固态氢

  • 网络Solid hydrogen;metallic hydrogen
固态氢固态氢
  1. 对五种不同组合的固态氢同位素靶丸H2、HD、D2、DT和T2在聚变等离子体中的消融率作了同位素修正。

    The isotope corrections of ablation rates in fusion plasma for five combinations of solid isotopic hydrogenic pellets , H_2 , HD , D_2 , DT , T_2 have been studied .

  2. 固态氢基质隔离分子高分辨光谱装置和部分应用

    Apparatus for High-resolution Molecular Spectroscopy in Solid Hydrogen Matrix and Some Applications

  3. 固态电解质氢传感器的研究进展

    A review on studies of solid-state electrolyte hydrogen sensors

  4. 因此,它还是构成新型固态储氢材料的重要元素之一。

    Thus , it is one of the important elements composing the newtype solid hydrogen storage materials .

  5. 镁具有储氢密度大、价格低廉、资源丰富等优点,被认为是最有发展前途的固态储氢材料之一。

    Magnesium is believed to be one of the most promising solid hydrogen storage materials because of its advantages such as large hydrogen capacity , low cost , natural abundance , et al .

  6. 对清洁能源的大量需求引起了对新型储能材料的注意,而固态储氢已被认为是最有效的方法之一。

    The strong demand for new clean energy has attracted the notice in materials for energy storage . Hydrogen storage in solids has been recognized as one of the most practical approaches for so long .

  7. 加入适量稀土后,氢的分布发生了明显的变化,合金结晶温度区间缩小,固态溶氢量增多,氢的实际溶质分配系数有所增大,且氢的分布与稀土元素的分布有一定的对应关系。

    The results show that after adding a suitable amount of mischmetal , the distribution mode of hydrogen could change , notably . Amount of dissolved hydrogen in the solid phase could be increased , and the effective distribution coefficient of hydrogen is somewhat enhanced .

  8. 固态贮氢材料作为燃料电池供氢氢源具有目前可实用化的供氢容量大、安全高效,且提供的是高纯氢气的特点,因此在小型燃料电池氢源技术领域具有诱人的应用前景。

    As the supplying source of hydrogen for fuel cell , solid hydrogen storage materials , which have the attractive application and developing foreground in the field of fuel cell , have the advantage of safety , high capacity and supplying high pure hydrogen and so on .

  9. 设计中,采用常压空气作为氧化剂,采用固态可逆金属储氢器来存储、供应氢气,限定氢气的流速与压力稳定在最佳工况值;

    In the design , ordinary-press air was adopted as the oxidizer , while reversible metal hydrogen-storage was adopted to store and supply hydrogen , the flux and press of which was confined to the max-loading condition .