Method and system for collecting leukoreduced red blood cells

What is claimed: 1. A fluid processing circuit o the collection of leukoreduced red blood cells, comprising: a blood separator for separating red blood cells from whole blood wherein the separator includes a membrane configured to spin about a generally vertically-oriented axis within a housing, the housing including an upper end region and a lower end region in an operating position, and the separator including a red blood cell outlet in the upper end region of the housing and a whole blood inlet in the lowerend region of the housing; a source of additive solution in communication with the whole blood inlet for priming the blood separator with additive solution; a red blood cell flow path connecting a leukoreduction filter to the red blood cell outlet; a red blood cell collection container connected to the leukoreduction filter for collecting red blood cells after passage through the leukoreduction filter; and the source of additive solution being in communication with the red blood cell flow path upstream of the leukoreduction filter wherein additive solution is added to the red blood cell flow path and is mixed with red blood cells prior to passage through the leukoreduction filter. 2. The fluid processing circuit of claim 1 further including a first pump for pumping additive solution from the source of additive solution into the whole blood inlet. 3. The fluid processing circuit of claim 2 further including a second pump for pumping red blood cells from the red blood cell outlet and through the leukoreduction filter and a third pump for pumping additive solution from the source of additive solution to the red blood cell flow path. 4. The fluid processing circuit of claim 1 further including a pump for pumping red blood cells from the red blood cell outlet and through the leukoreduction filter. 5. The fluid processing circuit of claim 1 further including a pump for pumping additive solution from the source of additive solution to the red blood cell flow path. 6. The fluid processing circuit of claim 5 wherein the pump for pumping additive solution pumps the additive solution at a constant flow rate. 7. The fluid processing circuit of claim 5 wherein the pump for pumping additive solution is a variable pump that is adapted to vary the flow rate of the additive solution. 8. The fluid processing circuit of claim 1 wherein the separator includes a plasma outlet in the upper end region of the separator. 9. The fluid processing circuit of claim 1 wherein the additive solution comprises a low-viscosity non-biological fluid.