催化剂的负荷量对富氢气体的产率有显著影响,其值存在一个优化范围;
The results indicate that the addition of catalyst obviously influence the total gas yield and also hydrogen - containing gas yield.
叙述了介绍了气体膜分离技术在分离空气制备富氧、富氮,水蒸气、有机蒸汽的分离和氢气回收等工业领域的应用。
Various applications of gas separation membrane were reviewed in details, such as medical rich oxygen, air separation, water vapor separation, hydrogen recovery in refinery gas and so on.
自从氢气回收和富氧分离大规模工业化以来,人们对气体在膜中的渗透机理进行了大量的研究。
Since hydrogen recovery and oxygen enrichment are industrialized on large scale, a lot of researching work have been done on gas permeation mechanism in membrane.
年日本率先突破氢分子难溶于水的技术难题,生产出饱和氢气水,也称富氢水。
In 2009, Japan out-breaks the technical problem of low-dissolving property of hydrogen in water and produce saturated hydrogen water that we called Hydrogen Rich Water.
年日本率先突破氢分子难溶于水的技术难题,生产出饱和氢气水,也称富氢水。
In 2009, Japan out-breaks the technical problem of low-dissolving property of hydrogen in water and produce saturated hydrogen water that we called Hydrogen Rich Water.
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