Add to ORKGThermocapillary flow is driven by a thermally induced surface tension variation along a liquid free surface. In the Earth-gravity environment such flows are usually overshadowed by buoyancy driven flows, but at reduced gravity conditions their influence could be significant. A comprehensive theoretical and experimental research program was stated 12 years ago and is still being continued. Past work done at Case Western Reserve University as well as work done by others is reviewed. The justification for low-gravity experiments is presented
The objective of this investigation is to examine the buoyancy-driven gravitational spreading curren...
The ability to reproduce reduced gravity conditions for long periods is one of the reasons why the o...
Nonuniform fluid velocity effect at surface of earth core on nature of surface flo
In support of the Surface Tension Driven Convection Experiment planned for flight aboard the Space S...
Convection in rectangular enclosures with combined horizontal temperature and concentration gradient...
This report describes the results of a small study program in support of the design studies for NASA...
Convection in high-aspect-ratio rectangular enclosures with combined horizontal temperature and conc...
A survey of the reduced gravity fluid management technology program is presented. Information on red...
Experiments with planing surfaces are fundamental, hydrodynamic researches for the purpose of obtain...
Gravity effects on boiling from flat horizontal surface determined in heat flux range defined as dis...
Results of a numerical study using the direct simulation Monte Carlo (DSMC) method are presented for...
An analytical model for calculation of ascent steady state tile loading was developed and validated ...
Technology for simulating plumes in wind tunnel tests was not adequate to provide the required confi...
This report presents the results of the first investigation of the physical principle of preventing ...
At the present time the efforts on this project are organized into two areas: the development of an ...
The objective of this investigation is to examine the buoyancy-driven gravitational spreading curren...
The ability to reproduce reduced gravity conditions for long periods is one of the reasons why the o...
Nonuniform fluid velocity effect at surface of earth core on nature of surface flo
In support of the Surface Tension Driven Convection Experiment planned for flight aboard the Space S...
Convection in rectangular enclosures with combined horizontal temperature and concentration gradient...
This report describes the results of a small study program in support of the design studies for NASA...
Convection in high-aspect-ratio rectangular enclosures with combined horizontal temperature and conc...
A survey of the reduced gravity fluid management technology program is presented. Information on red...
Experiments with planing surfaces are fundamental, hydrodynamic researches for the purpose of obtain...
Gravity effects on boiling from flat horizontal surface determined in heat flux range defined as dis...
Results of a numerical study using the direct simulation Monte Carlo (DSMC) method are presented for...
An analytical model for calculation of ascent steady state tile loading was developed and validated ...
Technology for simulating plumes in wind tunnel tests was not adequate to provide the required confi...
This report presents the results of the first investigation of the physical principle of preventing ...
At the present time the efforts on this project are organized into two areas: the development of an ...
The objective of this investigation is to examine the buoyancy-driven gravitational spreading curren...
The ability to reproduce reduced gravity conditions for long periods is one of the reasons why the o...
Nonuniform fluid velocity effect at surface of earth core on nature of surface flo