河南农业大学学报
河南農業大學學報
하남농업대학학보
ACTA AGRICULTURAE UNIVERSITATIS HENANENSIS
2009年
5期
567-571
,共5页
张全国%申翔伟%周雪花%王素兰%荆艳艳%李刚
張全國%申翔偉%週雪花%王素蘭%荊豔豔%李剛
장전국%신상위%주설화%왕소란%형염염%리강
光合细菌%制氢%工艺参数%产热量
光閤細菌%製氫%工藝參數%產熱量
광합세균%제경%공예삼수%산열량
photosynthetic bacteria%hydrogen production%technological parameters%heat output
研究了光合细菌制氢工艺参数时产热量的影响.结果表明,初始温度、接种量、光照度、PSB初期活性和pH值等制氢工艺参数对系统产热量均有明显影响,而且产生较高热量的光合细菌制氢工艺条件为初始温度30℃,光照度2 000~3 000 lx.接种量50%~100%,pH值7.0,PSB初期活性72 h.
研究瞭光閤細菌製氫工藝參數時產熱量的影響.結果錶明,初始溫度、接種量、光照度、PSB初期活性和pH值等製氫工藝參數對繫統產熱量均有明顯影響,而且產生較高熱量的光閤細菌製氫工藝條件為初始溫度30℃,光照度2 000~3 000 lx.接種量50%~100%,pH值7.0,PSB初期活性72 h.
연구료광합세균제경공예삼수시산열량적영향.결과표명,초시온도、접충량、광조도、PSB초기활성화pH치등제경공예삼수대계통산열량균유명현영향,이차산생교고열량적광합세균제경공예조건위초시온도30℃,광조도2 000~3 000 lx.접충량50%~100%,pH치7.0,PSB초기활성72 h.
The paper studies the effect of different technological parameters of the photosynthetic bacteria( PSB) hydrogen production system on the heat output. The result showed that such technological parameters as the initial temperature, illumination, inoculation, initial activity of PSB and the pH value all had significant impact on heat production. When the initial temperature was 30 ℃ , illumination 2 000 ~3 000 lx, inoculation 50% ~ 100% , the pH value 7.0, the initial activity of PSB 72 h, the system would produce much more heat.
