Integrated cyclone separation device

The invention claimed is: 1. A cyclonic separation device for separating a fluid stream into high-density components and low-density components, the cyclonic separation device comprising: an exterior housing comprising an exterior conical portion and an exterior cylindrical portion; an interior housing comprising an interior cylindrical portion and an interior conical portion extending from the interior cylindrical portion, wherein the interior housing is positioned relative to the exterior housing to form a circulating chamber; a fluid inlet coupled to the exterior housing, the fluid inlet positioned to inject a fluid stream into the circulating chamber at an orientation generally tangential to the circulating chamber; a low-density outlet coupled to at least one of the exterior conical portion or the interior conical portion, the low-density outlet adapted to extract the low-density components from the circulating chamber; and a high density outlet radially offset from the low-density outlet and adapted to extract the high density components from the circulating chamber. 2. The cyclonic separation device of claim 1 , wherein the low-density outlet is positioned at a radial position inwards of the exterior cylindrical portion of the exterior housing. 3. The cyclonic separation device of claim 1 , wherein the low-density outlet is positioned at a radial position inwards of the interior cylindrical portion of the interior housing. 4. The cyclonic separation device of claim 1 , wherein the interior cylindrical portion has an outer diameter D, and a spacing between the interior cylindrical portion and the exterior cylindrical portion is less than about 0.075*D. 5. The cyclonic separation device of claim 1 , wherein the interior conical portion is inset from and angled with respect to the exterior conical portion, and the interior conical portion and the interior cylindrical portion define a pinch point with the exterior conical portion. 6. The cyclonic separation device of claim 5 , wherein a flow area of the circulating chamber evaluated at the pinch point is less than the flow area of the circulating chamber evaluated between the exterior cylindrical portion and the interior cylindrical portion at the fluid inlet. 7. The cyclonic separation device of claim 1 , wherein the low-density outlet extends into the circulating chamber and defines a trap volume between the low-density outlet and one of the exterior conical portion or the interior conical portion. 8. The cyclonic separation device of claim 1 wherein the high-density outlet is coupled to at least one of the exterior conical portion or the interior conical portion. 9. The cyclonic separation device of claim 1 , wherein the interior cylindrical portion has an outer diameter D, and a spacing between the interior cylindrical portion and the exterior cylindrical portion is less than about 0.2*D. 10. The cyclonic separation device of claim 1 , wherein the interior conical portion is inset from and generally parallel to the exterior conical portion. 11. The cyclonic separation device of claim 10 , wherein the low-density outlet is positioned at a radial position inwards of the exterior cylindrical portion of the exterior housing. 12. The cyclonic separation device of claim 10 , wherein the low-density outlet is positioned at a radial position inwards of the interior cylindrical portion of the interior housing. 13. A cyclonic separation device for separating a fluid stream into high-density components and low-density components, the cyclonic separation device comprising: an exterior housing comprising an exterior conical portion and an exterior cylindrical portion; an interior housing comprising an interior cylindrical portion and an interior conical portion extending from the interior cylindrical portion, wherein the interior housing is positioned relative to the exterior housing to form a circulating chamber; a fluid inlet coupled to the exterior conical portion of the exterior housing, the fluid inlet positioned to inject a fluid stream into the circulating chamber at an orientation generally tangential to the circulating chamber; a low-density outlet coupled to at least one of the exterior conical portion and the interior conical portion, the low-density outlet adapted to extract the low-density components from the circulating chamber; and a high density outlet adapted to extract the high density components from the circulating chamber. 14. A cyclonic separation device for separating a fluid stream into high-density components and low-density components, the cyclonic separation device comprising: an exterior housing comprising an exterior conical portion and an exterior cylindrical portion; an interior housing comprising an interior cylindrical portion and an interior conical portion extending from the interior cylindrical portion, wherein the interior housing is positioned relative to the exterior housing to form a circulating chamber and the interior conical portion is parallel to the exterior conical portion throughout a length of the interior conical portion; a fluid inlet coupled to the exterior housing, the fluid inlet positioned to inject a fluid stream into the circulating chamber at an orientation generally tangential to the circulating chamber; a low-density outlet coupled to at least one of the exterior conical portion and the interior conical portion, the low-density outlet adapted to extract the low-density components from the circulating chamber; and a high density outlet adapted to extract the high density components from the circulating chamber.