1) biohydrogen bacteria
生物制氢细菌
3) biohydrogen production
生物制氢
1.
Comparison of biohydrogen production capacity from different types of fermentation in continuous-flow reactors;
生物制氢反应器不同发酵类型产氢能力的比较
2.
The paper reviewed the current research progress and the main achievements of biohydrogen production technology research both at home and abroad,and described the hydrogen production mechanisms of main hydrogen producing organisms,such as phot.
与其他制氢方法相比,生物制氢具有无污染、成本低、可再生等优点,因而受到人们广泛的关注。
3.
The use of the effluent from biohydrogen production reactor for producing microbial flocculants can decrease the production cost and realize the entirely clean production.
利用制氢废液生产微生物絮凝剂不仅可以降低絮凝剂的生产成本,而且还能实现生物制氢的全程清洁生产。
4) biological hydrogen production
生物制氢
1.
Development of integrated biological hydrogen production technology and its trends;
联合生物制氢方法及发展趋势
2.
Progress of biological hydrogen production(Ⅱ) Application and prospect;
生物制氢研究进展(Ⅱ) 应用与前景
3.
Progress of biological hydrogen production(Ⅰ) Mechanism and development;
生物制氢研究进展(Ⅰ) 产氢机理与研究动态
5) bio-hydrogen production
生物制氢
1.
This paper reviews the present situation,research progress and problems in Bio-hydrogen production technology.
综述了目前国内外生物制氢技术领域的研究现状、研究进展和存在的障碍,从产氢原理的特点着手,对各种生物制氢技术进行了比较分析,提出了各种生物制氢技术的主要研究和方向的发展趋势。
2.
54g/cm~3,was used as the support carrier to allow retention of activated sludge within a continuous stirred-tank reactor(CSTR) using molasses wastewater as substrate for bio-hydrogen production.
考察了填加生物载体后生物制氢反应器连续流稳定运行的系统特性。
3.
Screening high-efficiency flocculant-producing bacteria by the effluent of bio-hydrogen production reactors was investigated.
为此,开展了利用生物制氢废液筛选高效产絮菌的研究。
6) hydrogen production
生物制氢
1.
Effects of organic loading rate(OLR) and pH on hydrogen production capacity and liquid products were investigated.
采用连续流和静态试验进行了模拟淀粉废水厌氧发酵法生物制氢,探讨了有机负荷(OLR)和pH值对产氢能力和液相末端产物的影响。
2.
The enrichment,isolation and cultivation of H_2-producing bacteria(HPB) with enhancement of hydrogen production capacity improve hydrogen production capacity in the system of biohydrogen production with digesting high strength organic wastewater.
从生物制氢反应器中富集、分离培养发酵产氢细菌并发挥其最大产氢能力,可以提高高浓度有机废水制氢系统的产氢性能。
3.
Fermentative types were changed continuously in hydrogen production reactor by adjusting inlet water alkalinity to increase its pH level utilizing glucose as exclusive carbon source.
以葡萄糖为唯一碳源,通过调节进水基质碱度提高反应器内部pH值,使生物制氢反应器内的发酵类型发生连续转化,重点考察了发酵菌群从乙醇型发酵演替为丁酸型发酵的转化规律,并对液相末端产物、产氢速率、氧化还原电位(ORP)以及生物量的变化进行了比较分析。
补充资料:细菌性赘生物
细菌性赘生物
bacterial vegetation
在细菌性心内膜炎的病程中,受累的心瓣膜上常形成疣赘状物,称为“细菌性赘生物”。赘生物血小板、纤维素、细菌菌落、炎症细胞和少量坏死组织构成,大小不一,可单个或多个,形态不规则,呈息肉状或菜花状突出于心瓣膜表面。颜色灰黄、污秽、干燥、质脆,易于脱落成为栓子,引起栓塞。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条