嗜热条件下废水中淀粉产生物氢
Biohydrogen production from starch in wastewater under thermophilic condition.
作者信息
Zhang Tong, Liu Hong, Fang Herbert H P
机构信息
Department of Civil Engineering, Centre for Environmental Engineering Research, University of Hong Kong, Pokulam Road, Hong Kong, China.
出版信息
J Environ Manage. 2003 Oct;69(2):149-56. doi: 10.1016/s0301-4797(03)00141-5.
Batch experiments were conducted to convert starch in wastewater into hydrogen at 55 degrees C at various wastewater pH (4.0-9.0) and starch concentrations (9.2-36.6 g/l). The maximum hydrogen yield of 92 ml/g of starch added (17% of the theoretical value) was found at wastewater pH 6.0, and the maximum specific hydrogen production rate of 365 ml/(g-VSS.d) was at wastewater pH 7.0. The methane-free biogas contained up to 60% of hydrogen. The mixed liquor was composed mostly of acetate (40.2-53.4%) and butyrate (26.0-40.9%). Phylogenetic analysis based on 16S rDNA sequences of the 72 clones developed from the sludge at pH 6.0 shows that 85.7% of the clones were closely affiliated with genus Thermoanaerobacterium in family Thermoanaerobacteriaceae; the remaining 14.3% were with an uncultured Saccharococcus sp. clone ETV-T2.
进行了批次实验,以在55摄氏度、不同废水pH值(4.0 - 9.0)和淀粉浓度(9.2 - 36.6克/升)的条件下将废水中的淀粉转化为氢气。在废水pH值为6.0时,发现最大氢气产量为每添加1克淀粉产生92毫升(为理论值的17%),在废水pH值为7.0时,最大比氢气产生速率为365毫升/(克 - VSS·天)。不含甲烷的沼气中氢气含量高达60%。混合液主要由乙酸盐(40.2 - 53.4%)和丁酸盐(26.0 - 40.9%)组成。基于从pH值为6.0的污泥中培养出的72个克隆的16S rDNA序列进行的系统发育分析表明,85.7%的克隆与热厌氧杆菌科中的热厌氧杆菌属密切相关;其余14.3%与未培养的糖球菌属克隆ETV - T2相关。
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