对气固两相流参数的精确测量及实时监控直接关系到产品的质量、工业过程的稳定或能量供给的平衡。
The precise measurement and real-time monitor of gas-solid flow parameters is important for the product's quality control, stability of industrial processes, also the balance of energy supply.
采用状态方程和溶液理论相结合而建立了能模拟石蜡沉积的气液固三相相平衡热力学模型。
A thermodynamic model of the gas_liquid_solid three phases equilibria is presented, combing an equation of state with a solution theory.
目前,对地层流体气—液两相、气—液—固三相相平衡理论研究是国内外石油工业界中的一个热点课题。
To date theoretical research on gas-liquid-solid three-phase equilibrium in reservoir fluid is a popular subject of petroleum industrial world at home and abroad.
对于其它溶解物,只要可以准确得出固—气相平衡压力关系,该方法仍可实用。
This method may be also used for any other solute as long as its solid vapor phase equilibrium pressure relation can be accurately acquired.
根据油气烃类体系的组成特点和相态特征,提出了气液固三相相平衡的计算方法。
A calculation method of gas liquid solid three phase equilibrium is presented based on the characteristics of composition and phase behavior of an oil and gas system.
气、固相处于非热平衡态,分别列出其能量方程,且能量方程中考虑辐射项。
Because gas phase and solid phase are in heat non-equilibrium state, that equations of energy should be described respectively and contained radiation part.
气固系统由于其时空多尺度结构和非线性非平衡特性特征,其机理还远未认识清楚。
Due to the nonlinear and nonequilibrium characteristics and the temporal-spatial multiscale structures, the mechanism behind gas-solid systems are far from fully understood.
假定气相与固相处于局部热平衡状态,考虑了辐射换热的影响。
It is assumed that gas phase and solid phase exist in a state of local thermal equilibrium and the influence of radiation heat exchange has also been taken into account.
采用状态方程和溶液理论相结合,建立气—液—固三相相平衡热力学模型。
In this paper, a thermodynamic model of gas? Liquid? Solid phase equilibration is proposed on the basis of the equation of state and solution theory.
采用状态方程和溶液理论相结合,建立气—液—固三相相平衡热力学模型。
In this paper, a thermodynamic model of gas? Liquid? Solid phase equilibration is proposed on the basis of the equation of state and solution theory.
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