厭氧微生物 的英文怎麼說
中文拼音 [yànyǎngwéishēngwù]
厭氧微生物
英文
anaerbia-
Effect of surface characteristics of carbon fiber on immobilization of facultative and anaerobic aerobes
碳纖維表面特性對兼性及厭氧微生物固著的影響Water quality - detection and enumeration of the spores of sulfite - reducing anaerobes clostridia - method by membrane filtration
水質.亞硫酸鹽還原厭氧微生物孢子的探測和計數.膜濾法The metabolism and succession of microbial population took place ceaselessly during the fermentation and led to microbial polymorphism which mainly presented as anaerobe, methane bacteria, caproic acid bacteria, lactic acid bacteria, sulfate reducing bacteria, and nitrate reducing bacteria etc
其微生物種群的多態性主要表現為厭氧異氧菌、甲烷菌、己酸菌、乳酸菌、硫酸鹽還原菌、硝酸鹽還原菌等。The long - term domestication of liquor - making microbes under the unique liquor - making environment of maotai liquor ( high temperature starter - making, high temperature stacking fermentation, and high temperature anaerobic fermentation etc. ) and the succession of microbial groups through heredity, mutation, growth and derivation etc. had accumulated abundant high temperature resistant, high acid resistant and high alcoholicity resistant extreme microbes
摘要茅臺酒獨特的極端高溫制曲、高溫堆積發酵、高溫厭氧發酵等釀酒環境長期對釀酒微生物進行馴化,各種微生物經過遺傳、變異、消長和衍化等微生物群落的演替,促成了釀酒微生態環境中豐富的耐高溫、耐高酸和耐高酒度等極端微生物的富集。However, the research on the ecological characteristics of anammox bacteria and the application of anammox process in bioaugamentation of environmental pollution is still at the beginning
但對于這一過程中起作用的微生物厭氧氨氧化菌的生態學特性以及這一過程在環境污染物微生物修復中的應用研究還僅僅是一個開端。The reaction mechanics, operation conditions and influence factors of anaerobic ammonium oxidation ( anammox ) for biological nitrogen removal are summarized, and feasibility of anammox with sharon and potential of anammox are also reviewed
摘要綜述厭氧氨氧化微生物脫氨的反應機理、運行條件及影響因素,介紹厭氧氮氧化輔以中溫亞硝化生物脫氮的可行性,以及厭氧氨氧化的發展前景。Based on the previous studies, the research in this paper was carried out, mainly including two parts as follows : ( 1 ) anammox bacteria and aerobic ammonia oxidizers were detected in situ in 6 sediment samples taken from jiangsu province. molecular techniques, such as fish, pcr, dna cloning and sequencing etc. were used for this purpose. ( 2 ) the continuous cultivation of anammox bacteria from sediment samples were studied, which provides experimental basis for the bioaugamentation of eutrophicated sediment applying anammox process
本論文在前人研究的基礎上,開展了以下兩個方面的工作: ( 1 )採用分子生物學技術熒光原位雜交( fish ) 、多聚酶鏈式反應( pcr ) 、 dna克隆和測序等對采自江蘇省蘇州市、東太湖、新沂河等6個底質樣品進行了厭氧氨氧化菌和傳統氨氧化菌的原位檢測; ( 2 )探討了以底質作為接種體進行厭氧氨氧化菌富集培養的可行性,為天然底質環境中厭氧氨氧化過程的強化,富營養化底質微生物修復的可行性提供一定的依據。Three kinds of microbe, i. e. methane - oxidizing bacteria, anaerobic cellulose - decomposing bacteria and sulfate - reducing bacteria, were selected for experimental study, so the disturbance of surface biochemical effect was effectively inhibited, thus causing the microbiological anomaly to be able to reflect objectively the deep - seated hydrocarbon micro - leakage, it is pointed out that the result of predicting subsurface hydrocarbon distribution by use of the microbiological anomalies is obvious
選擇三種微生物指標:甲烷氧化菌、厭氧纖維素分解菌和硫酸鹽還原菌進行試驗研究,有效地抑制了地表生物化學作用的干擾,使微生物異常能夠較客觀反映地下深部油氣微滲漏情況,微生物異常預測地下油氣的分佈,效果顯著。In the trials of high concentration food wastewater treatment conducted by an anaerobic membrane bioreactor, the flux decline rule of four polyethersulphone ( pes ) uhrafiltration ( uf ) membranes with different surface morphology was investigated with atomic force microscopy
摘要在厭氧膜生物反應器處理高濃度食品廢水的試驗中,藉助原子力顯微鏡分析了四種表面形貌不同的聚醚碸超濾膜的通量衰減規律。Summarization of the development process and the current status of aerabic and anaerobic wastewater treatment with thermophilic microorganisms, and description of the possibility and advantages of high temperature wastewater treatment were presented, and also discussed the prospect of applying thermophilic microorganisms to wastewater treatment
文章對嗜熱微生物好氧處理廢水及厭氧處理廢水的發展進程和研究現狀做了綜述,例舉了嗜熱微生物在廢水處理中的應用,並論證了一定工藝條件下高溫廢水處理的可行性和優越性;最後對嗜熱微生物在廢水處理中的應用前景作了展望。It is considered that pretreatment could improve the physical and chemical of ofmsw characteristics, such as solubility, acidity, alkalinity, and biodegradability, and accordingly increase soluble chemical demand ( cod ) and volatile fatty acid ( vfa ), enhancing biogas yield, reducing hydraulic retention time ( hrt ), optimizing anaerobic process and releasing post - treatment
研究認為,通過溶胞處理能夠改善有機垃圾的物理化學性質如發酵物料的溶解度、酸堿度等,提高微生物對難降解有機物的分解,增加可溶性cod和揮發性酸的濃度,優化發酵細菌的代謝途徑以及產物的組成等,從而增加生物氣產量,縮短水力停留時間,強化厭氧發酵過程,減輕了后續處理的負擔。Study on the toxicity to anaerobic microbe by cr
對厭氧微生物的毒性作用研究The flow process of applying iron - carbon micro - electrolysis per - treatment to treat copper phthalocyanine content wastewater, applying physico chemical per - treatment technique to treat resin wastewater, and applying anaerobic - sbr aerobic process as biochemical treatment is employed to treat the organic chemical wastewater successfully, and the effluent can meet the national discharge criteria
含銅酞菁廢水採用鐵炭微電解預處理技術,樹脂廢水採用物化預處理技術,再通過厭氧水解? sbr好氧生化處理技術的工藝流程,成功地治理了該有機化工廢水,出水達到國家排放標準。Reviewing the usage of the biodegradation of refractory organic pollutants, including the biodegradation activities under co - substrates conditions, the application of anaerobic - aerobic treatment process, the usage of immobilized microbial cells technology, the appliance of membrane biological reactor and the usage of genetic engineering technology, the principles and advances of these technologies were discussed
摘要從共基質條件下的微生物降解處理、厭氧好氧發酵工藝、固定化生物催化劑技術、膜生物反應器以及基因工程技術等方面綜述處理難降解有機污染物的降解原理及研究進展。Microbiology of food and animal feeding stuffs - horizontal method for the enumeration of sulfite - reducing bacteria growing under anaerobic conditions
食品和動物飼料的微生物學.在厭氧條件下硫酸還原菌生長計數的水平方法Quality management in medical microbiology part 15 : requirements for the use of control strains for susceptibility testing of anaerobic bacteria
醫用微生物學質量管理.第15部分:厭氧病原體敏感性檢The treatment of waste water from pulping and papermaking by microbiological technology
好氧微生物與厭氧微生物處理制漿造紙廢水Edible gelatine. enumeration of sulfito - reducing anaerobic micro - organism spores. anaerobic colony count technique at 37 degrees c
食用明膠.亞硫酸鹽還原厭氧微生物孢子的計數. 37時厭氧菌落計數法分享友人