Model for fluid and mass transport in a recirculating microfluidic system

The invention claimed is: 1. A method of performing an experiment using a microfluidic device with recirculation, the microfluidic device comprising a fluid, a first reservoir, a second reservoir in fluid communication with the first reservoir, at least one chamber in fluid communication with the first and second reservoirs, and a fluid path fluidically connecting the first reservoir, the chamber, and the second reservoir, the method comprising: setting a desired value for a condition within the microfluidic device, performing a calculation that accounts for an effective pressure difference between the first reservoir and the second reservoir and reactions occurring within the microfluidic device wherein the effective pressure difference is based on a time dependent imposed pressure difference and a hydraulic pressure difference, determining a set of initial conditions to achieve the desired value, wherein the set of initial conditions comprises one or more of a first reservoir fluid volume, a second reservoir fluid volume, a first concentration of a component in the first reservoir, a second concentration of the component in the second reservoir, and the time dependent imposed pressure difference wherein the set of initial conditions account for a reaction that occurs in the experiment within the microfluidic device, and initiating the experiment using the set of initial conditions. 2. The method of claim 1 , wherein initiating the experiment comprises mixing the component into a solution to create a first fluid having the determined first concentration of the component. 3. The method of claim 1 , wherein initiating the experiment further comprises adding a first volume of the first fluid to the first reservoir, the first volume of the first fluid being equivalent to the determined first reservoir fluid volume. 4. The method of claim 1 , wherein initiating the experiment comprises mixing the component into a solution to create a second fluid having the determined second concentration of the component. 5. The method of claim 1 , wherein initiating the experiment further comprises adding a second volume of a second fluid to the second reservoir, the second volume of the second fluid being equivalent to the determined second reservoir fluid volume. 6. The method of claim 1 , wherein initiating the experiment further comprises further comprising imposing the determined time dependent imposed pressure difference on the fluid to initiate circulation and recirculation of the fluid. 7. The method of claim 1 , wherein performing the experiment further comprises sending instructions from a processor to a controller to cause the controller to impose the determined time dependent imposed pressure difference on the fluid.