料。本文的目的是研究两种化学营养微生物(中间硫单胞菌和硫代硫杆菌)在间歇式生物反应器中消除硫化氢的能力。另一个目的是研究这些细菌在不同载体上的固定化。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Biocatalytic Hydrogen Sulphide Removal from Gaseous Streams
Hydrogen sulphide is one of the most important substances responsible for unpleasant odour emissions in gas phase. It is often formed in higher concentration beyond other sulphur containing volatile compounds like methane thiol (MT), dimethyl sulphide (DMS) and dimethyl disulphide (DMDS). Removal of hydrogen sulphide is usually carried out by physical-chemical methods (e.g. adsorption), but nowadays some bio-processes may be considered as promising alternatives. Certain sulphur oxidising thiobacteria can be successfully applied for hydrogen sulphide conversion from gaseous streams like biogas. Various strains have been applied so far for degradation of hydrogen sulphide, they belong mostly to the group of Thiobacillus, which are autotrophic microorganisms. These autotrophic bacteria have the drawback in application that they grow slower than the heterotrophic ones and it is more difficult to control their growth. A number of chemotrophs are suitable for the biodegradation of H2S. These bacteria grow and produce new cell material by using inorganic carbon (CO2) as a carbon source and chemical energy from the oxidation of reduced inorganic compounds such as H2S.The objective of the work described here was to study the ability of elimination of hydrogen sulphide by two chemotrophic microorganisms (Thiomonas intermedia, Thiobacillus thioparus) in a batch bioreactor. The other aim was the study of the immobilization of these bacteria to different supports.
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