Venous air capture chamber

We claim: 1. A venous air capture chamber, comprising: a chamber body comprising a top portion and a bottom portion; a fluid inlet upwardly extending from the bottom portion of the chamber body towards the top portion of the chamber body to form a fluid inlet tube terminating in a first fluid inlet port and a second fluid inlet port; wherein the first fluid inlet port and the second fluid inlet port are tangential to a circle plane formed by a center axis of the chamber body; wherein the first fluid inlet port and second fluid inlet port are opposedly positioned on the fluid inlet at an angle of 180° or close to 180°; and a fluid outlet on the bottom portion of the chamber body; wherein the chamber body comprises a small cylinder portion and a large cylinder portion; wherein the large cylinder portion is positioned higher relative to the small cylinder portion of the chamber; and wherein the first fluid inlet port and second fluid inlet port are positioned flush with a base of the large cylinder portion. 2. The venous air capture chamber of claim 1 , wherein the first fluid inlet port and second fluid inlet port are positioned at a 90° turn or close to a 90° turn relative to a fluid flow of the tube. 3. The venous air capture chamber of claim 1 , wherein the fluid outlet comprises a mesh filter forming a cylindrical taper having a decreasing diameter in an upward direction from the bottom of the chamber and terminates in a substantially planar surface. 4. The venous air capture chamber of claim 1 , wherein the chamber body is a substantially ovoid. 5. The venous air capture chamber of claim 1 , wherein the fluid inlet is positioned in the chamber body in the large cylinder portion; and wherein the fluid outlet is positioned on a bottom of the small cylinder portion. 6. The venous air capture chamber of claim 1 , wherein the chamber body has a height of between 9 and 13 cm. 7. The venous air capture chamber of claim 6 , wherein the small cylinder portion has a height of between 3 and 7 cm. 8. The venous air capture chamber of claim 6 , wherein the large cylinder portion has a height of between 4 and 8 cm. 9. The venous air capture chamber of claim 1 , wherein the small cylinder portion is inwardly sloping from a top of the small cylinder portion to the bottom of the small cylinder portion. 10. The venous air capture chamber of claim 1 , further comprising a spiral flow inducing shelf positioned inside the chamber body at the fluid inlet flush to a bottom portion of the fluid inlet. 11. The venous air capture chamber of claim 10 , wherein the spiral flow inducing shelf is downwardly sloping. 12. The venous air capture chamber of claim 1 , further comprising a cap covering the top portion of the chamber body. 13. The venous air capture chamber of claim 12 , wherein the cap comprises two ports. 14. A extracorporeal flow path, comprising: a dialyzer comprising a blood side of the dialyzer and a dialysate side of the dialyzer; a blood inlet fluidly connected to the blood side of the dialyzer and a blood outlet fluidly connected to the blood side of the dialyzer; a blood pump; and the venous drip chamber of claim 1 positioned in a venous blood line fluidly connectable to a patient and to the dialyzer. 15. The extracorporeal flow path of claim 14 , further comprising an arterial air capture chamber positioned in an arterial blood line fluidly connectable to the dialyzer and to a patient. 16. A method of performing dialysis, comprising the steps of: pumping blood through the extracorporeal flow path of claim 15 ; and pumping dialysate through the dialysate side of the dialyzer; wherein the step of pumping blood through the extracorporeal flow path comprises controlling the blood pump to pump the blood at a blood flow rate of between 50 mL/min and 500 mL/min. 17. The method of claim 16 , further comprising the step of filling the venous air capture chamber to a specified filling level; wherein the specified filling level is based on the blood flow rate. 18. The method of claim 17 , wherein the specified filling level is between 40% to 65% when the blood flow rate is between 50 mL/min and 200 mL/min; the specified filling level is between 50% to 75% when the blood flow rate is between 100 mL/min and 275 mL/min; the specified filling level is between 65% to 85% when the blood flow rate is between 275 mL/min and 500 mL/min; and the specified filling level is between 70% to 85% when the blood flow rate is 500 mL/min or greater. 19. The method of claim 17 , wherein the blood flow rate is between 275 and 500 mL/min and the specified filling level is between 65% and 80%. 20. A method for priming a dialyzer, comprising the steps of: pumping physiologically compatible saline through the extracorporeal flow path of claim 14 ; and pumping physiologically compatible saline through the dialysate side of the dialyzer.