Spray nozzle device for delivering a restorative coating through a hole in a case of a turbine engine

What is claimed is: 1. An atomizing spray nozzle device comprising: a housing having first and second inlets, the housing including an atomizing zone housing portion fluidly coupled with the first and second inlets, the atomizing zone housing portion configured to receive ceramic-liquid droplets from the first inlet and configured to receive a carrier gas from the second inlet, the atomizing zone housing portion shaped to mix the ceramic-liquid droplets and the carrier gas into a two-phase mixture of the ceramic-liquid droplets in the carrier gas, the housing also including a plenum housing portion fluidly coupled with the atomizing zone housing portion and extending from the atomizing zone housing portion to a delivery end, the plenum housing portion including an annular interior plenum chamber that is elongated along a center axis, the interior plenum chamber configured to receive the two-phase mixture of the ceramic-liquid droplets in the carrier gas from the atomizing zone housing portion around an exterior of a mandrel located inside the interior plenum chamber to compensate for a pressure reduction of the two-phase mixture of the ceramic-liquid droplets in the interior plenum chamber, the housing also including two or more delivery nozzles fluidly coupled with the interior plenum chamber, the two or more delivery nozzles providing two or more outlets from which the two-phase mixture of the ceramic-liquid droplets in the carrier gas is delivered onto one or more surfaces of a target object as a coating on the target object, wherein the two or more delivery nozzles have the same cross-sectional areas. 2. The atomizing spray nozzle device of claim 1 , wherein the plenum housing portion has a tapered shape that increases in cross-sectional size along the center axis from the atomizing zone housing portion to the delivery end. 3. The atomizing spray nozzle device of claim 1 , wherein the interior plenum chamber has a tapered shape that increases in cross-sectional size along the center axis from the atomizing zone housing portion toward the delivery end. 4. The atomizing spray nozzle device of claim 1 , wherein the two or more delivery nozzles include plural nozzles that are elongated along directions oriented at different angles with respect to the center axis. 5. The atomizing spray nozzle device of claim 1 , wherein the plenum housing portion has a convex bent shape from the atomizing zone housing portion to the delivery end. 6. The atomizing spray nozzle device of claim 1 , wherein the interior plenum chamber has a convex bent shape from the atomizing zone housing portion to the delivery end. 7. The atomizing spray nozzle device of claim 1 , wherein the interior plenum chamber has a first cross-sectional area at a first location at an intersection between the atomizing zone housing portion and the plenum housing portion, a second cross-sectional area at a second location that is closer to the delivery end, and a third cross-sectional area at a third location that is between the first and second locations, wherein the first and second cross-sectional areas are larger than the third cross-sectional area. 8. The atomizing spray nozzle device of claim 1 , wherein the interior plenum chamber has a first cross-sectional area at a first location at an intersection between the atomizing zone housing portion and the plenum housing portion, a second cross-sectional area at a second location that is closer to the delivery end, and a third cross-sectional area at a third location that is between the first and second locations, wherein the first cross-sectional area is smaller than the second and third cross-sectional areas and the third cross-sectional area is smaller than the second cross-sectional area. 9. The atomizing spray nozzle device of claim 1 , wherein the plenum housing portion has an interior surface that defines the interior plenum chamber, the interior surface having a first conical portion that tapers outward and a second conical portion that tapers inward upstream of the two or more delivery nozzles. 10. The atomizing spray nozzle device of claim 9 , wherein the interior surface has a cylindrical portion that extends from the first conical portion to the second conical portion. 11. The atomizing spray nozzle device of claim 1 , wherein the plenum housing portion has an interior surface that defines the interior plenum chamber, the interior surface having a curved portion that bows outward away from the center axis upstream of the two or more delivery nozzles. 12. The atomizing spray nozzle device of claim 1 , wherein the plenum housing portion has an interior surface that defines the interior plenum chamber and the interior plenum chamber has an asymmetric shape around the center axis. 13. The atomizing spray nozzle device of claim 12 , wherein the interior surface of the plenum housing portion includes an impingement surface oriented at an acute angle to the center axis. 14. The atomizing spray nozzle device of claim 1 , wherein the plenum housing portion includes an exterior surface that curves outward from the center axis. 15. The atomizing spray nozzle device of claim 1 , wherein the atomizing zone housing portion, the plenum housing portion, and the two or more delivery nozzles are sized to be inserted into one or more of a stage one nozzle borescope opening or a stage two nozzle borescope opening of a turbine engine. 16. The atomizing spray nozzle device of claim 1 , wherein the interior plenum chamber in the plenum housing portion provides for delivery of droplets of the two-phase mixture of the ceramic-liquid droplets in the carrier gas from the two or more delivery nozzles that creates a spray of the two-phase mixture of the ceramic-liquid droplets and a uniform coverage of the coating on the target object. 17. The atomizing spray nozzle device of claim 1 , wherein the two or more delivery nozzles are configured to spray the two-phase mixture of the ceramic-liquid droplets in the carrier gas onto the one or more surfaces of the target object to apply the coating as a uniform coating. 18. The atomizing spray nozzle device of claim 1 , wherein the two or more delivery nozzles include two or more of the delivery nozzles located through the housing on one side along a length of the housing. 19. The atomizing spray nozzle device of claim 1 , wherein the mandrel has a conical shape. 20. The atomizing spray nozzle device of claim 1 , wherein the mandrel has a concave outer surface such that the interior plenum chamber is larger at a middle of a length of the mandrel than at other locations along the length of the mandrel. 21. The atomizing spray nozzle device of claim 1 , wherein the mandrel is entirely contained within the interior plenum chamber. 22. The atomizing spray nozzle device of claim 1 , wherein the first inlet is smaller than the second inlet. 23. The atomizing spray nozzle device of claim 1 , wherein the two or more delivery nozzles form rectangular openings along one side of the housing. 24. The atomizing spray nozzle device of claim 1 , wherein the first inlet is positioned in the housing to receive the ceramic-liquid droplets and the second inlet is positioned in the housing to receive the carrier gas along directions that are orthogonal to directions in which the two or more outlets are positioned in the housing to direct the two-phase mixture of the ceramic-liquid droplets in the carrier gas. 25. The atomi