conductive heating

It now appears that radioactive heating would be less important than conductive heating from the core, allowing a faster cycle time.

Since then, the university has licensed the technology to TerraTherm, a company that uses conductive heating and vacuums for environmental cleanup.

Thermal conductive heating is the application of heat to subsurface soils through conductive heat transfer.

Conductive heating associated with underplating may have elevated already steep Archean geotherms, leading to partial melting of amphibolitic lower crust.

The concept presumes a radio frequency at which the skin depth is many tens of meters, thereby overcoming the thermal diffusion times needed for conductive heating.

Electromagnetic properties of matter and interaction with radiofrequency and microwave radiation: dielectric and conductive heating, exposure measurements and limits.

Current flows through a conductive heating material, supplied either directly from the line voltage (120 or 240 volts) or at low voltage from a transformer.

Perpetual has entered into a joint venture arrangement on the Marten Hills project which is designed to test conductive heating in a thick Clearwater sand facies.

The small sample size and conductive heating (rather than a radiant source as in many DMA's) also means that very fast heating rates can be achieved accurately.

Five of the six available systems require that the antennas are internally cooled with either room-temperature fluid or carbon dioxide to reduce conductive heating and to prevent possible skin damage.

Crustal thickening that led to mountain building was caused by a combination of compressive forces and conductive heating initiated by subduction in the Sevier region which caused folding and thrusting.

Day 2: AM Solving Heat Transfer and Thermal Stress Problems: coupled flow cooling, conductive heating and cooling, thermal radiation and thermal stress in complex systems.

This differential lapse rate (dependent upon both difference in conductive heating and adiabatic expansion or compression) results in the formation of warm downslope winds (e.g., Chinook winds, Santa Ana winds, etc.).

DISPLAYTITLEIn Situ Thermal Desorption (ISTD) is an intensive thermally enhanced environmental remediation technology that uses thermal conductive heating (TCH) elements to directly transfer heat to environmental media.

Heat stabilization uses rapid conductive heating, under controlled pressure, to generate a fast, homogenous and irreversible thermal denaturation of proteins, resulting in a complete and permanent elimination of all enzymatic activity that would otherwise cause further biological changes to the tissue sample ex vivo.