| 1. | Review of condensation heat transfer of refrigerant mixture inside horizontal tubes
混合工质水平管内流动凝结换热研究进展 |
| 2. | Research on forced convection heat transfer in a horizontal tube with spiral spring inserts
螺旋线圈强化管内单相流体传热的研究 |
| 3. | Variation laws of gas - liquid strouhal number of triangle cylinder in horizontal tube
水平管中三角柱体的气液两相斯特罗哈数的变化规律 |
| 4. | Experimental study on heat transfer characteristics of supercritical carbon dioxide in horizontal tube
2在管内流动换热特性的实验研究 |
| 5. | The phenomenon of condensation of low - pressure vapor in a horizontal tube is studied
结合蒸发式冷凝器的设计,对水平管内低压蒸汽冷凝现象进行了实验研究。 |
| 6. | Based on the above deduction , the numerical solution of the condensation heat transfer coefficient outside horizontal tubes with annular fins is obtained
在此基础上,推导出水平环肋管在数值解法下的管外冷凝表面传热系数理论值的计算公式。 |
| 7. | Through analysis , the theoretical solution of the condensation heat transfer coefficient of horizontal tubes with annular fins is obtained . the theoretical results are compared with the experimental ones
本文通过理论推导,获得了水平环肋管外冷凝表面传热系数的理论计算公式,然后把理论值与实验值进行了比较。 |
| 8. | The heat transfer coefficients between immersed horizontal tubes and a vfb under different operating conditions were measured by using a computer data collection system . the factors that affect the heat transfer process were analyzed
运用计算机数据采集系统,测定了不同操作条件下的振动流化床水平换热管束与床层的传热系数,分析了各因素对传热过程的影响。 |
| 9. | And last , the experimental data are treated by using a program , and a comparison between the theoretical and the experimental results of the condensation heat transfer coefficient outside horizontal tubes with annular fins is conducted
最后,编写了计算程序,进行数据处理,求得管外冷凝表面传热系数的理论值与实验值,对二者进行了比较,分析了误差产生的原因,提出了冷凝器的改进方法。 |
| 10. | Strong and high effective mixing of swzzero gravity particle mixer can meet your demand . two mixing axles make a equal speed and reverse rotation in horizontal tube . oars on mixing axle make the materials do radial motion , circular motion and axial motion . in a short time , the particle can be stirred homoginously . nozzel on cover of tube can be used when the solid is mixed with liquid
无重力粒子混合机(以下简称无重力)以强烈、高效混合而来满足用户需求,卧式筒体内两根搅拌轴等速反向旋转,搅拌轴等速反旋转,搅拦轴上特殊布置的浆叶确保物料径向、环向、轴向三向运动,形成复合循环,在极短的时间内达到均匀混合,筒盖上布置雾化喷嘴供你固液混合时使用。 |
