A Bidirectional Knudsen Pump with a 3D-Printed Thermal Management Platform

Abstract: This paper reports on a bidirectional Knudsen pump (KP) with a 3D-printed thermal management platform; the pump is intended principally for microscale gas chromatography applications. Knudsen pumps utilize thermal transpiration, where non-viscous flow is created against a temperature gradient; no moving parts are necessary. Here, a specialized design leverages 3D direct metal laser sintering and provides thermal management that minimizes loss from a joule heater located on the outlet side of KP, while maintain… Show more

“…However, the common term that affects flow rate the most is the temperature difference across the membrane. An idea of using a thermal guard [ 15 ] or a thermal management platform [ 25 ] with a thermal transpiration membrane was introduced and enhanced flow rate by uniforming and decreasing the inlet surface temperature. Fins on the inlet side of the membrane might be a key component to reduce inlet temperature and improve thermal transpiration performance.…”

Performance Improvement of Glass Microfiber Based Thermal Transpiration Pump Using TPMS

“…However, the common term that affects flow rate the most is the temperature difference across the membrane. An idea of using a thermal guard [ 15 ] or a thermal management platform [ 25 ] with a thermal transpiration membrane was introduced and enhanced flow rate by uniforming and decreasing the inlet surface temperature. Fins on the inlet side of the membrane might be a key component to reduce inlet temperature and improve thermal transpiration performance.…”

Performance Improvement of Glass Microfiber Based Thermal Transpiration Pump Using TPMS

Construction and analyses of molecular exchange flow for gas mixtures in microchannels

Temperature gradient effects on gas flow through microporous media