研究多孔介质内往复流动下的超绝热燃烧。
Superadiabatic combustion with reciprocating flow in a porous medium has been investigated through numerical calculations.
人们观测到该层中存在逆稳和温度随高度超绝热变化。
It is in this layer that both temperature inversions and superadiabatic temperature variations with height are observed.
该解适用于绝热的惰性多孔介质内往复流动下的超绝热燃烧。
Such a solution is applicable to super-adiabatic combustion in adiabatic inertial porous media under the condition of reciprocal flows.
通过实验研究了多孔介质内往复流动下超绝热燃烧温度分布特性。
An experimental study was carried out on temperature distribution characteristics of superadiabatic combustion in porous media with reciprocating flow (RSCP).
结果表明:白天晴空一般都是超绝热不稳定状态,并存在一种逆湿现象,造成向下输送的水气通量。
The results show in general the atmosphere is superadiabatic unstable state and there is a phenomenon of inverse humidity forming downward vapour transportation in cloudless daytime.
通过数值计算研究超绝热燃烧的形成、以及弥散效应、当量比和多孔介质材料本身对超绝热燃烧特性的影响。
The influences of reaction mechanisms, radiation models, dispersion effects, and variations of physical, thermal and transport properties on numerical results are discussed in detail.
通过数值计算研究超绝热燃烧的形成、以及弥散效应、当量比和多孔介质材料本身对超绝热燃烧特性的影响。
The influences of reaction mechanisms, radiation models, dispersion effects, and variations of physical, thermal and transport properties on numerical results are discussed in detail.
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