1) fluidmixingtime
流体混合时间
2) mixing time
混合时间
1.
Numerical simulation of mixing time in agitated tank with axial agitator blade;
轴流式搅拌桨搅拌槽内混合时间的数值模拟
2.
A new method for determining mixing time in stirred tanks;
一种计算搅拌槽混合时间的新方法
3.
Studying on the best mixing time of different kinds of feed mixer;
对不同类型饲料混合机最佳混合时间的研究
3) Real-time hybrid flowshop scheduling
实时混合流水车间调度
4) fluid mixing
流体混合
1.
This paper introduces the meaning of fluid mixing technology as well as the relationship with the fluid dynamics A brief comment about present situation of domestic and overseas research is given It points out that the main task of fluid mixing technology is to study the behaviors of turbulent flow and the behaviors are of practical importance to chaos theory.
本文介绍了流体混合技术的含义及其与流体力学的关系。
5) mixed fluid
混合流体
1.
Based on the geological observations and test data,the authors think that the sedimentation low salinity mixed fluid is the transport medium and that this deposit is an epithemal fine-disseminated gold deposit.
笔者以地质观察和测试资料为依据,研究认为该矿床是以沉积地层为主要矿源层,以低温弱酸性强还原低盐度的混合流体为搬运介质、以断裂构造控制矿体就位的浅成低温热液矿床。
2.
For mixed fluids in oil wells, under the conditions of certain temperature and pressure, its conductive characteristics depends mainly on the relative proportion and distribution of oil, gas and water.
对于油井中的混合流体来说 ,在一定的温度、压力条件下 ,混合流体的流动状态与导电特性主要取决于油、气、水的相对比例和分布状况。
3.
The water and air in the pores were regarded as mixed fluid to simplify the consolidation process of unsaturated soil with high degree of saturation,and a simplified computation method of 1D consolidation was improved.
考虑加荷初期,由水、气、土骨架共同承担荷载建立平衡方程,求得三者分担的应力和土体体积压缩量;固结过程中,将水和气看成混合的可压缩流体,建立混合流体的连续性方程,求解混合流体压力;同时考虑孔隙比和饱和度的变化,将孔隙水与混合流体的流量联系,建立改进的水连续性方程,求解水压力,进而求得气压力,吸力和土体的压缩量。
6) binary fluid mixtures
混合流体
1.
Travelling wave convection in binary fluid mixtures in a large rectangular cell;
大长高比腔体内的混合流体行进波对流
2.
Travelling wave convection in the binary fluid mixtures with weak Soret effect;
具有弱SORET效应的混合流体行进波对流
3.
Defect structures of Rayleigh-Benard travelling wave convection in binary fluid mixtures
混合流体Rayleigh-Benard行波对流中的缺陷结构
补充资料:流体的混合态
不同流体在同一装置中的混合状态。若流体以分子的尺度进行分散和混合,这种流体称为微观流体,相应的混合态和混合过程称为非离析态和微观混合。若流体以微团或流体块(其中约含1012~1018个分子)的形式相混合,每一微团是一个独立的运动单元,且具有均一组成和相同的停留时间(见停留时间分布),但不与周围的其他微团进行物质交换,这种流体称为宏观流体,相应的混合态和混合过程称为完全离析态和宏观混合。图中的a和b分别表示这两类流体完全均匀混合时的状况。对多相流系统(见多相流体力学),作为分散相的固体粒子、液滴或气泡等便是宏观流体;而作为连续相的气体或液体则为微观流体。介于完全离析态和非离析态之间还有不同程度的部分离析态。此时流体虽仍呈微团的形式,但相互间有着不同程度的物质交换,只是未达到分子尺度的分散程度。部分离析态的流体,情况极为复杂,还研究得很不充分。在有化学反应时,除一级反应外,不同混合态会导致不同的反应速度。
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