MADISON — By combining topology optimization and additive manufacturing, a team of University of Wisconsin–Madison engineers created a twisty high-temperature heat exchanger that outperformed a ...

Demonstrating next-generation energy technology, researchers are using topology optimization and metal 3D printing to design ultra-compact, high-power heat exchangers. Demonstrating next-generation ...

A team engineers created a twisty high-temperature heat exchanger that outperformed a traditional straight channel design in heat transfer, power density and effectiveness and used an innovative ...

And they used an innovative technique to 3D print—and test—the metal proof of concept. High-temperature heat exchangers are essential components in many technologies for dissipating heat, with ...

Heat exchangers are used to transfer thermal energy from one type of liquid or steam source to another kind of liquid source at a wide range of facilities. Whether heating a space or some type of ...