不可逆过程

  • 网络irreversible process;irreversibility process;irreversible
不可逆过程不可逆过程
  1. 电流阶跃法和循环伏安法证明Cr(Ⅲ)还原是单步骤三电子的不可逆过程,反应受扩散控制,反应不存在前置反应,但有吸附的情况。

    Chronopotentiometry and cyclic voltammetry indicated that Cr ( III ) / Cr is a one step irreversible process with diffusion controlled .

  2. 伴性赤蚁sch受温度、湿度的影响其孵化抑制为不可逆过程。

    The effects of high temperature and low humidity on the lethality of sch are an irreversible process .

  3. H2O2分解反应的不可逆过程热力学

    Thermodynamics of Irreversible Processes in Reaction of Hydrogen Peroxide

  4. 我们要比较不可逆过程的,与可逆过程的T2,to,T2,reversible。,显然它们都比T1要小。

    And I compare T2 irreversible T2 They 're both less than T1 .

  5. 在与吸附实验同样pH值的条件下,对吸附在硅胶上的三种价态的镎进行洗脱实验,发现解吸分配系数大于吸附分配系数,说明镎在硅胶上的吸附是不可逆过程;

    The desorption experiments in the same pH of solutions as adsorption experiments show that the desorption coefficient is bigger than the adsorption coefficient , so the adsorption of neptunium on silica gel in nitric acid belongs to irreversible process .

  6. 对于可逆过程,等号成立,但是如果是不可逆过程,这些不可逆过程是自发进行的,那么dS大于dq除以。

    If it 's a reversible process then the equality holds , but if it 's irreversible , which means it happens spontaneously , T then dS is greater than this .

  7. 得到以下结果:1.热力学计算结果表明,MTA过程是强放热不可逆过程,涉及到的反应均可自发进行。

    The main conclusions are as following : 1 . The thermodynamic results indicated that the process of MTH was an exothermic and irreversible process . All reactions involved in MTH could occur spontaneously .

  8. 以Fick定律和不可逆过程热力学为基础,结合文献中对扩散系数预测模型的分析,提出了一个氨基酸在水溶液中扩散系数预测的半经验模型。

    Based on the Fick law and thermodynamics of irreversible process , and combining the analysis on predictive model of diffusion coefficient in literature , a new semi-empirical model was proposed to predict the liquid diffusion coefficients of amino acids in aqueous solutions .

  9. 各向同性的双超流体溶液的不可逆过程

    On the irreversible processes in the isotropic solution of two-superfluid liquid

  10. 结果表明,2,4-二硝基苯酚的电极过程为具有吸附性的不可逆过程。

    The electrode reduction process of2,4-dinitrophenol is irreversible with adsorptive characteristics .

  11. 不可逆过程热力学在冶金中的应用研究

    Study on the Application of Thermodynamics of Irreversible Processes in Metallurgy

  12. 该理论同样适用于简单吸附不可逆过程。

    The theory is applicable also to simple adsorptive irreversible systems .

  13. 导数脉冲极谱的研究&不可逆过程理论与验证

    Research on Derivative Pulse Polarograph & Irreversible Process Theory Test and Verification

  14. 由不可逆过程热力学线性关系推导的传质方程

    Transport relationships derived from the linear relations of thermodynamics of irreversible processes

  15. 铝电解阳极效应的不可逆过程特征

    Characteristics of the Irreversible Thermodynamics for the Anode Effect in Aluminium Electrolysis

  16. 不可逆过程中吉布斯函数减少率的计算

    The Decrease Rate 's Calculation of Gibbs Function in the Irreversible Process

  17. 单滴汞上可逆和不可逆过程电流~时间曲线方程式

    The Equations of i-t Curves for Reversible and Irreversible Processes

  18. 非平衡态/不可逆过程的热力学理论(Ⅰ)

    Thermomechanics of nonequilibrium and irreversible processes ( I )

  19. 实验表明,电极还原过程为具有吸附特征的不可逆过程。

    The reduction process is irreversible with adsorptive characteristics .

  20. 均相单一化学反应的不可逆过程热力学

    Thermodynamics of Irreversible Process in Homogeneous Single Chemical Reaction

  21. 渣金两相氧化锰还原的不可逆过程热力学研究

    Study of manganese oxide reduction in slag-metal phase through thermodynamics of irreversible process

  22. 时间无关不可逆过程及不可逆系统的稳定性

    Time-independence of irreversible behaviors and stability of irreversible systems

  23. 仅考虑热阻时发动机不可逆过程中熵的变化

    Change of Entropy of Engine in Irreversible Process Only Caring about Heat Resistance

  24. 不可逆过程进行速率问题的数学模型及应用

    The Mathematical Model and Application of Rate Irreversible Process

  25. 不可逆过程的基本方程和熵增率

    The irreversible process and the increase rate of entropy

  26. 举例说明不可逆过程(火用)损失及其图示。

    The exergy loss during irreversible process is elucidated by citing instance in illustration .

  27. 负绝对温度下不可逆过程热力学

    Thermodynamics of Irreversible Processes at Negative Absolute Temperatures

  28. 所以这个不可逆过程,也就是焦耳-汤姆逊过程,是一个等焓过程。

    So this irreversible process this Joule-Thomson process , is a constant enthalpy process .

  29. 对不可逆过程,降温不会有可逆过程多。

    The temperature is not going to cool as much for the irreversible process .

  30. 不可逆过程与时间无关的热力学解释

    Explanation on Irreversible , Time Independent Thermodynamic Process