理解效率,understanding efficiency英语短句,例句大全

理解效率,understanding efficiency
1)understanding efficiency理解效率
1.Methods of knowledge services,one of which was to access knowledge points with couple to couple content contrast by computer technology,are discussed in order to enhance understanding efficiency.从认识论、本体论的角度阐述人们获得知识的过程,通过对知识的定义和语句的表达形式描述,提出阅读理解效率的概念。
2)degradation efficiency降解效率
1.The process and mechanism of LAS natural degradation in environment including water and soil were elaborated,and the major influential factors of LAS degradation efficiency including LAS molecular structure,its initial concentration,microorganism quantity,temperature,oxygen content and pH value were analyzed.阐述了LAS在环境(水体、土壤)中的自然降解过程及降解机理,分析了LAS的分子结构、初始浓度及环境中微生物数量、温度、供养量、pH值等主要因素对LAS降解效率的影响,以期为LAS的扩大应用及其污染治理提供参考和依据。

英文短句/例句

1.Some measures improving degrading rate are presented.通过最佳生物降解条件的研究，提出了提高生物降解效率的措施。
2.The microbe, pollutants and environmental effect factors are discussed in the paper.微生物、染物及环境等方面的因素都影响着生物降解效率。
3.STUDY ON PHOTOCATALYTIC DEGRADATION EFFICIENCY FOR COLORED ORGANICS IN PAPER-MAKING WASTEWATER OVER TITANIA-BASED MATERIAL?EFFECT OF ADSORPTION OF CATALYST ON PHOTOCATALYTIC EFFICIENCY;TiO_2基材料光催化纸业废水中有色有机物降解效率的研究
4.The Effects of Phytases from Different Microbials on the Degradation Kinetics of Phytate in Commonly Used Feedstuffs;不同来源植酸酶对常用饲料中植酸盐降解效率的研究
5.Evaluation of Glucose-Treated Soybean Meal as a Source of Rumen Protected Protein for Dairy Cattle奶牛小肠对不同降解率葡萄糖保护豆粕利用效果的研究
6.IMPROVING THE OPERATING EFFICIENCY OF COMPRESSOR SET BY DECREASING THE EXHAUST TEMPERATURE OF CRACKING GAS COMPRESSOR TURBINE降低裂解气压缩机透平排汽温度提高机组运行效率
7.Degrading characteristics and application of high-efficiency microorganisms for viscous oil稠油高效降解菌的降解特性及其应用
8.Efficiency of Atrazine Degradation by O_3 /H_2O_2O_3/H_2O_2降解Atrazine效能研究
9.efficiency engineer [expert](研究降低成本、提高功效的)效率工程师
10.INCREASING THE EFFICIENCY OF REPAIRING EQUIPMENTS TO RAISE THE ECONOMIC BENEFIT;提高设备检修效率挖潜降耗增效益
11.Of the three protein feedstuffs that under research, soybean meal is the most degradable, and DDG is the least, in which the 48 hours dry matter degradability of soybean meal is 97.9%, for crude protein it is 97.65%;降解率为97.65％；棉粕居中，48小时干物质降解率为68.97％，粗蛋白
12.Isolation of Monocrotophos-Degrading Strain and Cloning of Degrading Gene;久效磷降解菌的分离、鉴定及降解酶基因的克隆
13.Isolation and Degrading Characters of Chlorpyrifos Degrading Bacteria;毒死蜱高效降解细菌的筛选及其降解特性研究
14.Screening, Gene Cloning of PAHs-degradating Bacteria and Their Effects on PAHs Degradation;PAHs降解菌的筛选、降解基因克隆及作用效果
15.Isolation, Identification and Characterization of Organophosphorus-degrading Strains;高效有机磷降解菌的分离、鉴定和降解性能研究
16.Isolation of Phenanthrene Degrading Bacteria from Oil-contaminated Soil and Their Effects on Phenanthrene Degradation;菲降解细菌的分离鉴定及其降解效果研究
17.The Isolation of Clomazone Degrading Bicteria and the Research of Its Degradation Effects;异噁草酮降解细菌的筛选及其降解效果研究
18.The Isolation of Atrazine Degrading Microbe and the Research of Its Metabolic Characterisation;阿特拉津高效降解细菌的筛选及降解特性研究

相关短句/例句

degradation efficiency降解效率
1.The process and mechanism of LAS natural degradation in environment including water and soil were elaborated,and the major influential factors of LAS degradation efficiency including LAS molecular structure,its initial concentration,microorganism quantity,temperature,oxygen content and pH value were analyzed.阐述了LAS在环境(水体、土壤)中的自然降解过程及降解机理,分析了LAS的分子结构、初始浓度及环境中微生物数量、温度、供养量、pH值等主要因素对LAS降解效率的影响,以期为LAS的扩大应用及其污染治理提供参考和依据。
3)electrolysis efficiency电解效率
1.In this paper, factors of electrolysis hydrogen bromide and sulfur dioxide oxidized by bromide are studied, and ninety percent of electrolysis efficiency and ninety to ninetyfive percent of desulfuration efficiency are also achieved.运用电化学方法脱除二氧化硫是一种较为清洁的脱硫方式，本文主要研究了电化学脱硫过程中，电解溴化氢以及溴氧化二氧化硫的各种影响因素，并通过优化获得了较高的电解效率９０％和脱硫效率９０％～９５
2.It has been found that improving the conditions ofconcoct between p&rticles in a biPOlar electrolyser isa key to promoting its electrolysis efficiency.改善粒子的接触状态是提高复极性电解槽电解效率的关键。
4)Desorptive efficieney解吸效率
5)dissolved efficiency溶解效率
6)Dissociation efficiency离解效率