A new article uses machine learning for the first time to craft an improved model for understanding geothermal heat flux -- heat emanating from the Earth's interior -- below the Greenland Ice Sheet.

Getting warmer: Improving heat flux modeling Date: March 24, 2022 Source: Osaka University Summary: Researchers used molecular dynamics simulations to model heat transport at atomic scales.

What you’ll learn: Why heat flux (flow) is an important thermal parameter. How researchers have developed an innovative heat-flux sensor. Details on the performance of this sensor in flat and ...

The ocean around Antarctica is rapidly getting saltier at the same time as sea ice is retreating at a record pace. Since 2015 ...

When electronic devices overheat, they can slow down, malfunction, or stop working altogether. This heat is mainly caused by ...

Hole formation occurred only at the highest tested heat flux (20 kW/m2) for that model. In contrast, lenses that meet the older versions of the standard developed holes at 10 kW/m2 and 15 kW/m2.

Towards solving the heat concentration problem in power semiconductors, Lotus Thermal Solution, a Japanese company, has developed a highly efficient boiling immersion cooler using lotus metals.

Principle. A heat flux sensor is highly sensitive and can measure the quantity of heat transfer between the the mould and the injection molding material, without any direct contact. The amount of heat ...

Osaka University researchers used molecular dynamics simulations to model heat transport at atomic scales. This allowed the three-dimensional structure responsible for the heat flux to be visualized.