Spray lance arrangement

The invention claimed is: 1. A two media spray lance and nozzle for spraying a liquid in a mixer comprising: a nozzle central body comprising a connecting portion with a first opening for fluidly connecting the nozzle to a two media spray lance for a liquid supply and an air supply to form an air dispersed liquid, and an atomizing portion with a second opening in fluid communication with the connecting portion for forming droplets of the air dispersed liquid flowing thereto from the connecting portion, and a two media spray lance connected to the nozzle comprising a liquid supply pipe for a flow of liquid from a liquid supply and an air supply pipe for a flow of air from an air supply, with the air supply pipe arranged with a first opening external to the liquid supply pipe and fluidly connected to the air supply, and a plurality of second openings arranged internal within the liquid supply pipe for air flow from the air supply pipe into the flow of liquid in the interior of the liquid supply pipe to disperse the liquid to form air dispersed liquid prior to flow of the air dispersed liquid into the nozzle. 2. A two media spray lance and nozzle according to claim 1 , wherein the nozzle further comprises a cleaning chamber defined by the atomizing portion. 3. A two media spray lance and nozzle according to claim 1 , wherein the nozzle further comprises a deflecting plate with a deflection surface having a surface roughness, R a , of 0.01 to 2.0 micrometer. 4. A two media spray lance and nozzle according to claim 3 , wherein an angle α between the deflection surface and a center line of the liquid supply pipe is in the range of 15-25°. 5. A two media spray lance and nozzle according to claim 3 , wherein the deflecting plate has lateral edges extending from the deflection surface at an angle γ of 10-40° to a normal line of the deflection surface. 6. A mixer for moistening absorbent material for use in removing gaseous pollutants from hot process gases comprising: at least one nozzle with a two media spray lance for spraying liquid onto absorbent material present inside of the mixer, the two media spray lance and nozzle comprising the nozzle with a central body comprising a connecting portion for connecting the nozzle to the two media spray lance, and an atomizing portion in fluid communication with the connecting portion for a flow of liquid and air thereto from the two media spray lance to form droplets of the liquid, and the two media spray lance comprising a liquid supply pipe fluidly connected to a liquid supply for a supply of liquid thereto, and an air supply pipe fluidly connected to an air supply for a supply of air thereto, wherein the air supply pipe extends through a portal in the liquid supply pipe with a first opening arranged external to the liquid supply pipe fluidly connected to the air supply, and a plurality of second openings arranged internal to the liquid supply pipe for a flow of air from the air supply pipe into the liquid supply pipe to disperse the liquid flowing there through to form air dispersed liquid therein, for flow of the air dispersed liquid into the connecting portion of the nozzle. 7. A mixer according to claim 6 , wherein the nozzle further comprises a cleaning chamber defined by the atomizing portion. 8. A mixer according to claim 6 , wherein the nozzle further comprises a deflecting plate with a deflection surface having a surface roughness, R a , of 0.01 to 2.0 micrometer. 9. A mixer according to claim 8 , wherein an angle α between the deflection surface and a center line of the liquid supply pipe is in the range of 15-25°. 10. A mixer according to claim 8 , wherein the deflecting plate has lateral edges extending from the deflection surface at an angle γ of 10-40° to a normal line of the deflection surface. 11. A method of atomizing a liquid comprising: supplying a liquid dispersed by air to a nozzle comprising a central body comprising a connecting portion for fluidly connecting the nozzle to a supply of liquid and a supply of air for dispersing the liquid to form air dispersed liquid prior to flow into the nozzle, and an atomizing portion for forming droplets of the air dispersed liquid flowing from the connecting portion to the atomizing portion of the nozzle; and atomizing the air dispersed liquid using the nozzle to form an essentially flat spray of liquid droplets from the nozzle. 12. A method according to claim 11 , wherein the nozzle further comprises a cleaning chamber defined by the atomizing portion. 13. A method according to claim 11 , wherein the nozzle further comprises a deflecting plate with a deflection surface having a surface roughness, R a , of 0.01 to 2.0 micrometer. 14. A method according to claim 13 , wherein an angle α between the deflection surface and a center line of the liquid supply pipe is in the range of 15-25°. 15. A method according to claim 13 , wherein the deflecting plate has lateral edges extending from the deflection surface at an angle γ of 10-40° to a normal line of the deflection surface. 16. A method of moistening absorbent material for use in removing gaseous pollutants from a process gas, the method comprising: using a mixer having at least one two media spray lance and nozzle combination for spraying liquid onto absorbent material present inside of the mixer, with the two media spray lance and nozzle combination comprising a nozzle with a central body comprising a connecting portion for fluidly connecting the nozzle to a liquid supply pipe for a supply of liquid thereto from a liquid supply, with the liquid supply pipe comprising a portal with an air supply pipe arranged therethrough with a first opening arranged external to the liquid supply pipe and fluidly connected to a supply of air from an air supply, and a plurality of second openings arranged internal within the liquid supply pipe for air flow from the supply of air through the air supply pipe and into the flow of liquid to disperse the liquid and form air dispersed liquid prior to the air dispersed liquid entering the nozzle, and atomizing the liquid droplets with the nozzle to moisten at least a portion of the absorbent material present inside the mixer. 17. A method according to claim 16 , wherein the nozzle further comprises a cleaning chamber defined by the atomizing portion. 18. A method according to claim 16 , wherein the nozzle further comprises a deflecting plate with a deflection surface having a surface roughness, R a , of 0.01 to 2.0 micrometer. 19. A method according to claim 18 , wherein an angle α between the deflection surface and a center line of the liquid supply pipe is in the range of 15-25°. 20. A method according to claim 18 , wherein the deflecting plate has lateral edges extending from the deflection surface at an angle γ of 10-40° to a normal line of the deflection surface.