1) fractal media
分形介质
1.
Analytical solution of fractional reaction diffusion equation in finite fractal media;
有限分形介质中分数阶反应扩散方程及其解析解
2.
This paper presents an overview of the recent advances made in predicting heat and mass transfer in fractal media by fractal theory and technique.
本文论述了分形介质的分形理论和数学基础,并简要综述了用分形理论和方法研究分形介质的传热与传质特性(如多孔介质的渗透率、热导率以及池核态沸腾换热)方面目前所取得的研究进展,最后扼要展望了用分形理论和方法进一步研究分形介质的传热与传质的可能的若干课题和方向。
3.
The results show that,unlike the linear diffusion models in porous media,the concentration distributions in a Sierpinski gasket are non-linear and fluctuate along the x-axis because of the non-uniformity of the fractal media.
结果表明:与已有的多孔介质气体扩散线性模型不同,Sierpinski地毯孔隙中气体浓度分布具有非线性的特点,总体趋势沿总浓度梯度方向递减而中间略有波动;通过分形介质的气体分子流量与温度的1/2次方成简单线性关系,且其斜率与分形介质分形维数及孔隙率有关。
2) fractal medium
分形介质
1.
This paper decusses the necessary condition under which the phonons conduct the heat in a fractal medium and deduces the frequency band of the specific heat capacity at constant volume in this kind of medium.
本文论证了分形介质中声子导热的必要条件,给出了分形介质定容比热的频域。
2.
Theoretically based on the nature of phonon and its role in heat conduction of fractal medium.
从声子的性质出发阐述了声子在分形介质导热问题中的作用,得出了以下结论:分形介质中声子导热的频域为Al~Aξ,而不再象均匀介质那样为0~ωm;同一材料组分时分形介质的定容比热要小于均匀介质的定容比热。
3) fractal porous media
分形多孔介质
1.
Fractal dimensionality dependence of microstructural parameters and permeability in fractal porous media;
分形多孔介质孔隙微结构参数与渗透率的分维关系
4) deformable media
变形介质
1.
And the media deformation is elasticity-plasticity deformation process,so the pressure must be kept above one certain level in reservoirs with deformable media during the early stage of exploitation.
从流体和多孔介质的本构方程出发,建立液体在变形介质油藏中渗流的微分方程。
2.
In the process of developing deformable media gas fields, the pore pressure decreases when fluids flow out of the reservoir, and the difference of pressure inside and outside the reservoir increases.
变形介质气藏在开发过程中 ,孔隙压力随流体的流出而下降 ,使储层内外压差增大 ,孔隙受到压缩而体积缩小 ,孔隙度和渗透率随之降低 ,极大地影响到此类气藏的开采。
5) deformation medium
变形介质
1.
Productivity of horizontal well in deformation medium of low-permeability reservoirs;
变形介质低渗透油藏水平井产能特征
2.
Calculation and analysis of the true productivity of a well of low permeable reservoirs of deformation medium;
变形介质低渗透油藏油井真实产能计算与分析
3.
Research on Reasonable Well Spacing of Deformation Medium in Ultra-low Permeability Reservoirs
变形介质特低渗油藏合理井距研究
6) deformed media
变形介质
1.
Analysis of reasonable pressure difference and productivity of oil wells in deformed media reservoirs;
变形介质储层油井合理压差及产能分析
2.
Study on production based on bilinear flow model for deformed media reservoirs
基于椭圆流模型的变形介质油藏产能研究
3.
Most low permeability gas reservoirs belong to deformed media.
大部分低渗透气藏属于变形介质。
补充资料:重介质分层学说
重介质分层学说
doctrine of heavy medium stradification
zhongjiezhr fenceng Xueshuo重介质分层学说(doetrine of heavy mediumstratifieation)矿物垂向分层理论中一种静力学分层学说,由美国人伯德(B .M.Bild)于1947年提出。该学说认为重选中粒群分层是由细颗粒重矿物构成的悬浮体对粗颗粒轻矿物产生的重介质(见重介质选矿)浮力作用造成的。他以这种学说来解释跳汰法分选宽级别煤的过程。1964年中国张荣曾、姚书典等人分别以煤和石英、石英和磁铁矿、石英和黑钨矿、萤石和磁铁矿、萤石和黑钨矿等组成混合粒群,在上升水流中进行悬浮试验,并得出了同样的结论,即分层是由重矿物细颗粒悬浮体对轻矿物颗粒的浮力作用发生的。分层结果如图所示。正分层的数学表达式为占1<又2(aZ一户+刀,式中占1、a。为轻矿物和重矿物的密度;p为介质密度;几:为重矿物悬浮体的容积浓度。调节上升水的流速,使占1>久:(aZ一川+p,则将出现反分层。当占1一棍(占2一川+尸时,两种矿物将处于混杂状态,此时的上升水流速称为临界流速ucr。取重矿物的干涉沉降速度vh·。一u。·;将公式二hs。一u。:一v。:(1一入2)n“,也即几2一1一概代入等式。一几2(。2一*)、*中,整理后得临界流速ucr的计算式: 了占,一占。)”2 ‘U乙(占:一尸/币 按重介质作用原理分层结果式中v02为重矿物颗粒的自由沉降末速;n:为重矿物干涉沉降速度公式中的指数常数。上式的计算结果与实际值很接近。 (孙玉波)
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