1) idler absorption
无效吸收
2) lossless snubber
无损吸收
1.
In order to eliminate the loss of the conventional RCD(resistor, capacitor and diode),a new lossless snubber using magnetism coupling is introduced.
为此,提出了一种新颖的磁耦合式无源无损吸收电路,将其应用于Boost电路中,并详细分析了该电路的工作原理。
4) absorption efficiency
吸收效率
1.
Metabolism and absorption efficiency of "Chines red" abalone Haliotis discus hannai at various temperatures with reference to the family strains;
不同温度下皱纹盘鲍“中国红”与各家系代谢和吸收效率的比较
2.
Research on effects of the DCF core diameter and offset on absorption efficiency;
双包层光纤芯径与位置影响吸收效率的研究
3.
Calculating the absorption efficiency of double-clad fiber based on the theory of boundary reflection;
用边界反射原理计算双包层光纤的吸收效率
5) absorptive effect
吸收效果
1.
Case studies using detailed flowsheet simulation are presented to show the impact of changing single-variable in the system on absorptive effect.
严格定量地分析了系统温度、系统压力、补充吸收剂量、补充吸收剂中∑C_(4w)%含量、吸收塔理论板数和解吸塔理论板数各单因素对整个系统吸收效果的影响关系。
2.
On the basis of the analysis of the impact of single-variables on absorptive effect, further case studies using the combination of orthogonal design and detailed flowsheet simulation are presented to show the impact of changing multi-variables in the system on absorptive effect.
在催化裂化装置吸收稳定系统吸收效果单因素分析的基础上,通过采用正交设计与详细模拟计算相结合的新方法,进一步分析系统温度、系统压力、补充吸收剂量、补充吸收剂中∑C_4w%含量、吸收塔理论板数和解吸塔理论板数等诸多因素对该系统吸收效果和能耗影响程度的主次关系。
6) uptake efficiency
吸收效率
1.
Responses of rice genotypes with different silicon uptake efficiency to different silicon supply
不同硅吸收效率水稻品种根系对硅素水平的响应
2.
The results showed that under low-P condition, P-uptake efficiency was the main contributor to P tolerance of the inbred lines at the seedling and maturity stages, while the P tolerance at jointing stage was determined by both uptake and use efficiencies.
结果表明:低磷条件下,磷吸收效率是玉米苗期和籽粒成熟期耐低磷特性差异的主要来源,而拔节期耐低磷特性则由磷吸收效率和利用效率共同决定。
3.
Results showed that there were significant genotypic differences in shoot height,tillers,dry weigh,P uptake efficiency,P utilization efficiency and rice grain yield under low P supply.
结果表明,低磷胁迫明显影响水稻的生长,分蘖期的株高、分蘖数、干物质量、磷吸收效率、单株产量分别低于正常供磷处理5。
补充资料:X射线无损探伤仪
X射线无损探伤仪
谬银._屏一潇麟X射线无损探伤仪
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条