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Hydrogen formation by thermochemical decomposition of hydrocarbons using solar energy

机译：使用太阳能热化学分解烃的氢形成

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The intensive widening the scope of hydrogen application for the industrial purposes will lead to a drastic rise in the demand ofr it. But even now the hydrogen production is critical due to the fact that the existing methods of the hydrogen production require much fuel and energy which results in the rise of the hydrogen cost.

机译：强化扩大产业目的的氢申请范围将导致它的需求急剧上升。但即使现在，氢生产也是至关重要的，因为氢生产的现有方法需要大量燃料和能量，这导致氢成本的升高。

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《World Hydrogen Energy Conference》|1988年||共8页
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S.Ya. Akhundov; Sh.D.Shakhbazov; R.M.Mustafayeva;
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中图分类化学工业;
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3. Development and assessment of a new solar heliostat field based system using a thermochemical water decomposition cycle integrated with hydrogen compression [J] . Al-Zareer Maan, Dincer Ibrahim, Rosen Marc A. Solar Energy . 2017,第jula期

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4. Hydrogen formation by thermochemical decomposition of hydrocarbons using solar energy [C] . S.Ya. Akhundov, Sh.D.Shakhbazov, R.M.Mustafayeva World Hydrogen Energy Conference . 1988

机译：使用太阳能热化学分解烃的氢形成
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6. Catalytic SO3 Decomposition Activity and Stability of Pt Supportedon Anatase TiO2 for Solar Thermochemical Water-SplittingCycles [O] . Alam S.M. Nur, Takayuki Matsukawa, Satoshi Hinokuma, 2017

机译：负载Pt的催化SO3分解活性和稳定性。锐钛矿型TiO2用于太阳热化学水分解的研究周期数
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8. Use of Oxide Decompositions in Advanced Thermochemical Hydrogen Cycles for Solar Heat Sources. Experimental Results on the Low-Temperature Reactions for the Tricobalt Tetraoxide-Cobalt Monoxide Pair [R] . Jones, W. M., Bowman, M. G. 1982

机译：在太阳能热源的先进热化学氢循环中使用氧化物分解。四氧化三钴 - 三氧化钴对的低温反应实验结果

Hydrogen formation by thermochemical decomposition of hydrocarbons using solar energy

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