Device and process for testing hollow fibre membrane filters

The invention claimed is: 1. A process for testing a filter comprising two compartments separated by a porous membrane which is a bundle of hollow fiber membranes, comprising i) providing a filter having a dry porous membrane which is a bundle of hollow fiber membranes; ii) establishing a pressure gradient between the compartments; iii) introducing a volume of testing liquid which is sufficient to substantially reduce gas permeability of the porous membrane but is less than or equal to the total pore volume of the porous membrane into the compartment having the higher pressure and permitting the testing liquid to wet the porous membrane; iv) monitoring the pressure gradient between the compartments or measuring gas flow through the membrane. 2. The process of claim 1 , wherein the testing liquid is water, methanol, ethanol or a mixture thereof. 3. The process of claim 2 , wherein the testing liquid is water. 4. The process of claim 1 , wherein the testing liquid is isopropanol. 5. The process of claim 1 , wherein the testing liquid is at least one of a liquid hydrocarbon and a silicone oil. 6. A device for testing a filter comprising two compartments separated by a porous membrane which is a bundle of hollow fiber membranes, comprising i) means for establishing a pressure gradient between the compartments; ii) means for introducing a volume of testing liquid into the filter, the volume of testing liquid being sufficient to substantially reduce gas permeability of the porous membrane but less than or equal to the total pore volume of the porous membrane, into the compartment having the higher pressure and allowing the testing liquid to wet the porous membrane; iii) means for monitoring the pressure gradient between the compartments or measuring gas flow through the membrane. 7. The device of claim 6 , wherein the means for introducing a predefined volume of testing liquid into the filter comprises a dosage compartment having an interruptible fluid connection to a testing liquid reservoir, an interruptible fluid connection to one of the two compartments of the filter, and a vent pipe comprising a valve. 8. The device of claim 7 , wherein the dosage compartment is interchangeable with another dosage compartment accommodating a different volume of testing liquid. 9. The device of claim 7 , wherein the means for introducing a predefined quantity of testing liquid into the filter comprises a movable lid between the dosage compartment and the testing liquid reservoir. 10. The device of claim 8 wherein the means for introducing a predefined quantity of testing liquid into the filter comprises a movable lid between the dosage compartment and the testing liquid reservoir. 11. The process according to claim 1 wherein the volume of testing liquid is in the range of from P·n·L·π·(d i ·20 μm+400 μm 2 ) to P·n·L·π·(d i ·w+w 2 ), with n being the number of fibers in the filter, L being the fiber length, P being the porosity of the fiber, d i being the inner diameter of each fiber, and w being the wall thickness of each fiber. 12. The device according to claim 6 wherein the volume of testing liquid is in the range of from P·n·L·π·(d i ·20 μm+400 μm 2 ) to P·n·L·π·(d i ·w+w 2 ), with n being the number of fibers in the filter, L being the fiber length, P being the porosity of the fiber, d i being the inner diameter of each fiber, and w being the wall thickness of each fiber. 13. A device for testing a filter comprising two compartments separated by a porous membrane which is a bundle of hollow fiber membranes, comprising i) means for establishing a pressure gradient between the compartments; ii) means, comprising a dosage compartment having an interruptible fluid connection to a testing liquid reservoir, an interruptible fluid connection to one of the two compartments of the filter, and a vent pipe comprising a valve, for introducing a volume of testing liquid into the filter, the volume of testing liquid being in the range of from P·n·L·π·(d i ·20 μm+400 μm 2 ) to P·n·L·π·(d i ·w+w 2 ), with n being the number of fibers in the filter, L being the fiber length, P being the porosity of the fiber, d i being the inner diameter of each fiber, and w being the wall thickness of each fiber; and, iii) means for monitoring pressure in the filter. 14. The device of claim 13 wherein the dosage compartment is interchangeable with another dosage compartment accommodating a different volume of testing liquid. 15. The device of claim 13 wherein the means for introducing a predefined quantity of testing liquid into the filter comprises a movable lid between the dosage compartment and the testing liquid reservoir. 16. The device of claim 13 wherein the means for introducing a predefined quantity of testing liquid into the filter comprises a movable lid between the dosage compartment and the testing liquid reservoir.