The radiative source term in the energy equation is expressed by radiative transfer coefficients.
通过跟踪辐射能量,导出三层参与性介质内的辐射传递系数。
An implicit iterative method was developed to solve particle energy equations with the discrete ordinate method used to obtain the radiative intensity distributions in a utility furnace.
设计了一种隐式迭代方法求解颗粒能量方程,采用离散坐标方法计算炉膛内的辐射传热,完整地考虑颗粒能量方程中的辐射项。
The mechanisms for non-radiative energy transfer and the dipolar relaxation will be further studied in detail.
有关体系的无辐射能量转移和偶极弛豫机制将进一步探讨。
A new coordinated control model based on the energy balance between the value of radiative energy signal and the unit load is established, to improve the unit load control.
而且,通过三维温度场所获得的总辐射能,建立辐射能信号与机组负荷之间能量平衡的新的协调控制模型,可提高机组负荷控制水平。
The basic feature of several types of model, such as energy-equilibrium model, radiative-convective model, general circulation model (GCM). Random model and so on, are described.
介绍了不同类型模式,如能量平衡模式、辐射对流模式、大气环流模式和随机模式等的主要特征。
The finite element method is applied to solve the radiative heat transfer equation and energy conservation equation discretely.
利用有限单元法离散求解辐射传递方程和能量控制方程。
The theoretical model to calculate the thermal IR radiative characteristics of different background, based on a system of energy equation, is established.
根据自然环境下地表的热平衡方程,建立了计算地表热红外辐射特性的理论模型。
The effects of the physical and technical parameters of the lamps on the maximum energy loading and radiative characteristics are described.
本文主要讨论灯的物理与工艺参数对其负载特性和辐射特性的影响。
The discrete ordinate method and the control volume method are employed to solve the radiative transfer equation and the energy equation combined with the N-S equation.
采用离散坐标法、控制容积法耦合求解辐射传递方程、能量方程及N - S方程。
The results of the calculation showed the influence of radiative qualities on energy conservation.
对计算结果进行分析,得出反射型内保温幕辐射特性对保温节能效果的影响趋势。
The measured solar-to-fuel energy conversion efficiency — defined as the heating value of the fuel produced divided by the solar radiative power input — reached 0.8 per cent.
测量的太阳能与燃料转换效率(产生的燃料加热值与太阳辐射输入功率之比)达到 0.8%。
The measured solar-to-fuel energy conversion efficiency — defined as the heating value of the fuel produced divided by the solar radiative power input — reached 0.8 per cent.
测量的太阳能与燃料转换效率(产生的燃料加热值与太阳辐射输入功率之比)达到 0.8%。
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