热化学是物理化学的一个分科。研究物理和化学变化过程中热效应的规律。以热力学第一定律为基础。以在卡计中直接测量热效应为重要实验方法。热化学的数据(如燃烧热、生成热等)在热力学计算、工程设计和科学研究、安全工程等方面都具有广泛的应用。
... 热红外遥感 thermal infrared remote sensing 热化学 thermal chemistry 热化学动力学 thermochemical kinetics ...
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热化学循环 [物化] thermochemical cycle
空气热化学 [化学] aerothermochemistry
热化学方程式 [物化] thermochemical equation ; thermodynamic equation
生物热化学 [生化] biothermochemistry ; biological thermochemistry
热化学方程 thermochemical equation
空气热化学的 aerothermochemical
电热化学炮 Electro Thermal Chemical Gun ; ETCG ; ETC gun
热化学的 thermochemical
放热化学反应 exothermic chemical reaction ; heat-producing chemical reaction
Two kinds of method to produce biogas are introduced, the thermochemistry of biogas and its influence on the power and emission of biogas engine are discussed.
由此,笔者介绍了生物制气的两种制取方式,阐述了生物制气的热化学属性和在发动机上的应用状况,介绍了生物制气发动机的动力特性和排放状况,对生物制气发动机的性能和各项指标进行了综合评价。
参考来源 - 生物制气—柴油双燃料发动机燃烧特性和放热规律研究From the principle of"Cascade utilization of chemical exergy and physical exergy”and "Combination of renewable energy and fossil fuel",the ideas and characteristics of the CCHP system with the integration of solar energy and methanol thermo-chemistry were expounded.
从“化学能和物理能综合梯级利用”以及“化石能源与可再生能源互补”的原则出发,阐述了太阳能与甲醇热化学互补的冷热电联产系统集成方案的思路和特点。
参考来源 - 中低温太阳能与甲醇热化学互补的冷热电联产系统The crystalline form, thermochemistry, crystalline particle and crystalline growth rate were discussed. Macro mechanism of the process of crystallization was analyzed.
并在此基础上进行了超声波对钨酸铵溶液结晶机制影响的系统研究,主要是研究了超声波对仲钨酸铵晶体的晶型、热化学性质、晶貌、粒度及反应时间的影响,并探讨了钨酸铵溶液结晶过程的宏观机制。
参考来源 - 超声波对钨酸铵溶液结晶机制影响的研究According to this new method this paper presents law of similitude in non equilibrium thermo chemistry hypersonic flows, which is consistent with the law of similitude obtained by classic method in reference.
依据这一思路导出的高超声速热化学非平衡流动相似律与文献采用经典分析方法得到的流动相似律一致。
参考来源 - 流动相似律研究·2,447,543篇论文数据,部分数据来源于NoteExpress
好,让我们来做一些热化学。
热化学计算不考虑反应的速度(动力学)。
Thermochemical calculations do not take into account the speed of the reactions (kinetics).
总有一些物种的基本热化学数据的一些错误。
There are always some errors in the basic thermochemical data of the species.
Then we went on to look at thermochemistry, and that's what I want to continue today.
然后我们继续研究了热化学,这是我今天要继续讲的,的确。
Right? In other words I've got the stoichiometric coefficients in there and the values, and I'm subtracting the reactants from products -1652kJ/mol wind up with minus 1652 kilojoules per mole.
对吧?换句话说这里我用了化学,计量系数和生成热的值,从生成物中减去反应物,最后得到。
See you Friday. We'll finish on calorimetry and thermochemistry and then we'll start in on one of the really most difficult topics that we'll deal with all semester, which is a second law and our special function that
好,我们周五见,我们会讲完量热法,和热化学的内容,然后我们会开始,讲这个学期最难的话题之一,第二定律以及我们
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