Method and system for leak testing

The invention claimed is: 1. A method of leak testing a flexible expandable bag having at least one port and at least one flexible wall in a system comprising: a gas flow meter; a gas pressure regulator; a gas pressure transducer; a gas pressure relief valve; a displacement measurement sensor, arranged to measure displacement of the flexible wall of the bag as the bag expands while being filled with gas; at least three valves, each valve being controllable to allow or prevent gas flow therethrough; a plurality of conduits, arranged to provide a first fluid flow path from a pressurized gas supply to the flexible expandable bag, the first fluid flow path bypassing the gas flow meter and/or the gas pressure regulator, and a second fluid flow path from the pressurized gas supply to the flexible expandable bag, the second fluid flow path passing through the gas flow meter and the gas pressure regulator, the first fluid flow path and the second fluid flow path each passing through at least one of the three valves, wherein the second fluid flow path communicates with the gas pressure transducer and the gas pressure relief valve, and wherein at least one conduit in the plurality of conduits has an end suitable for communicating with the at least one port of the flexible expandable bag; and; an apparatus including a computer control unit programmed to carry out linear regression and determine whether a leak is present using the formula: ∫ 0 t Q·dt=K·d+L·t wherein Q is the measured flow rate into the bag at time t K is a constant relating dimensional change to the increase in volume of the bag d is the dimensional change at time t L is the flow from the leak, if present; wherein no leak is present when L=0, the apparatus controlling operation of the valves and gas flow through the first fluid flow path and the second fluid flow path, the apparatus communicating with, and receiving data from, the gas flow meter, the gas pressure regulator, the gas pressure transducer, and the displacement measurement sensor, regarding gas flow rate, gas pressure, and displacement of the flexible wall of the bag, to determine whether a leak is present, the method comprising: (a) filling the flexible bag with gas flowing through the at least one port such that the flexible bag expands, wherein filling the flexible bag includes measuring a flow rate of the gas into the flexible bag while maintaining a constant pressure of the gas in the flexible bag; (b) measuring displacement of the flexible wall; and, (c) determining whether a leak is present using the formula: ∫ 0 t Q·dt=K·d+L·t wherein Q is the measured flow rate into the bag at time t K is a constant relating dimensional change to the increase in volume of the bag d is the dimensional change at time t L is the flow from the leak, if present; wherein no leak is present when L=0. 2. The method of claim 1 , including initially passing gas into the flexible bag via a first fluid flow path bypassing a gas flow meter and/or a gas pressure regulator, before passing gas into the flexible bag using a second fluid flow path through the gas flow meter and the gas pressure regulator. 3. The method of claim 1 , including maintaining a constant pressure of gas of at least about 10 mbar. 4. The method of claim 1 , including maintaining a constant pressure of gas in the range of from about 10 mbar to about 50 mbar. 5. The method of claim 1 , including venting the flexible bag after determining whether a leak is present. 6. The method of claim 1 , comprising a sterile method, the method including passing gas from a pressurized gas source through at least one sterilizing grade filter before passing the gas into the flexible bag. 7. A system for leak testing a flexible expandable bag having at least one port and at least one flexible wall, comprising: (a) a gas flow meter; (b) a gas pressure regulator; (c) a gas pressure transducer; (d) a gas pressure relief valve; (e) a displacement measurement sensor, arranged to measure displacement of the flexible wall of the bag as the bag expands while being filled with gas; (f) at least three valves, each valve being controllable to allow or prevent gas flow therethrough; (g) a plurality of conduits, arranged to provide a first fluid flow path from a pressurized gas supply to the flexible expandable bag, the first fluid flow path bypassing the gas flow meter and/or the gas pressure regulator, and a second fluid flow path from the pressurized gas supply to the flexible expandable bag, the second fluid flow path passing through the gas flow meter and the gas pressure regulator, the first fluid flow path and the second fluid flow path each passing through at least one of the three valves, wherein the second fluid flow path communicates with the gas pressure transducer and the gas pressure relief valve, and wherein at least one conduit in the plurality of conduits has an end suitable for communicating with the at least one port of the flexible expandable bag; and; (h) an apparatus including a computer control unit programmed to carry out linear regression and determine whether a leak is present using the formula: ∫ 0 t Q·dt=K·d+L·t wherein Q is the measured flow rate into the bag at time t K is a constant relating dimensional change to the increase in volume of the bag d is the dimensional change at time t L is the flow from the leak, if present; wherein no leak is present when L=0, the apparatus controlling operation of the valves and gas flow through the first fluid flow path and the second fluid flow path, the apparatus communicating with, and receiving data from, the gas flow meter, the gas pressure regulator, the gas pressure transducer, and the displacement measurement sensor, regarding gas flow rate, gas pressure, and displacement of the flexible wall of the bag, to determine whether a leak is present. 8. The system of claim 7 , further comprising (i) at least one first sterilizing grade filter in fluid communication with the pressurized gas supply and the first fluid flow path and the second fluid flow path. 9. The method of claim 2 , including maintaining a constant pressure of gas of at least about 10 mbar. 10. The method of claim 2 , including maintaining a constant pressure of gas in the range of from about 10 mbar to about 50 mbar.