convective flow

This scheme is developed for strong convective flows with suppressed diffusion effects.

Hence, any convective flow, whether turbulent or not, will involve nonlinearity.

Convective flow or distributive mixing leads to bulk rearrangement of the material.

Bulk insulators block conductive heat transfer and convective flow either into or out of a building.

The density difference between cold air and warm air creates upward convective flows known as thermal plumes.

Cool air temperatures can lower evapotranspiration and reduce the convective flow of water and nutrients from the soil to the root.

One possibility is that this field was created the same way Earth's was: by the convective flow of metal ions in a molten core.

During recombination, the heat of reaction at the catalyst plates starts a convective flow upwards through the recombiner.

High interconnectivity of the mesopores allows for multiple avenues of convective flow through the column.

Here we see dendritic growth of the convective flow state of a fluid into the no flow state.

The convective flow is sustained also in non-contact mode of operation that allows easy exchange of the working electrode.

Finally the eddy diffusion is superimposed on the larger scale bulk 'diffusion' or convective flow processes.

Vertical injectors promote a natural convective flow of the light water primary circuit fluid through inlined channels in the reactor core.

In this lecture I will present results of numerical experiments, carried out to investigate some features of convective flows in geological systems.

In the summer, the convective flow is replaced with cooler near-ambient-temperature Earth replacement air, and the warm air exhausts by natural convection.

If the body of liquid is confined within a cylindrical column, a buoyant plume is still formed, and a vigorous convective flow results.

In the first, I show how differential wetting of the components of a fluid mixture coupled to a concentration gradient can drive convective flows.

This simple convective flow is modified by the Earth's rotation, by surface features, and by temperature differences between the equator and the poles.

Although some diffusion of radon can occur through it, the polyethylene can limit the convective flow of radon gas.

If all the reagents have the same mobility, the corresponding PDE system is formally equivalent to that for reaction-diffusion with convective flow.

For a general chemical reaction A B of nth order, the Damköhler number for a convective flow system is defined as:

Crystallographers believe that protein crystal growth must be under a still condition, and it is ultimately performed under a microgravity condition due to reducing convective flow.

Current technology makes it difficult to model the effects of these convective flow designs because computer performance simulation software does not presently incorporate these processes in their calculations.

The reduction in absorption rate with guar gum may be due to the increased resistance by viscous solutions to the convective flows created by intestinal contractions.

In the absence of shear, the convective flow consists of a stationary, azimuthally one-dimensional pattern of symmetric, counter-rotating vortex pairs.