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The conductive heat loss into the wall is very much less than that for conventional insulation.
Conductive heat transfer is proportional to the temperature difference between materials.
This will help to minimize conductive heat loss through the duct walls.
This imbalance in conductive heat flow is raising the temperature of the incoming air.
This thinning will increase the conductive heat loss, slowing the glacier and causing freezing.
To combat low ambient temperatures, a thick insulation is desirable to reduce conductive heat loss.
As stated above the conductive heat flow into the insulation on the warm side is very much greater than that leaving the cold side.
Bulk insulators block conductive heat transfer and convective flow either into or out of a building.
There is a difference between conductive heat transfer and radiative heat transfer.
Compared to fluid injection process, conductive heat injection is very uniform in its vertical and horizontal movement.
This is largely due to the vacuum that exists within the tube which slows down convective and conductive heat loss.
The latter is most apparent in footwear where insulation against conductive heat loss to the ground is most important.
Even without direct contact with the flames (direct flame impingement), conductive heat can create serious burns from a great distance.
The thermal conductivity of soil will influence the conductive heat transfer between the ground and heated or cooled slab-on-grade floors.
In meteorology, the term 'sensible heat flux' means the conductive heat flux from the Earth's surface to the atmosphere.
An example of measurement of conductive heat flux is a heat flux plate incorporated into a wall.
Insulation to resist conductive heat transfer uses air spaces between fibers, inside foam or plastic bubbles and in building cavities like the attic.
"Conductive Heat Transfer."
Thermal conductive heating is the application of heat to subsurface soils through conductive heat transfer.
This enables the IceMole to penetrate soil and mud and also leads to a good conductive heat transfer when in contact with the ice.
Fig 5 shows the typical behaviour of the dynamic insulation temperature profile when the air flows in the same direction to the conductive heat flow (pro-flux).
The heat flux can have different origins; in principle convective, radiative as well as conductive heat can be measured.
Whereas insulation primarily reduces conductive heat flow, weatherization primarily reduces convective heat flow.
They are generally used in applications where low weight, low profile and high energy efficiency, as well as precision conductive heat input are more critical than cost.
It contains a waterproof breathable membrane and integrated safety features limited fire-, conductive heat-, and liquid fuel penetration protection.