Two-stage quench scrubber

What is claimed is: 1. A method of treating a flue gas to continually reduce at least one of SOx and NOx, comprising the steps of: feeding a flue gas having a SOx concentration of between 10-200 ppm, a NOx concentration of between 10-500 ppm, and a pressure of between −10 psig and 30 psig at a first temperature to a quench section having water as a quench medium that is circulated in a quench medium circulation system comprising a cooler, and quenching the flue gas in the quench section at a temperature approach of 5-15° C. between the quenched flue gas and the quench medium in the absence of any caustic or other chemical suitable for significant SOx and NOx absorption to a second temperature in direct counter-current contact with water as a quench medium; feeding the quenched flue gas to a scrubbing section and scrubbing the quenched flue gas in the scrubbing section in direct counter-current contact with an aqueous caustic solution as a scrubbing fluid at a concentration effective to continuously reduce at least one of SOx and NOx content in scrubbed flue gas to a predetermined concentration; wherein the scrubbing fluid is recirculated via a pump between the scrubbing section and a recirculation tank; wherein the quench and scrubbing sections are configured to use separate solvent circulation systems in which the flue gas is first quenched with a quench medium in a first system, in which water condensed from the quenched flue gas is removed from the quench section, and in which the quenched flue gas is scrubbed using a caustic aqueous solvent in a second system, and further in which a portion of the caustic aqueous solvent is removed from the scrubbing section, wherein the first system has a greater circulation rate than the second system; wherein the quench and scrubbing sections are in a single tower; and wherein the quench section is operated such that quenched flue gas leaves the quench section at a temperature that is below an adiabatic saturation temperature of the flue gas. 2. The method of claim 1 wherein the flue gas is provided from a source selected from the group consisting of a coal incinerator, a hydrocarbon fuel fired incinerator, and a natural gas fired incinerator, and wherein the predetermined concentration is equal or less than 10 ppm. 3. The method of claim 1 wherein the first temperature is between 100° C. and 300° C. 4. The method of claim 1 wherein the second temperature is between 90° C. and 20° C. 5. The method of claim 1 wherein the quench section is operated such that less than 10% of total SO 2 is absorbed in the quench section. 6. The method of claim 1 wherein the quench medium is circulated in a quench circuit and cooled by a cooler prior to re-entry into the quench section. 7. The method of claim 1 wherein the caustic comprises at least one of an earth alkaline metal hydroxide, an alkaline metal hydroxide, and ammonium hydroxide. 8. The method of claim 1 wherein the concentration of the caustic is continuously held at a concentration corresponding to initial addition of caustic of equal or greater than 10 wt %. 9. The method of claim 1 further comprising a step of draining optionally neutralized quench medium to a sewer or process component of a plant. 10. A method of continually reducing at least one of SOx and NOx in a flue gas having a SOx concentration of between 10-200 ppm, a NOx concentration of between 10-500 ppm, and a pressure of between −10 psig and 30 psig to a predetermined concentration, comprising the steps of: quenching flue gas in direct counter-current contact and in the absence of any caustic or other chemical suitable for significant SOx and NOx absorption with a quench medium in a quench section having water as a quench medium that is circulated in a quench medium circulation system that comprises a cooler to a temperature that is below an adiabatic saturation temperature of the flue gas, wherein the step of quenching uses a temperature approach of 5-15° C. between the quenched flue gas and the quench medium, wherein the quench medium is separate from a concentrated aqueous downstream scrubbing medium that is circulated in a scrubbing medium circulation system to thereby allow the concentrated aqueous downstream scrubbing medium in a scrubbing section to remain substantially undiluted by condensation of water from the quenched flue gas, wherein the quench medium circulation system has a greater circulation rate than the scrubbing medium circulation system; wherein the scrubbing medium is recirculated via a pump between the scrubbing section and a recirculation tank; wherein water condensed from the quenched flue gas is removed from the quench section; wherein the quenching and scrubbing are performed in separate sections of a single tower; and wherein a portion of the concentrated aqueous downstream scrubbing medium is removed from the scrubbing section, wherein the scrubbing medium moves in direct counter-current contact relative to the flue gas, and venting the scrubbed flue gas. 11. The method of claim 10 wherein the quench medium is water, wherein the concentrated scrubbing medium comprises a caustic, and wherein the predetermined concentration of the at least one of SOx and NOx is less than 10 ppm. 12. The method of claim 10 wherein the quench medium is circulated and wherein at least one of water condensed from the flue gas and the quench medium drained in the sewer is used in a process component of a plant. 13. The method of claim 10 wherein the quenching is performed such that less than 10% of total SO 2 is absorbed in the quench section. 14. The method of claim 10 wherein the concentration of the concentrated scrubbing medium is continuously held at a concentration corresponding to initial addition of caustic of equal or greater than 10 wt %. 15. A flue gas treatment system, comprising: an incinerator configured to provide a flues gas having a SOx concentration of between 10-200 ppm, a NOx concentration of between 10-500 ppm, and a pressure of between −10 psig and 30 psig; a quench section comprising a counter-current contacting section fluidly coupled to a quench medium circulation system comprising a cooler, wherein the quench section is configured to receive the flue gas from the incinerator at a first temperature, and to produce a quenched flue gas at a temperature approach of 5-15° C. between the quenched flue gas and the quench medium, wherein the quenched flue gas has a temperature that is below an adiabatic saturation temperature of the flue gas, wherein the quench section is further configured to reduce the temperature of the flue gas in the absence of any caustic and/or other chemical suitable for significant SOx and NOx absorption to a second temperature in direct counter-current contact with water as a quench medium; a scrubbing section fluidly coupled to the quench section and configured to receive the quenched flue gas at the second temperature, wherein the scrubbing section is further configured to contact the quenched flue gas in direct counter-current contact with an aqueous caustic solvent; a pump fluidly coupled between the scrubbing section and a recirculation tank and configured to recirculate the aqueous caustic solvent between the scrubbing section and a recirculation tank, wherein the quench section and the scrubbing section are configured to use separate solvent circulation systems in which the flue gas is first quenched with a quench medium in the first system, in which water condensed from the quenched flue gas is removed from the quench section, and in which the quenched flue gas is scrubbed using a caustic