Helical flow filter

What is claimed is: 1. A filter comprising: a filter outer wall; a filter inner wall spaced apart from the filter outer wall, the filter inner wall and the filter outer wall defining a filter void therebetween, the filter inner wall and the filter outer wall extending along a filter axis, the filter inner wall being configured to receive an airflow entering the filter; a volume of filtration material disposed in the filter void; and a plurality of baffles extending between the filter inner wall and the filter outer wall, the plurality of baffles configured to induce a helical component to the airflow, the airflow entering the filter void at a first void end relative to the filter axis and exiting the filter void at a second void end opposite the first void end. 2. The filter of claim 1 , wherein the filter inner wall and the filter outer wall have coaxial circular cross-sections centered on the filter axis. 3. The filter of claim 1 , wherein each baffle of the plurality of baffles extends curvilinearly from the first void end to the second void end. 4. The filter of claim 1 , wherein the plurality of baffles are equally-spaced about the filter void. 5. The filter of claim 1 , wherein the plurality of baffles are secured to at least one of the filter inner wall and the filter outer wall. 6. The filter of claim 1 , further comprising a retainer at at least the first void end and the second void end to retain the volume of filtration material in the filter void. 7. The filter of claim 1 , wherein the volume of filtration material includes activated charcoal. 8. The filter of claim 1 , wherein the filter inner wall, the filter outer wall and the plurality of baffles are formed together as a single unitary element. 9. The filter of claim 8 , wherein the filter inner wall, the filter outer wall and the plurality of baffles are formed together via additive manufacturing. 10. The filter of claim 1 , wherein the plurality of baffles are configured to increase a residence time of the airflow in the filter void. 11. A waste disposal system, comprising: a waste inlet; a waste transfer tube extending from the waste inlet; a collection canister connected to the waste inlet via the waste transfer tube, wherein the waste disposal system is configured to provide a suction airflow directed through the waste transfer tube to urge waste through the waste inlet and along the waste transfer tube to the collection canister; and a filter through which the suction airflow is directed for removal of odor and/or other contaminants from the suction airflow, the filter including: a filter outer wall; a filter inner wall spaced apart from the filter outer wall, the filter inner wall and the filter outer wall defining a filter void therebetween, the filter inner wall and the filter outer wall extending along a filter axis; a volume of filtration material disposed in the filter void; and a plurality of baffles extending between the filter inner wall and the filter outer wall, the plurality of baffles configured to induce a helical component to the suction airflow entering the filter void at a first void end relative to the filter axis and exiting the filter void at a second void end opposite the first void end. 12. The waste disposal system of claim 11 , wherein the filter inner wall and the filter outer wall have coaxial circular cross-sections centered on the filter axis. 13. The waste disposal system of claim 11 , wherein each baffle of the plurality of baffles extends curvilinearly from the first void end to the second void end. 14. The waste disposal system of claim 11 , wherein the plurality of baffles are equally-spaced about the filter void. 15. The waste disposal system of claim 11 , wherein the plurality of baffles are secured to at least one of the filter inner wall and the filter outer wall. 16. The waste disposal system of claim 11 , further comprising a retainer at at least one of the first void end and the second void end to retain the volume of filtration material in the filter void. 17. The waste disposal system of claim 11 , wherein the volume of filtration material includes activated charcoal. 18. The waste disposal system of claim 11 , wherein the filter inner wall, the filter outer wall and the plurality of baffles are formed together as a single unitary element via additive manufacturing. 19. The waste disposal system of claim 11 , wherein the waste disposal system is configured for use on a spacecraft. 20. A method of operating a waste disposal system, comprising: urging a suction airflow through a waste inlet; urging waste through the waste inlet and along a waste transfer tube extending from the waste inlet via the suction airflow; directing the suction airflow through a filter, the filter including: a filter outer wall; a filter inner wall spaced apart from the filter outer wall, the filter inner wall and the filter outer wall defining a filter void therebetween, the filter inner wall and the filter outer wall extending along a filter axis; a volume of filtration material disposed in the filter void; and a plurality of baffles extending between the filter inner wall and the filter outer wall; and inducing a helical component to the suction airflow entering the filter void from the waste inlet at a first void end relative to the filter axis and exiting the filter void at a second void end opposite the first void end via the plurality of baffles, thereby increasing a residence time of the suction airflow in the filter void.