1) hydrogen storage capacity
储氢容量
1.
The results show that with La content increasing,LaNi5 and(La,Mg)Ni3 phases are transferred to LaNi3 phase,Mg2Ni phase appears,the cell volume increases,and the hydrogen storage capacity and electrochemical performance are .
5)系列合金,并对其进行了XRD分析和储氢容量及电化学性能测定。
2.
2 such as activation in low temperature, hydrogen storage capacity and pressure-composition-isothenn(P-C-T).
2)合金的低温活化、储氢容量和P-C-T等性能,XRD结果表明添加LaNi_5没有新相的形成,但是FeTi_(1。
2) hydrogen storage with high capacity
高储氢容量
3) hydrogen storage capacity (wt%)
重量比储氢容量
4) hydrogen storage vessel
储氢容器
1.
Using this alloy a metal hydride hybrid high-pressure hydrogen storage vessel with working pressure of 40 MPa was composed and its hydrogen storage density was calculated.
采用该合金与自制的轻质高压储氢容器(工作压力为40MPa)复合组成金属氢化物复合式高压储氢器,对其储氢密度的计算结果表明,当储氢合金的填充量(体积分数)达到0。
5) hydrogen storage capacity
储氢量
1.
In the second system the rate was faster and the hydrogen storage capacity(the mass fraction of hydrogen in hydrate) was larger(maximum value 0.
0℃、10~18 MPa下环戊烷-氢气水合物的形成特性,比较了两种体系中水合物的形成过程,并计算了储氢量(氢气在水合物中的质量分数)。
6) capacity of hydrogen storage and release
储放氢量
补充资料:储层描述(见油气田储层评价)
储层描述(见油气田储层评价)
reseroir evaluation of oil and gas field
储层描述(reseroir evaluation of 011 and gasfield)见油气田储层评价。
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