convective heat

The most used method is based on the convective heat transfer.

The main mechanism for water cooling is convective heat transfer.

Their long setae also serve to stem convective heat loss.

However the distinction between natural and forced convection is particularly important for convective heat transfer.

On the other hand, the conductive and convective heat loss modes play a more significant role during the cooler months.

Reducing airflow from inside to outside can help to reduce convective heat transfer significantly.

Gas convective heat transfer is a function of viscosity and specific heat.

The naked eye cannot see the convective heat loss from a leaf, but visual displays of the phenomenon have been created for the Internet.

Two types of convective heat transfer may be distinguished:

A vacuum chamber surrounding the cold components to eliminate convective heat transfer by gases.

Convective heat transfer can be beneficial or detrimental.

Deactivation typically occurs by free convective heat transfer to the ambient environment.

Convective heat transfer through and around window coverings also degrade its insulation properties.

In engineering, the term convective heat transfer is used to describe the combined effects of conduction and fluid flow.

Sunspots result from the blockage of convective heat transport by intense magnetic fields.

Convective heat transfer is cooling the shoe.

There is a linear relationship between temperature differential and conductive / convective heat transfer rate.

They convert up to 86% of their input power to radiant energy, losing the remainder to conductive and convective heat.

The vacuum significantly reduces convective heat loss.

They exhibit enhanced thermal conductivity and the convective heat transfer coefficient compared to the base fluid.

The equation yields the surface averaged Nusselt number, which is used to determine the average convective heat transfer coefficient.

It turns out that as the drop cools, convective heat transfer begins to occur between the warmer air and the colder water.

The rate of convective heat transfer may be improved by the use of a heat sink, often in conjunction with a fan.

Additionally, the temperature of the surroundings and the convective heat transfer coefficient must remain constant and uniform.

Convective heat transfer with underfloor systems is much greater when the system is operating in a heating rather than cooling mode.