Torrefaction Processing for Human Solid Waste Management
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This study involved a torrefaction (mild pyrolysis) processing system that could be used to sterilize feces and produce a stable, solid product that can be easily stored or recycled, and also to simultaneously recover moisture. It was demonstrated that mild heating (200-250 °C) in nitrogen or air was adequate for torrefaction of a fecal simulant and an analog of human solid waste (canine feces). The net result was a nearly undetectable odor (for the canine feces), complete recovery of moisture, some additional water production, a modest reduction of the dry solid mass, and the production of small amounts of gas and liquid. The liquid product is mainly water, with a low Total Organic Carbon content. The amount of solid vs gas plus liquid products can be controlled by adjusting the torrefaction conditions (final temperature, holding time), and the current work has shown that the benefits of torrefaction could be achieved in a low temperature range (< 250°C). These temperatures are compatible with the PTFE bag materials historically used by NASA for fecal waste containment and will reduce the energy consumption of the process. The solid product was a dry material that did not support bacterial growth and was hydrophobic relative to the starting material. In the case of canine feces, the solid product was a mechanically friable material that could be easily compacted to a significantly smaller volume (~50%). The Torrefaction Processing Unit (TPU) would be compatible with the Universal Waste Management System (UWMS), now under development by NASA. A stand-alone TPU could be used to treat the canister from the UWMS, along with other types of wet solid wastes, with either conventional or microwave heating. Over time, a more complete integration of the TPU and the UWMS could be achieved, but will require design changes in both units.
Description
Advanced Fuel Research, Inc.
United Technologies Aerospace Systems
NASA Johnson Space Center
NASA Ames Research Center
304
ICES304: Physio-Chemical Life Support- Waste Management Systems- Technology and Process Development
Vienna, Austria
Michael A. Serio, Advanced Fuel Research, Inc., USA
Joseph E. Cosgrove, Advanced Fuel Research, Inc., USA
Marek A. Wójtowicz, Advanced Fuel Research, Inc., USA
Thomas J. Stapleton, United Technologies Aerospace Systems, USA
Tim A. Nalette, United Technologies Aerospace Systems, USA
Michael K. Ewert, NASA Johnson Space Center, USA
Jeffrey Lee, NASA Ames Research Center, USA
John Fisher, NASA Ames Research Center, USA
The 46th International Conference on Environmental Systems was held in Vienna, Austria, USA on 10 July 2016 through 14 July 2016.