热力学的

Theoretical Part: Through theoretical analysis of chemothermodynamics, combustion and engineering thermodynamics, factors that affect explosion limit were determined, which include temperature, pressure, spark ignition energy, electrode shape, direction of flame propagation and size of explosion vessel.

理论部分：根据化学热力学、燃烧学和工程热力学的基础理论，从本质上定性地分析了爆炸极限的影响因素，包括温度、压力、爆炸容器的大小、点火能量大小、以及火焰传播方向等，得出了这些影响因素对爆炸极限的影响规律，以确保实验有完整的理论基础指导；在此基础上本文提出了一种新的推算在常温常压下可燃性纯质和混合工质制冷剂爆炸极限浓度的理论方法，该方法由可燃性气体的化学组成来推算上下限浓度，不需要其它条件；对混合工质制冷剂，只要再知道混合配比，即可以推算出爆炸极限，使预测爆炸极限的工作更简单、方便。

The idea that energy is conserved is the first law of thermodynamics.

能量守恒这一概念是热力学的第一定律。

Week 9 Quantity of heat, work, internal energy in thermodynamics, first law of thermodynamics.

第9周 热力学的热量、功、内能；热力学第一定律及对理想气体等值过程的应用。

A relativistic transformation of generalized coordinates is discussed and it is found that the first law of thermodynamics and the equation of state of an ideal gas are invariant with respect to the relativistic transformation of generalized coordinates , so that the existence of relativistic transformation of generalized coordinates is reasonable.

讨论了一个涉及热力学的广义坐标的相对论变换，发现热力学第一定律和理想气体状态方程对广义坐标的相对论变换具有不变性，表明广义坐标的相对论变换有其存在的理由

Presently, the nucleation and growth mechanism of diamond hasnt been known completely. Thermodynamically, the nucleation and growth of diamond at low temperature and low pressure is still considered as a paralogism.

目前金刚石的热力学成核及生长机理尚不完全清楚，金刚石在低温低压下的成核和生长，仍被认为是一种热力学的"悖论"。

Main results are listed as below: 1. In rapid solidification, when the cooling rate is over some critical value, the solidification system will become unstable in the sense of the nonequilibrium thermodynamics, a uncontinuous steady state jump phenomenon will occur, and this uncontinuous steady state jump can be understood as the glass transition.

主要得到了如下结果：(1)通过对快速凝固过程的动力学及热力学的分析，提出了非晶转变的分枝理论模型，结果表明，对一合金熔体，当冷却速度大于某一临界值时，凝固体系会出现非平衡热力学意义上的失稳而出现多定态分枝现象，这一多定态现象可以被理解为非晶转变。

These specific absorption bands are in relation to the special energy levels.

人们经过十多年的时间，对钛酸盐纳米管的组成、形成机理和物理化学性能进行了大量的研究，但是到目前为止，研究者对其形成机理、可见光吸收等特殊光电性质的来源、结构稳定性等方面的认识尚不清楚，因此本论文对这些方面开展了如下研究：在第二章中我们从热力学的角度系统地研究了煅烧温度对钛酸盐纳米管形貌、结构稳定性和光学性能的影响，发现钛酸钠纳米管是热力学稳定的，而钛酸纳米管是热力学不稳定的。

The physical and mathematical models of the system energy change ratio and energy-destruction ratio are set up.

运用热力学的外界分析法，对在部分离峰蓄冷方式下直接蒸发冰蓄冷空调系统进行了分析，建立了系统值变化率、损变化率的物理数学模型，揭示了系统运行方式的热力学特征。

The gravitational thermodynamics of space-time foam is studied in Chapter 5 by one-loop quantum gravity and statistical thermodynamics. It is shown by further discussions of Hawking's results that Hawking-Unruh themal radiation should contain thermal gravitons or the contribution of quantum space-time foam. As a by-product, the one-loop quantum gravity correction to the classical black hole thermodynamics is also given.

我们在第五章用单圈量子引力和统计热力学探讨了时空泡沫的引力热力学，对Hawking的研究成果的进一步讨论表明，Hawking-Unruh热辐射应该还包含热引力子或量子时空泡沫的贡献，我们同时给出了单圈量子引力对经典黑洞热力学的校正。

Course Content: The Basic Laws of Thermodynamics, Thermodynamic Properties of Mass, Phases Equilibrium of One Gas System, Phases Equilibrium and Chemical Equilibrium of Gases System, Thermodynamics of Irreversible Processes, Description of Microstates, Boltzman Statistics, Bose-Einstein Statistics and Fermi-Dirac Statistics, Ensemble theory, The Statistical Theory and Fluctuation Theory for Nonequilibrium States

课程内容：热力学的基本定律、均匀物质的热力学性质、热动平衡判据、单元系的复相平衡、多元系的复相平衡和化学平衡、不可逆过程热力学、微观运动状态的描述、玻尔兹曼统计理论、玻色－爱因斯坦统计和费米－狄拉克统计理论、系综理论、非平衡态统计理论和涨落理论。

mathematical expression of the second law of thermodynamics：热力学第二定律的数学表示

热力学第二定律 second law of thermodynamics | 热力学第二定律的数学表示 mathematical expression of the second law of thermodynamics | 热力学第零定律 zeroth law of thermodynamics

statistical thermodynamics：统计热力学

应该从物质的微观结构上找原因,也就是从体系中的分子、原子的结构与运动中去找原因,经典热力学做不到,统计热力学(statistical thermodynamics)正好弥补了热力学的这一缺陷.

thermodynamic：热力学的

thermodiffusion 热扩散 | thermodynamic 热力学的 | thermodynamics 热力学

thermodynamic probability：热力学的概率

thermodynamic function 热力学函数 | thermodynamic probability 热力学的概率 | thermodynamic process 热力学过程

chemical thermodynamics：化学热力学

这类问题属于化学热力学的研究范畴,化学热力学(chemical thermodynamics)主要是解决化学反应的方向和限度问题,即反应的可能性问题. (2)化学反应的速率和机理问题 化学反应的快慢,实现反应过程的具体步骤,外界条件,

thermoduric：耐热的 (形)

thermodiffusion 热扩散 (名) | thermoduric 耐热的 (形) | thermodynamic 热力学的, 使用热动力的 (形)

thermodynamical：热力学的

thermodynamicactivity 热力活性 热力学活性 | thermodynamical 热力学的 | thermodynamicalequilibriumequation 热力学方程

third law of thermodynamics：热力学第三定律

43、热力学第三定律 (third law of thermodynamics) 热力学的基本定律之一,反映绝对零度及其邻近区域热现象的规律性,通常表述为:无论用什么方法,靠有限步骤不可能使物体的温度达到绝对零度.

third law of thermodynamics：热力学的第三定律

第三代软件 third generation software | 热力学的第三定律 third law of thermodynamics | 第三阶地址 third level address

aerothermodynamics：空气[气动]热力学

aerothermodynamic 空气[气动]热力学的 | aerothermodynamics 空气[气动]热力学 | Aes 铜锡合金