把分子态的氢转变为等离子态的氢可以从热力学和动力学层面上提高氢还原金属氧化物的能力。
Transforming molecular hydrogen to plasma hydrogen can enhance the reduction ability of hydrogen in the terms of thermodynamics and kinetics.
首先是简短回顾化学热力学,接著是讨论酸碱、沉淀—溶解、配位和还原氧化反应。
It includes a brief review of chemical thermodynamics that is followed by discussion of acid-base, precipitation-dissolution, coordination, and reduction-oxidation reactions.
从热力学分析了用铝、钙、硅、钛及铁铬铝中的铝还原稀土氧化物成稀土金属进入合金的可能性。
The possibility of reduction of rare-earth oxides to metals by aluminum in Fe-Cr-Al alloys as well as by aluminum, calcium, silicon and titanium has been studied from the view point of thermodynamics.
从热力学原理出发,首次采用分析法研究了金属镁还原系统的损失部位与大小。
Based on the thermodynamic theory, the exergy loss of the magnesium reduction system has been studied with the exergy analytical method for the first time.
只有不仅从热力学角度,同时从动力学角度才能完整地认识氧化还原反应的特点和本质从而得出与事实相符的正确结论。
Only from both thermodynamics and dynamics can the character and essence of oxidation-reduction reaction be realized, thus the correct conclusion consistent with the facts can be arrived at.
通过对其他热力学参数计算,确定出驼路沟钻矿床成矿流体具有中低盐度、低密度、弱还原-还原性的特点。
According to calculating other thermodynamic parameters, the ore-forming fluids in ores are characteristic of low-middle salinity, low density and weak deoxidize-deoxidize.
热力学分析表明,锡、锌的挥发脱除主要发生在弱还原焙烧阶段。
The thermodynamic analysis indicated that the removal of tin and zinc occurs mainly in the weak reduction roasting stage.
研究了用锈蚀法分离浸锌渣还原铁粉中的镓和锗的热力学基础与技术条件。
Thermodynamics and technologies of separating gallium and germanium from ferrous powder produced from zinc leach residues were investigated by corrosion process.
热力学分析,磷酸盐还原成磷化氢是一种吸能反应。
Thermodynamic considerations indicate that the reduction of phosphate to phosphine is endergonic.
热力学计算也表明不同气氛下痕量元素的形态变化过程有很大差异,还原气氛下痕量元素会生成不稳定的次氧化物和还原性产物。
The thermodynamics calculation also indicate the transformation of trace metal was different with different atmosphere, suboxidized and reduced species were more easily formed under reduced condition.
热力学计算也表明不同气氛下痕量元素的形态变化过程有很大差异,还原气氛下痕量元素会生成不稳定的次氧化物和还原性产物。
The thermodynamics calculation also indicate the transformation of trace metal was different with different atmosphere, suboxidized and reduced species were more easily formed under reduced condition.
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