Flow balancing devices, methods, and systems

The invention claimed is: 1. A method for controlling flow in a fluid circuit, comprising: in a blood treatment system that regulates net ultrafiltration of a patient by balancing a fluid withdrawn from a blood treatment device against the fluid pumped into the blood treatment device by controlling a relative volume displaced during a treatment by an inflow pump and an outflow pump, wherein the inflow pump and the outflow pump are regulated independently of each other; using a controller, during a testing mode, detecting a difference between a flow rate of the inflow pump and a flow rate of the outflow pump continuously over a test interval while storing difference data representing said difference over time; using the controller, while detecting said difference and generating said difference data, controlling a pumping rate of at least one of the inflow and outflow pumps to minimize said difference in flow rate without establishing a minimum of said difference; calculating, from the difference data and the pumping rate of the at least one of the inflow and outflow pumps, a control parameter for regulating said at least one of the inflow and outflow pumps by extrapolating from a trend in said difference data an equilibrium rate of the at least one of the inflow and outflow pumps that corresponds to the minimum of said difference; and performing the treatment including controlling a net flow of the fluid to or from a patient by controlling the inflow and outflow pumps responsively to said control parameter. 2. The method of claim 1 , wherein the blood treatment system is a dialysis system. 3. The method of claim 1 , wherein the at least one of the inflow and outflow pumps pump fresh dialysate and spent dialysate, respectively. 4. The method of claim 1 , wherein the calculating includes calculating a time-resolved moving average from the difference data and fitting said time-resolved moving average to a curve of flow difference vs. time. 5. A system for controlling flow in a fluid circuit, comprising: a blood treatment system that regulates net ultrafiltration of a patient by balancing a fluid withdrawn from a blood treatment device against the fluid pumped into the blood treatment device by controlling a relative volume displaced during a treatment by an inflow pump and an outflow pump, wherein the inflow pump and the outflow pump are regulated independently of each other; a controller having a sensor adapted for indicating a difference between a flow rate of the inflow pump and the flow rate of the outflow pump; the controller, during a testing mode, detecting the difference between the flow rates of the inflow and outflow pumps continuously over a test interval while storing difference data representing said difference over time; the controller, while detecting said difference and generating said difference data, controlling a pumping rate of at least one of the inflow and outflow pumps to minimize said difference without establishing a minimum of said difference; the controller calculating, from the difference data and the pumping rate of the at least one of the inflow and outflow pumps, a control parameter for regulating said at least one of the inflow and outflow pumps by extrapolating from a trend in said difference data an equilibrium rate of the at least one of the inflow and outflow pumps that corresponds to the minimum of said difference; and the controller performing the treatment including controlling a net flow of the fluid to or from a patient by controlling the inflow and outflow pumps responsively to said control parameter. 6. The system of claim 5 , wherein the blood treatment system is a dialysis system. 7. The system of claim 5 , wherein the at least one of the inflow and outflow pumps pump fresh dialysate and spent dialysate, respectively. 8. The system of claim 5 , wherein the calculating includes calculating a time-resolved moving average from the difference data and fitting said time-resolved moving average to a curve of flow difference vs. time. 9. A blood treatment machine, comprising: an inflow pump actuator; an outflow pump actuator; at least one pressure sensor connectable to a fluid circuit for measuring a pressure in the fluid circuit, the pressure sensor indicating a difference between a flow rate of the inflow pump actuator and a flow rate of the outflow pump actuator; a controller that regulates the inflow and outflow pump actuators to achieve a selected net ultrafiltration of a patient by balancing a fluid withdrawn from a blood treatment device against the fluid pumped into the blood treatment device by independently regulating speeds of the inflow and outflow pump actuators to achieve a relative volume displaced during a treatment by the inflow and outflow pump actuators; the controller, during a testing mode, detecting the difference between the flow rates of the inflow and outflow pumps continuously over a test interval while storing difference data representing said difference over time; the controller, while detecting said difference and generating said difference data, controlling a pumping rate of at least one of the inflow and outflow pump actuators to minimize said difference without establishing a minimum of said difference; the controller calculating, from the difference data and the pumping rate of the at least one of the inflow and outflow pump actuators, a control parameter for regulating said at least one of the inflow and outflow pump actuators by extrapolating from a trend in said difference data an equilibrium rate of the at least one of the inflow and outflow pump actuators that corresponds to a predetermined constant magnitude of the pressure indicated by said pressure sensor; and the controller controlling a net flow of the fluid to or from a patient by controlling the inflow and outflow pumps responsively to said control parameter. 10. The blood treatment machine of claim 9 , wherein the blood treatment machine is a dialysis cycler. 11. The blood treatment machine of claim 9 , wherein the calculating includes calculating a time-resolved moving average from the difference data and fitting said time-resolved moving average to a curve of flow difference vs. time.