1)Oxygen-consumed降氧
1.Study on the Methods of Rapid Oxygen-consumed in CA Store;气调库内快速降氧途径的探讨
2)aerobic degradation好氧降解
1.Temperature effect on aerobic degradation of vegetable waste with different biomass compositions;生物质分类表征温度对蔬菜废物好氧降解过程的影响
2.Bio-cooperation effect and mixing substrates in the aerobic degradation of nitrobenzene;硝基苯好氧降解的共基质及生物协同作用
3.Effect on temperature to aerobic degradation of vegetable waste;温度对厨余蔬菜废物好氧降解的影响
英文短句/例句
1.Characteristics of Aerobic Degradation of 2-Chlorobenzoic Acid by Degrading Bacteria.2-氯苯甲酸好氧降解菌的降解特性
2.Study on Filtration and Characteristic of Aerobic Microbial Community Degrading Hexachlorobenzene;六氯苯好氧降解菌群的筛选及降解特性研究
3.Isolation, Identification and Characterization of a DDTs-degrading BacteriumDDTs好氧降解菌株的筛选及其降解特性研究
4.Domestication of BTEX Degrading Becteria and Study on Its Aerobic BiodegradationBTEX降解菌的驯化及其好氧降解规律的研究
5.Aerobic Biodegradability of Methyl Tert-Butyl Ether (MTBE);甲基叔丁基醚(MTBE)好氧降解行为研究
6.Isolation, Identification of Methyl Tert-Butyl Ether-Aerobiosis Degradation Strain and Its Degradation Kinetics;甲基叔丁基醚(MTBE)好氧降解菌的筛选,鉴定及降解动力学研究
7.RROCESS ANALYSIS OF AEROBIC BIODEGRADATION OF ORGANIC WASTEWATER WITH IMMOBILIZED CELLS固定化细胞好氧降解有机废水过程的分析
8.STUDY OF BIODEGRADABILITY ON AEROBIC DIGESTION OF EXCESS ACTIVATED-SLUDGE剩余污泥好氧消化的生物降解性研究
9.Study on Landfill Leachate Degradation Behavior in Aerobic MBR Process;好氧MBR对垃圾渗滤液的降解特性研究
10.TREATMENT TECHNIQUE FOR AEROBIC AERATION RAPID DEGRADATION OF MUNICIPAL SOLID WASTE城市生活垃圾好氧快速垃圾降解技术
11.Study on Aerobic Biodegradation of Nonylphenol Ethoxylates;壬基酚聚氧乙烯醚好氧生物降解的研究
12.Study on Simultaneously Aerobic-anaerobic Degradation of PCP in Wastewater with Microaerobic Granules;微好氧颗粒污泥同时好氧—厌氧降解废水中五氯酚(PCP)的研究
13.Study on the Aerobic Biodegradability and Degradation Kinetics of Nitrophenols Wastewater;废水中硝基酚好氧生物降解性及降解动力学研究
14.The Anaerobic Biodegradation of Nitrobenzene and the Application of Combined A/O System to Wastewater Containing Nitrobenzene;硝基苯厌氧生物降解特性及厌氧/好氧联合处理硝基苯废水研究
15.Experimental Research on the Treatment of Low-Degradability Printing and Dyeing Wastewater with Hydrolytic Acidification-Aerobic Biological Contact Oxidation Processes;水解酸化+好氧生物接触氧化处理难降解印染废水的试验研究
16.Kinetic Characteristics of Obligate Aerobic Bacteria in Degrading Wastewater Containing Aniline专性好氧菌降解苯胺废水的动力学研究
17.The Defination of Microbial Consortium and Its Aerobic Biodegradation of Nitrobenzene;混合菌的构建及其对硝基苯的好氧生物降解
18.The Aerobic Biodegradation of UDMH Wastewater and Its Kinetics Research;偏二甲肼污水的好氧生物降解及其动力学研究
相关短句/例句
aerobic degradation好氧降解
1.Temperature effect on aerobic degradation of vegetable waste with different biomass compositions;生物质分类表征温度对蔬菜废物好氧降解过程的影响
2.Bio-cooperation effect and mixing substrates in the aerobic degradation of nitrobenzene;硝基苯好氧降解的共基质及生物协同作用
3.Effect on temperature to aerobic degradation of vegetable waste;温度对厨余蔬菜废物好氧降解的影响
3)anaerobic biodegradation厌氧降解
1.Characteristics and Mechanisms of PCP Anaerobic Biodegradation;五氯苯酚的微生物厌氧降解及其机制
2.It was found that some main structural factors influencing the anaerobic biodegradation of phenols under methanogenic condition are 4 substructures such as aCHa, aaC—(whe.结果表明:在产甲烷环境中,影响酚类化合物厌氧降解的主要结构因素是由4个ETSI描述子对应的子结构碎片,即aCHa,aaC—,—NH2和—OH,其中子结构aCHa和aaC—与酚环母体骨架密切相关,而—NH2和—OH反映取代基的变化。
3.Aerobic and anaerobic biodegradations of NP in Haihe sediments were studied.NP在沉积物中的厌氧降解缓慢,降解半衰期为160。
4)anaerobic digestion厌氧降解
1.The methanogenic pathway during anaerobic digestion of household waste was investigated by stable carbon isotopic signature analysis,and testified by the analysis of gas production,leachate characteristics and microbial fluorescence in situ hybridization(FISH) methods.采用测试气相碳同位素比值的方法比较了中温厌氧降解和高温厌氧降解过程中甲烷(CH4)生成途径的差异,表征了生活垃圾厌氧消化过程CH4生成途径的演变,并结合气液相化学组分和产甲烷菌荧光原位杂交(FISH)分析对同位素表征结果进行了验证。
2.Study on anaerobic digestion of cellulosic waste and its dynamics model;结果表明,30℃为纤维素物料厌氧降解的最佳温度,最高产气和产甲烷量分别达到了620。
5)anaerobic degradation厌氧降解
1.Batch incubation experiments in aid of anaerobic incubation flask were conducted to study the anaerobic degradation and volatilization of hexachlorobenzene(HCB),the change of pH in soil,the emission of CH_4 and CO_2,and the volatilization of HCB in the Hydragric Acrisol and Gleyi-Stagnic Anthrosol added with acetic acid,glucose and citric acid.采用密封培养瓶装置,研究了红壤性水稻土和乌栅土在添加乙酸、葡萄糖、柠檬酸时六氯苯(HCB)的厌氧降解行为,同时分析了土壤pH变化、碳源转化过程中甲烷和二氧化碳的释放及六氯苯的挥发。
2.Rhodobacter sphaeroides anaerobic degradation of chlorobenzene was carried out with the cometabolism way of chlorobenzene induced enzyme in the presence of the suitable carbon source.球形红细菌厌氧降解氯代苯是在适宜碳源存在下,由氯代苯诱导产生诱导酶以共代谢的方式进行,降解途径是先打开苯环生成小分子的氯代烷烃、再还原脱氯。
3.The impact of the temperature on the anaerobic degradation of organic refuse is very important, so is on the characteristics of leachate in landfill.温度对填埋场有机垃圾的厌氧降解具有十分重要的影响,因而对填埋场渗滤液特征也产生重要的影响。
6)Oxidative degradation氧化降解
1.Preparation of low molecular weight Eucheuma striatum sulfated polysaccharides by oxidative degradation with H_2O_2 under the ultrasonic wave;超声波辅助过氧化氢氧化降解制备相对低分子质量异枝麒麟菜硫酸多糖
2.Study on oxidative degradation of HPAM and CPAM;HPAM、CPAM的氧化降解研究
3.The oxidative degradation of sulfadiazine at the interface of α-MnO_2 and water;α-MnO_2/水界面磺胺嘧啶的氧化降解动力学
延伸阅读
注射用降纤酶, 降纤酶, 龙津注射用降纤酶药物名称:注射用降纤酶英文名:Defibrase别名:注射用降纤酶, 降纤酶, 龙津注射用降纤酶外文名:Defibrase for Injection, Defibrase性状:本品为白色或类白色冻干块状物或粉末,有引湿性,易溶于水。药理毒理:蛋白水解酶。能溶解血栓,抑制血栓形成,改善微循环。适应症:(1)急性脑梗死,包括脑血栓、脑栓塞,短暂性脑缺血发作(TIA),以及脑梗死再复发的预防。(2)心肌梗死,不稳定性心绞痛以及心肌梗死再复发的预防。(3)四肢血管病,包括股动脉栓塞,血栓闭塞性脉管炎,雷诺氏病。(4)血液呈高粘状态、高凝状态、血栓前状态。(5)突发性耳聋。(6)肺栓塞。用法用量:临用前,用注射用水或生理盐水适量使之溶解,加入至无菌生理盐水100ml-250ml中,静脉点滴1小时以上。急性发作期:一次10单位,一日1次,连用3~4日。非急性发作期:首次10单位,维持量5~10单位,一日或隔日1次,二周为一疗程。不良反应:个别病人用药后可能出现少量淤斑、鼻血或牙龈出血、或有一过性GOT或GPT轻度上升,停药后自行消失。禁忌:有内源性出血倾向、过敏体质患者慎用。严重肝、肾功能不全患者禁用。(1)下列患者禁用①具有出血疾病史者。②手术后不久者。③有出血倾向者。④正在使用具有抗凝作用及抑制血小板功能药物(如:阿司匹林)者。⑤正在使用具有抗纤溶作用制剂者。⑥重度肝或肾功能障碍及其它如乳头肌断裂、心室中隔穿孔、心源性休克,多脏器功能衰竭症者。⑦ 对本制剂有过敏史者。(2)下列患者慎用① 有药物过敏史者。② 有消化道溃疡病史者。③ 患有脑血栓后遗症者。④ 70岁以上高龄患者。注意事项:(1)按专业医生处方购买和使用。(2)本品如有外观异常或瓶子破裂、过期失效等情况不可使用。(3)本品必须用足够量的输液稀释,并立即使用。(4)注意静脉点滴速度(点滴速度过快时,患者易有胸痛、心悸等不适症状)。(5)本制剂具有降低纤维蛋白原(fibrinogen)的作用,用药后可能有出血或止血延缓现象。因此,治疗前及给药期间应对患者进行血纤维蛋白原和其它出血及凝血功能的检查,并密切注意临床症状。给药治疗期间一旦出现出血和可疑出血时,应中止给药,并采取输血或其它措施。(6)如患者动脉或深部静脉损伤时,该药有可能引起血肿。因此,使用本制剂后,临床应避免进行如星状神经节封闭、动脉或深部静脉等的穿刺检查或治疗。对于浅表静脉穿刺部位有止血延缓现象发生时,应采用压迫止血法。孕妇及哺乳期妇女用药:妊娠期或有妊娠可能性的妇女,使用本药时,应在治疗上有益性大于危险才能使用;哺乳期一般应避免使用本制剂,如果必须使用本制剂时应停止哺乳。儿童用药:本制剂对儿童用药后的安全性尚未进行实验研究。药物相互作用:使用本品应避免与水杨酸类药物(如阿司匹林)合用。抗凝血药可加强本品作用,引起意外出血;抗纤溶药可抵消本品作用,禁止联用。规格:5单位;10单位类别:抗凝血药和溶血栓药
