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1)  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。
2)  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。
3)  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。
4)  anaerobic biodegradability
厌氧降解性
1.
Anaerobic toxicity and anaerobic biodegradability of 2-nitrophenol;
2-硝基酚厌氧毒性和厌氧降解性研究
5)  Anaerobic microbial community
厌氧降解菌
6)  anaerobic hrydrocarbon degradation
厌氧烃降解
补充资料:可降解淀粉微球和生物降解白蛋白微球阻滞法


可降解淀粉微球和生物降解白蛋白微球阻滞法


介入放射学技术。介入性局部化疗之前,把二者注入靶动脉,可暂时减少动脉血流,再行化疗药物灌注,以减少血液冲刷,保持局部化疗药物浓度的技术。与其他中期和长期栓塞微球不同,DSM和BAM仅造成数十分钟的血流量减少,待其被降解后血流可恢复至以前水平。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
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