Demonstration of Nautilus Centripetal Capillary Condenser Technology
Date
Journal Title
Journal ISSN
Volume Title
Publisher
Abstract
This paper describes the results of a proof of concept effort for development of a Nautilus Centripetal Capillary Condenser (NCCC or NC3) used for microgravity compatible water recovery from moist air with integral passive phase separation. Removal of liquid condensate from the air stream exiting a condenser is readily performed here on Earth. In order to perform this function in space however, without gravity or mechanical action, other tactics including utilization of inertial, drag and capillary forces are required. Within the NC3, liquid water forms via condensation on cold condenser surfaces as humid air passes along multiple spiral channels, each in its own plane, all together forming a stacked plate assembly. Non-mechanical inertial forces are employed to transfer condensate, as it forms, via centripetal action to the outer perimeter of each channel. A V-shaped groove, constructed on this outer edge of the spiral channel, increases local capillary forces thereby retaining the liquid. Air drag then pulls the liquid along to a collection region near the center of the device. Dry air produced by each parallel spiral channel is combined in a common orthogonal, out-of-plane conduit passing down the axial center of the stacked device. Similarly, the parallel condensate streams are combined and removed from the condenser/separator through yet another out-of-plane axial conduit. NC3 is an integration of conventional finned condenser operation, combined with static phase separation and capillary transport phenomena. A Mars’ transit mission would be a logical application for this technology where gravity is absent and the use of vibrating, energy-intensive, motor-driven centrifugal separators is undesired. Here a vapor stream from either the Heat Melt Compactor or the Carbon dioxide Reduction Assembly, for example, would be dried to a dew point of 10 ºC using a passive NC3 condenser/separator with the precious water condensate recycled to the water bus.
Description
UMPQUA Research Company
Umpqua Research Company
NASA Glenn Research Center
304
ICES304: Physio-Chemical Life Support- Waste Management Systems- Technology and Process Development
Vienna, Austria
Richard Wheeler, UMPQUA Research Company, USA
Linh Tang, UMPQUA Research Company, USA
Spencer Wambolt, UMPQUA Research Company, USA
Eric Golliher, NASA Glenn Research Center, USA
Juan Agui, NASA Glenn Research Center, USA
The 46th International Conference on Environmental Systems was held in Vienna, Austria, USA on 10 July 2016 through 14 July 2016.