1)Degradation[英][,deɡr?'de??n][美]['d?gr?'de??n]降质
1.Degradation and Nondestructive Testing Techniques of the Steam Generator Tubes in Nuclear Power Station;核电站蒸汽发生器传热管的降质及其无损检测技术
2.In this paper,firstly,the concept,meaning and degradation model of image restoration are introduced,existent algorithms of image restoration are analyzed and studied,and the experimental results of two typical image restoration algorithms are showed.本文简述了图像恢复的概念、意义及降质模型之后,对目前存在的图像恢复算法进行了分析和研究。
3.However,operating experience shows various types of tube degradation to occur in the SG tubing,which may lead to SG tube leaks or ruptures and create a loss of reactor coolant through the SG,therefore providing a direct path to the secondary cooling system and the environment.然而,运行经验表明,蒸汽发生器传热管会出现各种降质。
2)Quality improvement and impurity reduction提质降杂
1.Present state of quality improvement and impurity reduction of iron concentrate in China is described,and the technology of quality improvement and impurity reduction of iron concentrate is discussed.介绍了目前国内铁精矿提质降杂的现状,探讨了铁精矿提质降杂的工艺,并提出反浮选工艺是铁精矿提质降杂的最有效方法之一。
3)substrate decomposing基质降解
1.Study on kinetics of substrate decomposing on treating piggery wastewater in internal circulation anaerobic reactor;内循环厌氧反应器处理养猪场污水基质降解动力学模型研究
英文短句/例句
1.kinetic model for substrate degradation基质降解动力学关系式
2.Kinetics and Parameters of Substrate Degradation in SBR ProcessSBR反应器的基质降解动力学及参数的研究
3.Discussion on Relationship between Degradation of ECM and SA细胞外基质降解与自然流产关系的探讨
4.Biodegradation Characteristics of Yeast and Kinetic Analysis of Substrate Biodegradation by Sequencing Bath Reactor in Cassava Alcohol Wastewater Treatment;酵母菌处理木薯酒精废液的生物降解特性及SBR基质降解动力学研究
5.Study on Characterization of the Rice Straw Degradation by Wood Decaying Edible Fungi;木腐蕈菌对稻草基质的降解特性研究
6.Effects of Co-substrates on Bio-degradation of Petroleum by Dominant Strains共基质对优势菌降解原油的作用研究
7.Study on co-metabolic biodegradation of 2,4,6-trinitrophenol with different substrates不同基质共代谢降解2,4,6-三硝基苯酚的研究
8.Degradation of Tetrachloroethene by Several Co-metabolism Substrates in Groundwater;不同基质共代谢降解地下水中四氯乙烯的研究
9.Studies on Lignocellulolytic Enzymes and Cloning of Ligninolytic Enzyme Genes from Trametes Gallica;粗毛栓菌的木质纤维素降解酶及其基因克隆
10.Study on Aromatic Compounds Biodegraded by White Rot Fungus Fermenting in Straws Substrates;秸秆基质与白腐菌降解芳香类污染物研究
11.Degradation of Acellular Porcine Aorta Valve;去细胞猪主动脉瓣膜基质支架材料降解观察
12.Extraction of Petroleum Degradative Plasmid and Cloning and Expression of c23O Gene;石油降解性质粒的提取及c23O基因的克隆与表达
13.Studies on Hydroxyl Radical Scavenging Ability of Lentinula Edodes during Lignocellulose Degradation;Lentinula edodes降解木质纤维素与羟自由基清除能力研究
14.Effect of PIH1D1 on the Degradation of Its Binding Protein SNF5PIH1D1对染色质重塑复合物SNF5亚基降解的影响
15.Synthesis and properties of new degradable poly(silyl ester)s新型可降解聚硅基酯的合成及性质研究
16.Enhancing 2,4-D degradation in an activated sludge system through plasmid mediated gene-augmentation质粒基因强化活性污泥系统对2,4-D的降解
17.Biodegradation of pyridine with co-substrates by Paracoccus denitrificans W12共基质条件下脱氮副球菌W12对吡啶的降解
18.Protein degradation and amino acid release in the processing of hydrolysis of porcine hemoglobin concentrate酶水解猪血红蛋白过程蛋白质降解和氨基酸释放
相关短句/例句
Quality improvement and impurity reduction提质降杂
1.Present state of quality improvement and impurity reduction of iron concentrate in China is described,and the technology of quality improvement and impurity reduction of iron concentrate is discussed.介绍了目前国内铁精矿提质降杂的现状,探讨了铁精矿提质降杂的工艺,并提出反浮选工艺是铁精矿提质降杂的最有效方法之一。
3)substrate decomposing基质降解
1.Study on kinetics of substrate decomposing on treating piggery wastewater in internal circulation anaerobic reactor;内循环厌氧反应器处理养猪场污水基质降解动力学模型研究
4)Degradative plasmid降解质粒
1.Studies on isolation of 1,2,4-trichlorobenzene-degrading strain and its degradative plasmid;1,2,4-三氯苯降解菌的分离及其降解质粒的研究
2.Isolation of biphenyl degradation bacteria and research on the character of their degradative plasmids;联苯降解细菌的分离及其降解质粒某些特性的研究
5)substrate degradation基质降解
1.Research on the kinetics of substrate degradation in SBR process;SBR法基质降解动力学过程研究
2.Cultivation of aerobic granular sludge and the kinetics of substrate degradation and biomass growth;好氧颗粒污泥的培养及基质降解和污泥生长动力学分析
3.The result show that the granules inoculated from UASB reactor has one transition period after the start-up of EGSB reactor,substrate degradation ability of microorganism increases, the removal efficiency is in stabilization under VLR of 4~29 kg COD /m 3·d while VLR of 29~40 kg COD /m 3·d results in the removal efficiency decrease.在以葡萄糖为基质长期运行的EGSB反应器中 ,研究了以循环为特征EGSB基质降解特性。
6)Quality improvement and impurities reduction提质降杂
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
