Efficient non-clogging inertial vortex type particle scrubber

What is claimed: 1. An inertial vortex particle scrubber, comprising: a housing having an inlet guide, twin vortex chambers and an outlet wherein (a) a particle-laden air stream passes through the inlet guide into the twin vortex chambers and particles are displaced by centrifugal forces toward a wall of the twin vortex chambers and relatively particle free air is then discharged from the outlet, (b) the wall includes a first vertex opposite the inlet guide, a first portion of the wall on each side of the first vertex having a first radius of curvature R 1 and a second portion of the wall extending at least partially between the first portion of the wall on each side of the first vertex and the inlet guide having a second radius of curvature R 2 , where R 1 <R 2 , and (c) the wall includes a second vertex opposite the outlet, a third portion of the wall on each side of the second vertex having a third radius of curvature R 3 and a fourth portion of the wall extending at least partially between the third portion of the wall and the outlet having a fourth radius of curvature R 4 , where R 3 <R 4 . 2. The inertial vortex particle scrubber of claim 1 , wherein the inlet guide has a progressively decreasing cross-sectional area in the direction of air flow. 3. The inertial vortex particle scrubber of claim 2 , wherein the twin vortex chambers include a first vortex chamber configured for air flow in a clockwise direction and a second vortex chamber configured for air flow in a counter-clockwise direction. 4. The inertial vortex particle scrubber of claim 3 , further including a first baffle in the first vortex chamber dividing the first vortex chamber into a first upper section and a first lower section. 5. The inertial vortex particle scrubber of claim 4 , further including a second baffle in the second vortex chamber dividing the second vortex chamber into a second upper section and a second lower section. 6. The inertial vortex particle scrubber of claim 5 , wherein the inlet guide delivers the particle-laden air stream into the first upper section and the second upper section of the twin vortex chambers. 7. The inertial vortex particle scrubber of claim 6 , wherein the outlet is in communication with the first lower section and the second lower section of the twin vortex chambers. 8. The inertial vortex particle scrubber of claim 7 , further including flat wall portions between the first portion and the second portion and the third portion and the fourth portion. 9. The inertial vortex particle scrubber of claim 8 , wherein the first baffle extends between the inlet and the first vertex in the first vortex chamber and the second baffle extends between the inlet and the first vertex in the second vortex chamber. 10. The inertial vortex particle scrubber of claim 9 , wherein the inlet guide has a width of 5.06a and a height of 2.42a at an upstream end and a width of 1.34a and a height of 2.42a at a downstream end wherein “a” is any generic dimensional parameter. 11. The inertial vortex particle scrubber of claim 10 , wherein R 1 is 0.75a and R 2 is 1.86a. 12. The inertial vortex particle scrubber of claim 11 , wherein R 3 is 0.75a and R 4 is 1.86a. 13. The inertial vortex particle scrubber of claim 12 , wherein the outlet has a width of 5.08a and a height of 2.42a. 14. The inertial vortex particle scrubber of claim 1 , further including a spray nozzle adapted to spray a particle entraining liquid toward interior walls of the inlet guide to capture and entrain particles from the particle-laden air stream. 15. The inertial vortex particle scrubber of claim 14 , wherein the twin vortex chambers include a first vortex chamber configured for air flow in a clockwise direction and a second vortex chamber configured for air flow in a counter-clockwise direction. 16. The inertial vortex particle scrubber of claim 15 , further including a first baffle in the first vortex chamber dividing the first vortex chamber into a first upper section and a first lower section and a second baffle in the second vortex chamber dividing the second vortex chamber into a second upper section and a second lower section. 17. The inertial vortex particle scrubber of claim 16 , wherein the inlet guide discharges the particle-laden air stream into the first and second upper sections of the twin vortex chambers and the outlet is in communication with the first lower section and the second lower section of the twin vortex chambers.