林产化学与工业
林產化學與工業
림산화학여공업
CHEMISTRY AND INDUSTRY OF FOREST PRODUCTS
2014年
1期
13-18
,共6页
陈坤%徐龙君%杨睿%毕智明%符志磊
陳坤%徐龍君%楊睿%畢智明%符誌磊
진곤%서룡군%양예%필지명%부지뢰
稻草秸秆%燃料乙醇%动力学%类分形
稻草秸稈%燃料乙醇%動力學%類分形
도초갈간%연료을순%동역학%류분형
straw stalk%fuel ethanol%kinetics%fractal-like
在纤维素酶20 U/g,发酵温度38℃,接种量15%,管囊酵母和酿酒酵母的接种比例2:1条件下,选择不同的固液比(1:5、1:10、1:15和1:20),研究了稻草秸秆同时糖化法产乙醇的动力学。结果表明:固液比1:15时,获得了较高的乙醇产率为0.183 g/g,方程c=abt/(1+bt)可以被用来描述乙醇浓度(c)与发酵时间(t)的关系,动力学参量a随着固液比减小而减小,而动力学参量b随着固液比的减小而增加;同时,在不同固液比条件下,稻草秸秆转化乙醇反应被证明是类分形的,方程k=k1 t-h能被用来很好的描述速率常数与发酵时间之间的关系。
在纖維素酶20 U/g,髮酵溫度38℃,接種量15%,管囊酵母和釀酒酵母的接種比例2:1條件下,選擇不同的固液比(1:5、1:10、1:15和1:20),研究瞭稻草秸稈同時糖化法產乙醇的動力學。結果錶明:固液比1:15時,穫得瞭較高的乙醇產率為0.183 g/g,方程c=abt/(1+bt)可以被用來描述乙醇濃度(c)與髮酵時間(t)的關繫,動力學參量a隨著固液比減小而減小,而動力學參量b隨著固液比的減小而增加;同時,在不同固液比條件下,稻草秸稈轉化乙醇反應被證明是類分形的,方程k=k1 t-h能被用來很好的描述速率常數與髮酵時間之間的關繫。
재섬유소매20 U/g,발효온도38℃,접충량15%,관낭효모화양주효모적접충비례2:1조건하,선택불동적고액비(1:5、1:10、1:15화1:20),연구료도초갈간동시당화법산을순적동역학。결과표명:고액비1:15시,획득료교고적을순산솔위0.183 g/g,방정c=abt/(1+bt)가이피용래묘술을순농도(c)여발효시간(t)적관계,동역학삼량a수착고액비감소이감소,이동역학삼량b수착고액비적감소이증가;동시,재불동고액비조건하,도초갈간전화을순반응피증명시류분형적,방정k=k1 t-h능피용래흔호적묘술속솔상수여발효시간지간적관계。
The kinetics of fuel ethanol production by simultaneous saccharification and fermentation ( SSF) of straw stalk in different solid-liquid ratios (1:5, 1:10, 1:15 and 1:20) was studied. Experimental process parameters were cellulose enzyme 20 U/g, fermentation temperature 38 ℃ , inoculum size 15 % and inoculation proportion 2:1 ( tube capsule yeast and S. cerevisiae). The results showed that the highest yield of ethanol (0. 183 g/g) was obtained when a solid-liquid ratio was 1:15. The relationship between ethanol concentration c and fermentation time t could be described as c=abt/(1+bt). The parameter a decreased with a decreasing solid-liquid ratio, whereas the parameter b increased. The conversion reaction of straw stalk to ethanol under different solid-liquid ratios was fractal-like. The relationship between the rate constant and fermentation time was described in the following equation, i. e. , k=k1 t-h .
