What Are the Benefits of Thermal Conductivity?
- HeatImage by Flickr.com, courtesy of Matt
Conduction results from the collisions between the particles in a material. The difference in the temperature initiates the physical contact between the particles, creating kinetic energy and momentum. When a particle collision happens, it transfers heat energy through the material. Wherever a temperature gradient exists, a net flow of heat will result. - Heat flowImage by Flickr.com, courtesy of Mike DelGaudio
In convection, the rate of heat flow depends upon the temperature of moving gas or liquid from one place to another, containing its heat during transference. - Radiant heatImage by Flickr.com, courtesy of Steve Jurvetson
Electromagnetic waves are transmitted as a light form emanating from a heat source. Glass and translucent materials allow radiant heat to pass through in sufficient amounts. - Control the thermal effectiveness of the conduction through the choice of materials and their geometry. For instance, a short, thick rod of any material conducts more efficiently than a long, thin rod of the same material. Rough surfaces make efficient radiators/absorbers whereas shiny, polished surfaces make superior reflectors. The net effect of thermal control generates the circulation of air called a convection cell, consisting of upward, downward, and horizontal motion of air.
- Materials with low thermal conductivity prevent heat transmission in and out of the house, optimize the capacity of the materials and operating cost, and reduce energy consumption.
