1.
Moreover, the hydride can store 9 percent of its weight as hydrogen, beating the oft-cited target of 6.5 percent.
此外,氢化物的储氢量可达自身重量的9%,从过去的目标6.5%一下子提高许多。
2.
Synthesis and Hydrogen Storage Characteristics of Advanced Mg-based Composites;
高容量镁基储氢复合材料的制备与储氢特性
3.
Research on Properties of AB_5-Type Hydrogen Storage Alloys by Addition of a Little Ti
少量Ti对AB_5型储氢合金性能的影响
4.
Research on Surface Modification of Hydrogen-storage Alloy Negative Electrodes and Performance of Ni/MH Batteries with Large Capacities;
储氢合金负极表面改性及大容量镍氢电池性能研究
5.
And while electricity is hard to store in large quantities, hydrogen is easy.
虽然电难以大量存储,但是氢却很容易办到。
6.
The dehydriding temperature and dehydriding capacity were evaluated by differential scanning calorimeter (DSC) and thermogravimetric analysis (TG).
运用差热分析和热重分析对储氢材料的放氢温度和放氢量进行了测试。
7.
Total storage capacity of an indoor hydrogen system should be limited to 3000cubic feet or less.
室内氢系统的全部储存量应限制在3000立方英尺或更少。
8.
Study on Co Free and over Stoichiometric AB_5 Type Hydrogen Storage's High Rate Discharge Performance;
快速凝固过化学计量比无钴AB_5型储氢合金高倍率放电性能的研究
9.
hydrogen production and distribution system
氢气发生和储配系统
10.
MAlH_4(M=Li,Na) Materials for Hydrogen Storage
MAlH_4(M=Li,Na)储氢材料
11.
Synthesis of Mg-based Hydrogen Storage Material and Studies on Hydrogenation Properties;
镁基复合储氢材料的制备及气态储氢性能研究
12.
An Investigation on the Ti-V-Mn/Ti-Cr-V Hydrogen Storage Alloys and Hybrid Hydrogen Storage Vessel;
Ti-V-Mn/Ti-Cr-V储氢合金及混合储氢容器的研究
13.
A Study on the Microstructures and Hydrogen Storage Characteristics of Ti-Cr-V Based Hydrogen Storage Alloys;
Ti-Cr-V系储氢合金的微结构及储氢特性研究
14.
Theoretical Studies of the Hydrogen Storage Behaviors of Alloys and Design of the New Hydrogen Storage Materials
合金储氢机理与新型储氢材料设计的理论研究
15.
Characteristic of hydrogen sorption of alloy La_2Mg_(16)Ni
La_2Mg_(16)Ni储氢合金吸放氢性能研究(英文)
16.
INVESTIGATION ON METAL HYDRIDE HYBRID HIGH-PRESSURE HYDROGEN STORAGE VESSEL
金属氢化物复合式高压储氢器的研究
17.
Dehydrogenation kinetics of hydrogen storage material 67Mg29C3Ni1Al
储氢材料67Mg29C3Ni1Al的放氢动力学研究
18.
An Investigation on the Hydrogen Storage Alloys Used for Metal Hydride Hydrogen Compression;
用于金属氢化物化学氢压缩的储氢合金的研究