光合菌

  • 网络Photosynthetic bacteria;phototrophic bacteria;PSB
光合菌光合菌
  1. 甲烷含量高,二氧化碳含量低,可能是甲烷菌和光合菌存在代谢偶联关系的缘故。

    And the CH4 content of the produced biogas is 84-90 % . We consider this is attributed to exist metabolism coupled relationship between methane-producing bacteria and photosynthetic bacteria .

  2. 光合菌液吸附于载体的振动流化床干燥

    Drying of Photosynthetic Bacteria Liquor Absorbed in Solid Carrier Particles in Vibrated Fluid Bed

  3. EM是有益微生物菌群的英文缩写,它主要含有五大菌群:光合菌群、乳酸菌群、酵母菌群、放线菌群、醋酸杆菌。

    EM ( Effective microbes ) consists of 5 colonies : photosynthetic microbes , lactic acid microbes , yeast microbes , ray fungus microbes , acetic acid bacilli .

  4. PS2菌株是从虾塘富集、分离、筛选出的一株光合菌,具有高效净化养殖水质的作用。

    Nonsulfuric purple bacteria PS2 is a strain isolated from sediment of shrimp aquaculture ponds .

  5. R1与R2均为兼性需氧和兼性光能利用菌,RS-1为专性厌氧光合菌。

    The R1 and R2 were facultative aerobic and photobiotic bacteria , but RS-1 was a kind of strict anaerobic bacteria .

  6. 利用光合菌发酵对玉米秸杆进行转化的研究

    Studies on teh utilizing the photosynthetic bacterium fermentation for biotransformation on corn straw

  7. 通过复合光合菌群对有机废水的降解试验,结果表明,复合菌群具有比单一光合细菌或普通活性污泥好的处理效果,降解效果高出18%~39%。

    Through experiment of organic wastewater treatment with complex photosynthetic bacteria , the result indicated that complex PSB process has higher removal rate than sole activated sludge on organic wastewater treatment .

  8. 正交实验得出NH4+为光合菌群产氢显著影响因素。光合菌群利用秸秆水解液发酵制氢,是一种低成本高效能的制氢技术,必将在未来光合细菌制氢领域发挥重要作用。

    The results showed that photosynthetic bacteria group using crops as substrates for hydrogen production is a low cost and high efficiency hydrogen production technology . It will play an important role in bio-hydrogen production field .

  9. 光合红螺菌(RhodosPirillaceae)固定化及其对废水处理的研究

    Study on the Immobilization of Photosynthetic Bacteria ( Rhodos Pirillaceae ) for Wastewater Treatment

  10. 用光合细菌菌液池塘培育淡水鱼种的试验

    Experiments on rearing of freshwater fish fingerlings with culture fluid of photosynthetic bacteria in ponds

  11. 光合细菌菌数测定数学模型的构建

    Mathematical Model of Photosynthetic Bacteria Counting

  12. 硫酸盐还原菌亚硫酸盐还原酶的初步研究从这些里面,我们可以辨认出无氧光合自营菌,硫酸盐还原菌,以及硝化细菌。

    Pilot Study on Sulphate Reducing Bacteria-Sulfite Reductase ; Of these , we can identify anoxygenic phototrophs , sulphate reducers and methanogens .

  13. 正交实验优选光合细菌混合菌群产氢的最佳条件

    Optimization of Hydrogen Production Conditions of Photosynthetic Bacteria Group by Orthogonal Test

  14. 光源和光谱对光合产氢菌群产氢工艺影响研究

    Effect of Spectrum on Hydrogen Production by Photosynthetic Bacteria

  15. 光合产氢菌群的筛选及其利用猪粪污水产氢因素的研究

    Screening of Photosynthetic Bacteria Group and Study on Its Hydrogen Production Factors from Swine Manure Wastewater

  16. 从经济效益等多方面考虑,初步认为光合细菌与根瘤菌施用比例为2:1比较适合。

    Considering all kinds of elements , 2:1 of photosynthesis bacterium and soybean nodule bacterium mixture proportion is more fit .

  17. 降解鸡粪的微生物菌剂是由蛋白分解菌、纤维分解菌、酵母菌、光合细菌、乳酸菌等多种有益微生物组成。

    Microbial preparation for degrading chicken droppings is composed of protein decomposing bacteria , cellulose decomposing bacteria , yeast , photosynthetic bacteria , lactic acid bacteria , and many other beneficial microorganisms .

  18. 主要对光合细菌与根瘤菌协同效应进行研究,包括不同比例的光合细菌与根瘤菌混合施用对大豆根系活力、叶片叶绿素含量和生物学特性的影响。

    This article mainly conducts the preliminary study to the photosynthesis bacterium and the nodule bacterium coordination nitrogen fixation , including to different proportion photosynthesis bacterium and nodule bacterium mix employ to soybean root system vigor and leaf blade chlorophyll content influence .

  19. 光合细菌产氢及其影响因素光合菌生物制氢技术

    Hydrogen production by photosynthetic bacteria and the factors of affecting hydrogen production

  20. 研究表明温度、光照强度、起始pH和乙酸或丁酸浓度皆对两类光合产氢菌群的生长和产氢能力皆有明显影响。

    Temperature , light intensity , initial pH and initial carbon source concentration had great influence on the growth and hydrogen production of two bacterial group .