methane bacteria

美 [ˈmeθeɪn bækˈtɪriə]英 [ˈmiːθeɪn bækˈtɪəriə]
  • 甲烷细菌
methane bacteriamethane bacteria
  1. The separation of a methane-producing bacilli from Luzhou-flavor aged pits , which could be further developed into dual fermentation technique ( co-fermentation of methane bacteria and caproic acid bacteria );

    从浓香型酒老窖中分离出一株产甲烷杆菌,开发出甲烷细菌与己酸菌共酵的二元发酵技术。

  2. Study of methane bacteria immobilized carrier disposing molasses alcohol waste water

    甲烷菌固定化载体治理糖蜜酒精废水应用研究

  3. The content of radon gas and methane bacteria indicates obvious abnormity above the gas pool .

    气田上方氡气和甲烷菌的含量存在明显的异常。

  4. Inoculation of the granular sludge , without pretreatment in hydrogen fermentation fluid , the methane bacteria carry on methane production process using hydrogen fermentation fluid .

    在产氢发酵液中接种未经处理的厌氧颗粒污泥从而使产甲烷菌利用产氢发酵液进行产甲烷活动。

  5. The organic material will be anaerobic decomposed by methane bacteria when municipal solid waste ( MSW ) is processing in landfills , thus methane will be emitted to the atmosphere .

    城市固体废弃物(MSW)在填埋处理时,甲烷菌将使废弃物中的有机物质发生厌氧分解,从而会有甲烷排放到大气中。

  6. Microflora in pit mud is composed of multiple microbes including anaerobe , methane bacteria , hexoic acid bacteria , lactic acid bacteria , sulfate reducing bacteria and nitrate reducing bacteria etc.

    窖泥微生态系统是由厌氧异养菌、甲烷菌、己酸菌、乳酸菌、硫酸盐还原菌和硝酸盐还原菌等多种微生物组成的微生物共生群落系统。

  7. However , if the corn straw is pretreated by acid solution or alkaline solution , the pH value in it is not good for methane bacteria growth , and at the same time the pretreatment process produced many harmful substances .

    但酸碱预处理后其pH值不利于甲烷菌生长,且预处理过程易产生多种有害物质,故确定微生物法为玉米秸秆的预处理方法。

  8. Temperature experiments emerged acidified phenomenon , and it seriously affected the methane bacteria growth , methane content is low , while reductive sugar , cellulose enzyme , semi - cellulose enzymes are subject to the effects of acidified phenomenon , enzyme vitality low .

    温度实验出现了酸化现象,严重影响了甲烷菌的生长,致使产气量和甲烷含量都偏低,同时还原糖、纤维素酶、半纤维素酶均受到酸化现象的影响,酶活力较低。

  9. Optimization on the PCR Reaction Condition of Methane Producing Bacteria in Rumen

    瘤胃甲烷生成菌PCR反应条件的优化

  10. Exploring for gas reservoirs by applying the anomalies of surface methane oxidizing bacteria

    利用地表甲烷氧化菌异常勘探天然气藏

  11. Isolation , Identification and Characterization of Methane Oxidizing Bacteria from the Soil of Oilfields and Its Activity

    油田地表土壤甲烷氧化菌的分离鉴定及活性测定

  12. Sufate Reducing Bacteria won in the competition for organic carbon with Methane Producing Bacteria , as it had higher affinity to organic carbon .

    硫酸盐还原菌与产甲烷菌争夺共同的底物有机碳时,由于硫酸盐还原菌对有机碳有较高亲和力而在竞争中取胜。

  13. On the contrary , numbers of methane oxidation bacteria in rhizosphere soil of Pinus elliottii increased with the stress of landfill gas and with the addition of sewage sludge .

    相反,垃圾填埋场湿地松根际土壤甲烷氧化菌的数量却随着填埋气体的胁迫和污泥的添加而增高。

  14. Ammonia and nitrate , ferrous ion , sulfide , various gases and organic acids are sequentially formed , corresponding to the activities of aerobic and facultatively anaerobic bacteria , sulfate reducing bacteria , and methane producing bacteria with the development of reduction reactions .

    在还原过程中,随着好氧细菌、兼性厌氧细菌、硫酸还原菌和甲烷菌的活动,相继形成氨、硝酸根离子、亚铁离子、硫化物、气体物质及有机酸。

  15. Isolation and Characterization of Three Isolates of Methane - Oxidizing Bacteria from Earth

    甲烷氧化菌分离物的分离及其特性

  16. Substrate Selectivity , Cell Deactivation , Enantiomeric Composition in Epoxidation of Alkenes Catalyzed by Methane - Utilizing Bacteria

    甲烷利用菌催化烯烃环氧化的底物选择性,细胞失活原因及产物对映体组成

  17. Methane is produced by bacteria breaking down organic matter in oxygen-poor conditions at the bottom of reservoirs .

    来自巴西国立空间研究院的这个研究组研究了防止水库中的甲烷进入大气层的方式。甲烷是由细菌在水库底部富氧环境下分解有机物产生的。

  18. The fact the bacteria took in that large amount of methane could indicate that bacteria might absorb other large-scale deep ocean methane releases , the scientists said .

    科学们还说说,从细菌摄取大量的事实表明,这些细菌也许能摄取其他深海里释放的甲烷。

  19. A similar metal cluster is believed to be involved in the oxygen-atom insertion into methane to form methanol by the particulate methane monooxygenase in methanotrophic bacteria .

    一个类似的铜簇合物可将氧原子嵌入于甲烷分子形成甲醇分子据信是微粒体甲烷单氧化酵素的活性中心。

  20. Methane content of the gas produced and the methane producing rate were determined by the total number of methane producing bacteria developed .

    沼气中甲烷百分含量和日产甲炕效率的高低与产甲炕细菌菌数有关。