1) hydrogen energy
氢能
1.
Future of hydrogen energy and hydrogen-reserving techniques of metal materials;
氢能未来与储氢金属材料技术
2.
Forwards to hydrogen energy ——State-of-art, difference and strategy of Chinese fuel cell industry;
氢能离我们还有多远——我国燃料电池现状、差距及对策
2) hydrogen
[英]['haɪdrədʒən] [美]['haɪdrədʒən]
氢能
1.
Syngas-based DME and hydrogen production systems:An option in China’s energy technology strategy;
基于合成气的二甲醚和氢能:中国能源技术的一种战略选择
2.
Coal poly-generation technology and hydrogen technology;
煤炭多联产技术和氢能技术
3.
Two-stage photobiological hydrogen production of Platymonas subcordiformis cells at different growth phases under two kinds of light intensity;
两种光强条件下亚心形扁藻各生长阶段的产氢能力
3) The New Energy-Hydrogen Energy
新能源——氢能
4) Hydrogen storage property
贮氢性能
1.
The effects of batch annealing(BA) and continuous annealing(CA) on mechanical properties and hydrogen storage property of ultra-low-carbon enamelled steels were investigated.
研究了两种不同退火工艺——罩式退火和连续退火工艺对含钛超低碳搪瓷钢板成型性能和贮氢性能的影响。
2.
Their platform pressures,platform slopes,and hydrogen storage process thermodynamics are studied,so as to compare the effects of the various replacing elements on the hydrogen storage property of the mother alloy.
2贮氢合金的贮氢平台压力、平台斜率及其贮氢过程热力学的研究,比较了不同取代元素对母合金贮氢性能的影响。
5) dissolve hydrogen capacity
溶氢能力
6) hydrogen storage properties
贮氢性能
1.
Hydrogen Storage Properties of Melt-spinning La(NiMn)_(5.6) Alloys;
快凝合金La(NiMn)_(5.6)的贮氢性能
2.
Research on hydrogen storage properties of Mg-50wt.%Ti_(1-x)C_x(x=0.1,0.2,0.3,0.4)alloys
Mg-50wt.%Ti_(1-x)C(x=0.1,0.2,0.3,0.4)合金的贮氢性能研究
3.
The influence of suction cast on phase structures and hydrogen storage properties of TiVCr based alloys has been investigated in this work.
研究了吸铸对钛钒铬基合金结构和贮氢性能的影响。
补充资料:氢能
| 氢能 hydrogen energy 以氢及其同位素为主导的反应中或氢在状态变化过程中所释放的能量。它可以产生于氢的热核反应,也可来自氢与氧化剂发生的化学反应。前者称为热核能或聚变能,其能量非常巨大,通常属核能范畴;后者称为燃料反应的化学能,习称氢能。常见的氢氧反应为:  其中(g)为气态。在常温、常压下,氢氧反应放出的燃烧热ΔH0 =1.21×105千焦/千克氢。虽然这种化学能比它的热核反应释放能小得多,但比普通烃类液体燃料在同样氧化剂中燃烧时所产生的能量几乎要高 2.8倍。氢能是一种重要的能源,可用于运输方面取代石油,也可用作能高效发电的燃料电池。氢能的环境效益好,是理想的清洁能源。但是氢极少单独存在于地球上,常以化合物出现,必须通过其他能源转换,如太阳能制氢、生物质能制氢、电解水制氢和烃类燃料制氢等。廉价和大量制氢的技术是开发利用氢能的关键。 |
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