The pump was developed by researchers at the Georgia Institute of Technology in collaboration with researchers from Purdue University and Stanford University. The research was supported by the ...

A ceramic-based mechanical pump able to operate at record temperatures of more than 1,400 degrees Celsius (1,673 Kelvin) can transfer high temperature liquids such as molten tin, enabling a new ...

Moving molten metals may lead to new energy conversion and storage devices. A ceramic-based mechanical pump developed at the Georgia Institute of Technology, with help from engineers at Purdue and ...

Scientists have developed a ceramic pump that can operate at 1,400 ˚C, several hundred degrees hotter than existing heat transfer systems, opening up significant new possibilities for energy storage.

A ceramic pump can handle the heat; careful engineering prevents it from cracking. Researchers from the Georgia Institute of Technology, Stanford, and Purdue University have built a ceramic mechanical ...

The PDS-100 Programmable Dispensing System uses valveless pumping that accurately delivers gearbox lubricating grease, independent of viscosity, at pressures low enough to prevent seal damage to the ...

A ceramic pump can transport liquid tin heated to 1,400 °C, the highest temperature any liquid has been pumped at so far. Molten metals offer an attractive option for transporting thermal energy, but ...

Specialist manufacturer of high-density and alumina ceramics Multotec Wear Linings, part of the Multotec group of companies, offers a range of ceramic impellers for slurry pumps in the coal, andalu- ...

A ceramic-based mechanical pump able to operate at record temperatures of more than 1,400 degrees Celsius (1,673 Kelvin) can transfer high temperature liquids such as molten tin, enabling a new ...