同时,结合重整过程讨论热力学分析的用处和它的局限性。
The application and limitation of thermodynamic analysis for reforming process were discussed.
推导过程和结果都说明,在进行多相平衡体系的热力学分析时,以相律为指导是必要的。
The deducing process and the results all show that using phase rule to analyze the thermodynamic characteristics of multiple phase equilibrium system is necessary.
通过推导碘化物浸金过程的热力学判据,提出碘化物浸金的平衡常数判据,对碘-碘化物浸金体系进行了热力学分析。
The thermodynamic criterion and the equilibrium constant criterion of the gold leaching with iodide were proposed. The leaching system of gold with iodine-iodide was thermodynamically analyzed.
热力学分析表明,F127在水中的胶束化是熵驱动的热力学自发过程。
The thermodynamic analysis shows that the micellization of F127 in aqueous solutions is an entropy-driven spontaneous process.
从热力学角度分析了碱性(石灰)热压氧化预处理难浸金矿的可能性,并对其过程机理进行了动力学分析。
The possibility of pretreatment of refractory gold ores by alkaline(Lime) hot press oxidation was analyzed by thermodynamics and the dynamic analysis of mechanism in its process was presented.
对甲醇氧化羰基化合成DMC的过程进行了热力学分析。着重计算了合成反应的平衡常数和平衡转化率。
A thermodynamic analysis of synthesis process of DMC by oxidation carbonylation of methanol was carried out with the emphasis on calculations of equilibrium constants and conversions for the reaction.
对金川二次铜精矿氧气自热熔炼过程进行热力学分析。
The oxygen autogenous smelting process of nickeliferous copper concentrate from Jinchuan Nonferrous Corp.
还对该气相沉积过程进行了动力学、热力学分析,探讨了复合纤维的形成机理。
The kinetics and thermodynamics of this CVD process and the formation mechanism of the composite fibers were discussed.
对原位反应过程进行了热力学分析。
针对难选氧化锌矿的特点 ,对氧化锌矿氨浸过程进行热力学分析。
The ammonia leaching process of zinc oxide is thermodynamically analyzed based on the feature of refractory zinc oxide minerals.
本文介绍了生物油水蒸气催化重整反应机理与热力学分析,介绍了催化重整制氢过程催化剂、制氢工艺条件、代表性的反应器及工艺流程。
In this paper, some typical reactor designs, process engineering, operation conditions, catalyst, reaction mechanism, and thermal analysis of catalytic steam reforming of bio-oil are presented.
本文介绍了生物油水蒸气催化重整反应机理与热力学分析,介绍了催化重整制氢过程催化剂、制氢工艺条件、代表性的反应器及工艺流程。
In this paper, some typical reactor designs, process engineering, operation conditions, catalyst, reaction mechanism, and thermal analysis of catalytic steam reforming of bio-oil are presented.
应用推荐