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为考察污泥基生物炭对餐厨垃圾厌氧消化的影响,以餐厨垃圾为基质,设置4种不同接种比(inoculum to substrate ratio, ISR)的批次实验,以得到不同酸化程度的厌氧消化体系;检测空白组、餐厨垃圾对照组和生物炭实验组的产甲烷情况和微生物群落结构的变化。结果表明:当ISR=2时,生物炭对餐厨垃圾厌氧消化效果不明显;当ISR=0.5时,生物炭使其停滞期缩短28.9%左右;ISR越小,生物炭对酸化停滞时间缩短以及产甲烷速率提高的效果越明显。同时,生物炭可以促进Chloroflex,Proteobacteria,Bacteroidetes的生长,从而提高厌氧消化中间产物的产生。当ISR较大时,厌氧消化系统的产甲烷途径以乙酸利用型为主,投加生物炭可以促进乙酸型产甲烷;随着ISR减小,产甲烷途径有逐渐向氢利用型转变的趋势,同时Methanosacrina逐渐替代Methanosaeta利用乙酸产甲烷。本研究结果可为污泥基生物炭在餐厨垃圾厌氧消化的实际应用提供参考。 相似文献
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The microbial role in hot spring silicification 总被引:8,自引:0,他引:8
Recent experimental studies indicate that microorganisms play a passive role in silicification. The organic functional groups that comprise the outer cell surfaces simply serve as heterogeneous nucleation sites for the adsorption of polymeric and/or colloidal silica, and because different microorganisms have different cell ultrastructural chemistry, species-specific patterns of silicification arise. Despite their templating role, they do not appear to increase the kinetics of silicification, and at the very most, they contribute only marginally to the magnitude of silicification. Instead, silicification is due to the polymerization of silica-supersaturated hydrothermal fluids upon discharge at the surface of the hot spring. Microorganisms do, however, impart an influence on the fabric of the siliceous sinters that form around hot spring vents. Different microorganisms have different growth patterns, that in turn, affect the style of laminations, the primary porosity of the sinter and the distribution of later-stage diagenetic cementation. 相似文献
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