Coating system and method

What is claimed is: 1. An atomizing spray device comprising: a housing having plural inlets disposed at a first end of the device, the inlets including a first inlet shaped to receive a first fluid and a second inlet shaped to receive a slurry of ceramic particles and a second fluid, the inlets fluidly coupled with plural outlets by an interior chamber, the interior chamber shaped to mix the first fluid received via the first inlet with the slurry received via the second inlet inside the housing to form a primary mixture of the first fluid and first atomized droplets of the slurry, the outlets including a first outlet disposed on a first side of the housing and a second outlet disposed on the same first side of the housing, wherein each of the first outlet and the second outlet are shaped to change the primary mixture to form a secondary mixture of the first fluid and different, second atomized droplets of the slurry, the first outlet and the second outlet configured to spray the secondary mixture onto a component as a coating on the component, wherein the first outlet is configured to spray the secondary mixture onto a first surface of the component as a first layer of coating on the first surface of the component and the second outlet is configured to spray the secondary mixture onto the first surface of the component as a second layer of coating on the first surface of the component while the housing moves in a direction along the first surface of the component, and wherein the interior chamber has a first size upstream of the first outlet that is larger than a second size of the interior chamber downstream of the first outlet, wherein the interior chamber is sized to control a flow rate of the primary mixture between the inlets of the housing and outlets of the housing. 2. The atomizing spray device of claim 1 , wherein the first outlet disposed on the first side of the housing and the second outlet disposed on the first side of the housing are configured to reduce an amount of time for the device to spray the secondary mixture as the coating on the component. 3. The atomizing spray device of claim 1 , wherein the interior chamber has a first size at a first axial position of the interior chamber along an axial length of the device, and the interior chamber has a different, second size at a different, second axial position of the interior chamber. 4. The atomizing spray device of claim 3 , wherein the first outlet is fluidly coupled with the interior chamber at the first axial position of the interior chamber, and wherein the second outlet is fluidly coupled with the interior chamber at the second axial position of the interior chamber. 5. The atomizing spray device of claim 1 , wherein each of the outlets is sized to control a flow rate of the secondary mixture that is configured to be sprayed from each of the outlets onto the component. 6. The atomizing spray device of claim 1 , wherein each of the outlets is sized to control a volume of the secondary mixture that is configured to be sprayed from each of outlets onto the component. 7. The atomizing spray device of claim 1 , wherein the interior chamber in the housing is shaped to form the primary mixture of the first fluid and the first atomized droplets of the slurry in a location that is between the inlets and the outlets in the housing. 8. The atomizing spray device of claim 1 , wherein the first fluid is air. 9. The atomizing spray device of claim 1 , wherein the plural outlets are located in the housing to direct the secondary mixture in two or more different directions that are radial to a direction in which the first fluid or the slurry is received into the first inlet and the second inlet. 10. The atomizing spray device of claim 1 , wherein the coating is configured to be deposited on a thermal barrier coating of the component. 11. The atomizing spray device of claim 1 , wherein the coating is configured to be deposited on a chemical barrier coating of the component. 12. The atomizing spray device of claim 1 , further comprising a third outlet of the plural outlets, wherein the third outlet is configured to spray the secondary mixture onto a second surface of the component as a first layer of coating on the second surface of the component while the housing moves in the direction along the first surface of the component. 13. The atomizing spray device of claim 1 , wherein the first and second inlets define separate openings into the chamber in the housing, the first inlet encircles the second inlet at one end of the housing. 14. An atomizing spray device comprising: a housing having plural inlets and two or more outlets fluidly coupled with each other by an interior chamber, the inlets including a first inlet shaped to receive a first fluid and a second inlet shaped to receive a slurry of ceramic particles and a second fluid, wherein the interior chamber in the housing is shaped to mix the first fluid received via the first inlet with the slurry received via the second inlet inside the housing to form a primary mixture of the first fluid and first atomized droplets of the slurry in a location between the inlets and the two or more outlets, the interior chamber in the housing also shaped to direct the primary mixture to the two or more outlets, wherein each of the two or more outlets are shaped to change to change the primary mixture to form a secondary mixture of the first fluid and different, second atomized droplets of the slurry, the two or more outlets configured to spray the secondary mixture onto one or more surfaces of a component as a coating of the component, and wherein the interior chamber has a first size upstream of a first outlet of the two or more outlets that is larger than a second size of the interior chamber downstream of the first outlet of the two or more outlets, wherein the interior chamber is sized to control a flow rate of the primary mixture between the inlets of the housing and the two or more outlets of the housing.