安徽农业科学
安徽農業科學
안휘농업과학
JOURNAL OF ANHUI AGRICULTURAL SCIENCES
2009年
22期
10628-10629,10638
,共3页
生物能%温室增温%沼气%太阳能
生物能%溫室增溫%沼氣%太暘能
생물능%온실증온%소기%태양능
Bioenergy%Greenhouse Warming%Biogas%Solar energy
经过试验分析得出使用增温装置的温室同普通温室相比产气量有明显的提升;对产气的提升机理进行了分析,指出在一定范围内,温度越高,沼气微生物的代谢越旺盛,沼气产量越多,即温度升高有利于提高沼气的产量.在沼气发酵过程中,温度越高,分解率增大,产气率升高.
經過試驗分析得齣使用增溫裝置的溫室同普通溫室相比產氣量有明顯的提升;對產氣的提升機理進行瞭分析,指齣在一定範圍內,溫度越高,沼氣微生物的代謝越旺盛,沼氣產量越多,即溫度升高有利于提高沼氣的產量.在沼氣髮酵過程中,溫度越高,分解率增大,產氣率升高.
경과시험분석득출사용증온장치적온실동보통온실상비산기량유명현적제승;대산기적제승궤리진행료분석,지출재일정범위내,온도월고,소기미생물적대사월왕성,소기산량월다,즉온도승고유리우제고소기적산량.재소기발효과정중,온도월고,분해솔증대,산기솔승고.
The test analysis showed that output gas amount of greenhouse with warming facilities had obvirous increased compared with common greenhouse; Enhancement mechanismof gas production was analyzed , and pointed out that, to some extent , metabolism of biogas microorganism were more vigorous with the temperature higher, biogas output were more, i.e., high temperatur was beneficial to output gas increase in biogas fermentation process, temperature higher, decomposition rate increased, and output gas rate raised.
