System and method for solvent regeneration

The invention claimed is: 1. A system for regeneration of acidic gas solvent, the system comprising; a flash drum arranged to receive a solvent laden with an acidic gas and generate a lean amine flow; a lean rich heat exchanger, said lean amine flow arranged to pass through the lean rich exchanger; a regeneration cell having a solvent chamber arranged to receive the lean amine flow from the lean rich heat exchanger, and an internal chamber arranged to receive a steam flow; the regeneration cell including a gas permeable membrane separating the solvent chamber and internal chamber; wherein the regeneration cell is arranged to vent acidic gas stripped from the lean amine flow by the steam. 2. The system according to claim 1 , further including a re-boiler in communication with an outlet from the solvent chamber, the re-boiler arranged to heat the stripped amine so as to remove water, and direct the consequential steam flow to the internal chamber. 3. The system according to claim 1 , further including a bulk removal regeneration cell, the bulk removal regeneration cell having a bulk removal solvent chamber arranged to receive a solvent flow, and a bulk removal internal chamber; the bulk removal regeneration cell including a gas permeable membrane separating the bulk removal solvent chamber and bulk removal internal chamber; wherein the bulk removal regeneration cell is arranged to vent acidic gas diffused from the solvent, and direct the solvent to the solvent chamber of the regeneration cell. 4. The system according to claim 1 , wherein the solvent chamber is concentrically arranged around the internal chamber. 5. A method for regenerating acidic gas solvent, the method comprising the steps of: receiving a solvent laden with an acidic gas in a flash drum and generating a lean amine flow; passing the lean amine flow through a lean rich heat exchanger; receiving the lean amine flow from the lean rich heat exchanger in a solvent chamber; receiving a steam flow in an internal chamber; separating the internal chamber from the solvent chamber with a gas permeable membrane; stripping the acidic gas from the lean amine flow; diffusing the acidic gas into the internal chamber; and venting the acidic gas from the internal chamber. 6. The method according to claim 5 , further including the steps of: re-boiling the stripped amine so as to remove water; and directing the consequential steam flow to the internal chamber. 7. The method according to claim 5 , further including the steps, prior to the solvent receiving step of: receiving the solvent flow in a bulk removal solvent chamber; separating the bulk removal solvent chamber from a bulk removal internal chamber with a gas permeable membrane; removing the acidic gas from the solvent; diffusing the acidic gas through the gas permeable membrane; venting the acidic gas from the bulk removal internal chamber; and directing the solvent to the solvent chamber of a regeneration cell.