Steam reformer based hydrogen plant scheme for enhanced carbon dioxide recovery

What is claimed is: 1. A method of re-distributing CO2 balance from reformer furnace flue gas to the high pressure syngas exit water gas shift reaction unit; comprising: providing a first gas mixture; introducing said first gas mixture into a pre-reformer followed by a primary reformer, or directly into a primary reformer, thereby generating a second gas mixture comprising hydrogen, carbon monoxide, carbon dioxide; introducing said second gas mixture into at least one isothermal shift reactor, or a combination of high followed by a low temperature shift reactor, or a medium temperature shift reactor, thereby generating a third gas mixture; introducing said third gas mixture into an amine wash, wherein said third gas is separated into a fourth gas mixture and a carbon dioxide enriched stream; introducing said fourth gas mixture into a low recovery PSA, wherein said fourth gas is separated into a hydrogen enriched stream and a PSA purge gas stream; introducing said purge gas from the low recovery PSA to the reformer furnace as fuel; wherein no additional supplemental fuel is sent to the reformer furnace, wherein said low recovery PSA has a hydrogen recovery between about 50% and about 65%, wherein the low recovery PSA unit delivers a sufficient quantity of fuel by varying the hydrogen % recovery within the low recovery PSA unit such that no additional supplemental fuel to the reformer furnace is required. 2. The method of claim 1 , wherein the number of adsorption beds is between 8 and 10. 3. The method of claim 1 , wherein the hydrogen recovery of said low recovery PSA is adjusted such that the PSA purge gas stream heat content as fuel is sufficient to satisfy the fuel demand of the primary reformer. 4. The method of claim 1 , wherein said PSA purge gas stream has a pressure of between about 5 bara and about 10 bara. 5. The method of claim 1 , wherein said PSA purge gas stream has a pressure of greater than about 1.2 bara.