氢被认为是未来重要的能源载体。
氢能以其可再生性和环境友好性成为未来最具发展潜力的能源载体,储氢技术是氢能应用中的关键问题。
Hydrogen has become the most potential energy carrier in future for its renewable and environmental - friendly characteristics. Hydrogen storage technology is the key problem for hydrogen application.
四氢叶酸(THF)辅酶是生物合成与细胞代谢的过程中一碳单元转移的载体。
Tetrahydrofolate(THF) cofactor is the carrier of one-carbon unit on biosynthesis and cell metabolize.
试验采用氢火焰离子化检测器、101硅烷化白色载体和SE—30固定相等最佳条件,获得了较为满意的结果。
Under the best conditions by means of hydrogen flame ionisation detector, 101 white silylation carrier a and se-30 anchored phase edc., the good results have been obtained.
目前,氢是唯一的能源载体,可以轻松地在大量生产和在适当的时间进行研究。
Presently, hydrogen is the only energy carrier that can be produced easily in large amounts and on an appropriate timescale.
用氨合成催化剂性能评价装置,研究了反应温度、压力、空速和氢氮比对以活性炭为载体的钌基氨合成催化剂活性的影响。
The influences of temperature, pressure, space velocity and ratio of hydrogen to nitrogen on the activity of ruthenium based ammonia synthesis catalyst were investigated.
阐述了透氢性能影响因素包括膜载体、膜组成及膜厚度、操作压力、操作温度;
These factors that influence H2 permeation include material of the support, composition and thickness of the metal membrane.
阐述了透氢性能影响因素包括膜载体、膜组成及膜厚度、操作压力、操作温度;
These factors that influence H2 permeation include material of the support, composition and thickness of the metal membrane.
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