1) diffusion combustion
扩散燃烧
1.
Simulation of passive scalar in the turbulent diffusion combustion by Reynold Stress Model;
雷诺应力模型对扩散燃烧中守恒标量数值模拟
2.
Conditional moment closure(CMC) model proposed by Bilger is used for simulation of CH 4-Air diffusion combustion and its NO x formation,taking into account a radiant heat losses in this paper.
采用Bilger提出的条件矩模型 ,在考虑辐射热损失的情况下对CH4-空气湍流射流扩散燃烧及其NOx生成进行了数值模拟 。
3.
In this paper the application of this measurement technique to methane coflow diffusion combustion was presented.
本文利用PIV对甲烷同轴射流扩散燃烧的流场进行了测量,针对测量中出现的示踪粒子导入、火焰发光干涉、光强不均、数据处理等问题进行了分析和实验,获得了有效的解决办法和满意的测量结果。
3) lean diffusion combustion
稀扩散燃烧
1.
The experiment results show the lean diffusion combustion is closely related to the injection timing.
CFD模拟研究表明,不同的喷射定时下,燃油到达燃烧室壁面时的混合和燃烧状态不同,只有油束在滞燃期内到达燃烧室壁面,由限流沿(BUMP环)扰动形成的二次空间射流才能充分形成,稀扩散燃烧才能明显发生。
4) diffusion burner
扩散燃烧器
5) turbulent diffusion flame
湍流扩散燃烧
1.
To probe into the effects of the interaction of chemistry and fluid mechanics in the process of flame CVD, the simulation of gas velocity and temperature profile in propane/air turbulent diffusion flame for TiO2 nano-particles production were detailed performed by using the commercial CFD-code Fluent.
为了更好地模拟火焰CVD法合成TiO2纳米颗粒过程,应用CFD商业软件Fluent,对火焰气相沉积法合成TiO2纳米颗粒的湍流扩散燃烧过程进行了详细的数值模拟。
2.
Using commercial CFD-code Fluent,the simulation of gas velocity and temperature profile in propane/air turbulent diffusion flame for TiO2 nanoparticle production was studied in this paper.
文章应用CFD商业软件Fluent,对火焰气相沉积法合成TiO2纳米颗粒的湍流扩散燃烧过程进行了数值模拟,并对不同近壁面处理方式下的三种k-ε湍流模型进行了比较。
3.
Using the commercial CFD-code FLUENT,the simulation of the turbulent diffusion flame in flame CVD process for nano-particles is detailedly performed, in which the effect of the boundary conditions, physical properties and radioative heat transfer on the flame temperature profiles is studied.
应用CFD商业软件FLUENT,对火焰CVD法制备纳米颗粒的湍流扩散燃烧过程进行了数值模拟,分析了边界条件、物性以及辐射等因素对温度场的影响,尤其在低雷诺数下分子扩散对湍流计算中的不可忽略性进行了说明。
6) non-premixed combustion model
扩散燃烧模型
1.
A fire simulation of long tunnel under different fire loads and ventilation velocities was carried out by using the non-premixed combustion model which considered turbulence effect and radiation.
采用考虑了湍流效应和辐射传热的扩散燃烧模型,对长隧道在不同规模火源和通风条件下的火灾过程进行了数值模拟。
2.
A temperature field simulation of arch crown in long tunnel fires,under different fire loads and ventilation velocity,was carried out,employing non-premixed combustion model which considered turbulence effect and radiation.
采用考虑了湍流效应和辐射传热的扩散燃烧模型,对某长隧道在不同火灾规模和通风条件下的拱顶温度场进行模拟。
补充资料:沸腾床燃烧(见流化床燃烧)
沸腾床燃烧(见流化床燃烧)
boiling-bed combustion:see fluidized-bed combustion
沸腾床燃烧(boiling一bed eombustion)见流化床燃烧。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条