本文讨论负绝对温度下的不可逆过程热力学。
In this paper, thermodynamics of irreversible processes at negative absolute temperatures is discussed.
应用不可逆过程热力学研究木材干燥过程热质迁移及其耦合效应。
The heat and mass transfer and coupling effect in wood drying were studied by applying the thermodynamics of irreversible processes.
本文从不可逆过程热力学的耗散函数出发,推导了液接电位方程序。
Liquid Junction equation was deduced from the dissipation function of irreversible process thermodynamics.
基于不可逆过程热力学,用连续介质力学的方法建立了一个混凝土正交各向异性损伤模型。
In this paper, an orthotropic damage model for concrete is developed within the general framework of continuum thermodynamics for irreversible process with internal variables.
应用不可逆过程热力学理论研究冶金体系发生的不可逆过程,具有重要的理论和实际意义。
It is significant in theory and practice to introduce thought and method of thermodynamics of irreversible processes to metallurgical systems.
将不可逆过程热力学的理论应用于氧化铝的碳酸钠焙烧过程,得到过程的动力学方程。 研究表明氧化铝钠化焙烧过程的控制步骤与氧化铝的粒度有关。
The theory of thermodynamics of irreversible process was applied to the reaction of alumina roasted with anhydrous sodium carbonate, and obtained the dynamic expresses of the reaction.
对实验所得的分形结构,用非平衡态和不可逆过程的热力学理论进行了讨论,并提出核晶凝聚模型。
The possible mechanism of the fractal structures is discussed in terms of nonequilibrium thermodynamics of irreversible processes and a nucleation aggregation model is proposed.
湍流输送是一种热力学不可逆过程,本文利用非线性热力学研究了湍流输送的特征。
For the turbulent transport is a kind of irreversible process in thermodynamics, the nonlinear thermodynamics was applied for studying its characteristics.
本文试图用不可逆过程信息热力学的理论来讨论广义的生命结构的衰老和寿命。
In this paper, we try to discuss the aging and lifespan of the generalized life structure by the theory of the information thermodynamics of the-irreversible process.
从热力学上看,岩石(岩体)这一变形、破坏、灾变过程是一种能量耗散的不可逆过程,包含能量耗散和能量释放。
From the viewpoint of thermodynamics, this process from rock deformation, failure to collapse is an irreversible process of energy dissipation, including both energy dissipation and energy release.
从热力学上看,岩石(岩体)这一变形、破坏、灾变过程是一种能量耗散的不可逆过程,包含能量耗散和能量释放。
From the viewpoint of thermodynamics, this process from rock deformation, failure to collapse is an irreversible process of energy dissipation, including both energy dissipation and energy release.
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