Integration methods of gas processing plant and nitrogen rejection unit for high nitrogen feed gases

What is claimed is: 1. A gas treatment plant for treatment of a feed gas that includes CO 2 and N 2 , comprising: a primary CO 2 removal unit configured to receive a feed gas from a feed gas source, and further configured to remove from the feed gas CO 2 to a first concentration to so form a treated feed gas; a secondary CO 2 removal unit fluidly coupled to the primary CO 2 removal unit and configured to receive the treated feed gas, and further configured to use an ultra-lean solvent in an absorber to produce a CO 2 -loaded solvent and a CO 2 -depleted feed gas having residual CO 2 at a second concentration; and a nitrogen rejection unit configured to remove N 2 from the CO 2 -depleted feed gas and to produce a N 2 waste stream and a pipeline gas; wherein the secondary CO 2 removal unit comprises a flash unit and a stripping column fluidly coupled to the absorber, wherein the flash unit is configured to flash the CO 2 -loaded solvent and to produce a flashed solvent, and wherein the stripping column is configured to use the N 2 waste stream as a stripping gas for the flashed solvent to thereby produce the ultra-lean solvent. 2. The plant of claim 1 , wherein the feed gas source is a hydrocarbon production well, and wherein the feed gas has a N 2 concentration of at least 10 mol % and a CO 2 concentration of at least 2 mol %. 3. The plant of claim 1 , wherein the feed gas source is a hydrocarbon production well, and wherein the feed gas a pressure of at least 1000 psig. 4. The plant of claim 1 , wherein the primary CO 2 removal unit comprises an amine absorber and an amine solvent regenerator, wherein the amine absorber produces a treated gas stream. 5. The plant of claim 4 , wherein the primary CO 2 removal unit further comprises a drier which produces a dried stream from the treated gas stream. 6. The plant of claim 5 , wherein the primary CO 2 removal unit further comprises a NGL unit which produces a NGL stream and a lean gas stream from the dried stream. 7. The plant of claim 6 , wherein the primary CO 2 removal unit further comprises a compressor configured to compress the lean gas stream to form the treated feed gas. 8. The plant of claim 7 , wherein the treated feed gas has a pressure of about 1,000 psig to 1,500 psig. 9. The plant of claim 1 , wherein the flash unit in the secondary CO 2 removal unit is configured to operate at a pressure of equal to or less than 100 psig. 10. The plant of claim 1 , wherein the flash unit comprises a hydraulic turbine. 11. The plant of claim 1 , wherein the secondary CO 2 removal unit further comprises a compressor that is configured to increase a pressure of the N 2 waste stream prior to delivery of the N 2 waste stream to the stripping column. 12. The plant of claim 1 , wherein the primary CO 2 removal unit is configured such that the treated feed gas has a CO 2 concentration of between 1-5 mol %. 13. The plant of claim 12 , wherein the secondary CO 2 removal unit is configured such that the CO 2 -depleted feed gas has a CO 2 concentration of equal to or less than 3,000 ppmv CO 2 . 14. The plant of claim 1 , wherein the primary CO 2 removal unit is configured such that the treated feed gas has a CO 2 concentration of between 1-5 mol %. 15. The plant of claim 14 , wherein the secondary CO 2 removal unit is configured such that the CO 2 -depleted feed gas has a CO 2 concentration of equal to or less than 1,000 ppmv CO 2 . 16. The plant of claim 1 , further comprising a blower configured to compress the N 2 waste stream to a pressure of about 5-50 psig for use as the stripping gas.