condensation coefficient मीनिंग इन हिंदी

उदाहरण वाक्य

1. The calculated condensation coefficients of argon from the modified theoretical formula agree well with the md simulation results from different authors . quasi - stable evaporation process of water is experimentally investigated
2. From the vapor phase to the liquid phase , the temperature jumps near the interface . therefore , it is difficult to accurately measure the temperatures near the interface . this may be the main reason of the large difference between the evaporation / condensation coefficients obtained from different experiments
3. Further study is in < wp = 6 > demand . moreover , with a transient simulation , we calculated evaporation coefficients of argon under non - equilibrium conditions . the rudimental md results indicate that there is no notable difference between the evaporation coefficients from the non - equilibrium simulation and the condensation coefficients from the equilibrium simulation
4. There will be a hot water layer in the water of cmt when vapour spews to uppercooling water surface vertically and coagulates directly . the higher of the vapour pressure of prz and the initial water temperature of cmt are , the deeper the hot water layer is . and obtaining the experience formula of the hot water layer is as follows : the condensation coefficient is high when vapour coagulate at first , then it will lessen with the process of coagulation , the higher of the vapour pressure of prz and the initial water temperature of cmt are , the higher of condensation coefficient is
5. With the characteristic time method , we also studied the condensation coefficients of water and argon in liquid - vapor equilibrium system . the simulated condensation coefficient decreases with the increase of temperature for both argon and water , and the condensation coefficient of water is larger than that of argon . though the polarity and the rotation are considered in the simulation of water , the difference between the condensation coefficients of water and argon is not remarkable
6. With md method , we studied evaporation and condensation process . by statistically analyzing the behavior of the colliding molecules with the interface , we presented a novel method , namely , the characteristic time method , to calculate the evaporation / condensation coefficient . in this method , the condensed then re - evaporated process is considered
7. The experimental results of the condensation coefficient obtained from the liquid and vapor temperatures near the interface and the results from md simulations are in the same order , but those obtained from the bulk liquid and bulk vapor temperatures are four to five orders lower than the results from md simulations