Instruments for processing cells

The invention claimed is: 1. An instrument for processing cells including culturing, concentrating or washing said cells that is adaptable to receive a disposable processing kit comprising a fluid circuit including a fluid reservoir and at least one fluid path, the instrument comprising: a housing including at least one pump that is adaptable to receive the disposable processing kit and provide fluid flow, by the at least one fluid pump, to the at least one fluid path; a mechanism configured for determining a quantity or change in quantity of a fluid in the reservoir, and a controller programmed to control said at least one fluid pump and operable to perform a fault determination process, which includes steps of: determining an expected flow rate of said at least one fluid pump calculated from the speed of said at least one fluid pump; comparing the expected flow rate with the change in quantity of the fluid in the reservoir; and producing an error or fault condition based at least in part on a determination that said comparison produces a difference above a predetermined value. 2. The instrument of claim 1 , wherein the predetermined value is dependent on an average pump speed over the time period. 3. The instrument of claim 2 , wherein the predetermined value increases with pump speed. 4. The instrument of claim 1 , wherein said quantity is fluid mass and said mechanism is a weighing mechanism. 5. The instrument of claim 4 , wherein said weighing mechanism includes a load cell and a support mechanically connected to the load cell for supporting the fluid reservoir and for transferring the weight of the fluid reservoir to the load cell. 6. The instrument of claim 1 , wherein said quantity is fluid volume and said mechanism determines fluid volume. 7. The instrument of claim 1 , wherein said at least one fluid pump includes a peristaltic mechanism acting on a sealed fluid tube of the processing kit circuit, and the expected mass flow from said at least one fluid pump is calculated from the speed of the peristaltic mechanism. 8. The instrument of claim 1 , wherein said disposable processing kit is insertable into and removable from the housing as an assembly. 9. The instrument of claim 1 , wherein the instrument is operable to derived the error or fault condition from equations 1 and 2, where appropriate substituting volume for mass in said equations Absolute Value(Expected Flow Rate-Actual Flow Rate)>  Error Criterion, Equation 1 wherein the Actual Mass Flow Rate is determined by the change in the signal from the load cell over the fixed measurement period, N seconds and Equation 2—used to compute the flow rate error check: Abs [ ∑ 0 N 1 / fs ( Actual ⁢ PumpSpeed Dependent ⁢ Pump ) N 1 / fs × γ DependentPump + ∑ 0 N 1 / fs ( Actual ⁢ PumpSpeed PrimaryIndependent ⁢ Pump ) N 1 / fs × γ PrimaryIndependentPump - ( Mass N - Mass 0 ) N * min / 60 ⁢ sec ] > Error ⁢ Criterion where: N is the measurement period in seconds (a configuration parameter): fs is the measurement sample frequency in Hz, thus N 1 / fs is the number of samples in the measurement period: Actual pump speed is in RPM: Dependent Pump and Independent Pump subscripts designate different pumps controlled by the controller: γ (Gamma) is the pump constant in ml/min/RPM: Mass N is the mass at sample N during the integration period; and Mass 0 is the starting mass. 10. A method for determining fluid mass or volumetric flow faults in the instrument for processing cells of claim 1 , the method comprising: determining the expected flow rate of the at least one fluid pump calculated from the speed of said at least one fluid pump; determining the quantity or change in quantity of the fluid in the reservoir; comparing the expected flow rate