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 assembly for applying a coating inside a turbine engine, comprising: an atomizing spray nozzle device configured to receive different phases of materials used to form the coating, the atomizing spray nozzle device shaped to be inserted into the turbine engine, to mix the different phases of the materials into two-phase evaporative droplets, and to direct the two-phase evaporative droplets toward a surface of the turbine engine; a spray controller configured to control delivery of the two-phase evaporative droplets through the atomizing spray nozzle device; and an equipment controller in communication with the spray controller, the equipment controller operably connected to the turbine engine for controlled rotation of the turbine engine, wherein the equipment controller is configured to control rotation of the turbine engine into which the atomizing spray nozzle device is inserted at least during spraying of the two-phase evaporative droplets by the atomizing spray nozzle device into the turbine engine and to continue the rotation of the turbine engine after spraying of the two-phase evaporative droplets is completed, wherein the equipment controller is further configured to start the rotation of the turbine engine prior to the spray controller commencing spraying of the two-phase evaporative droplets. 2. The atomizing spray nozzle assembly of claim 1 , wherein the atomizing spray nozzle device is sized to be inserted into one or more of a stage one nozzle borescope opening or a stage two nozzle borescope opening of the turbine engine. 3. The atomizing spray nozzle assembly of claim 1 , wherein the atomizing spray nozzle device includes an interior plenum that is shaped to direct the different phases of materials out of one or more delivery nozzles and create a spray of the two-phase evaporative droplets and a uniform coverage of the coating. 4. The atomizing spray nozzle assembly of claim 1 , wherein the atomizing spray nozzle device includes one or more delivery nozzles configured to spray the two-phase evaporative droplets to apply the coating as a uniform coating. 5. The atomizing spray nozzle assembly of claim 1 , wherein the atomizing spray nozzle device includes a first inlet and a second inlet, the first inlet configured to receive a mixture of ceramic particles and a liquid fluid, the second inlet configured to receive a gas, wherein the atomizing spray nozzle device is configured to atomize and mix the mixture of the ceramic particles and the liquid fluid with the gas as the two-phase evaporative droplets. 6. The atomizing spray nozzle assembly of claim 5 , wherein the second inlet is configured to direct the gas through the atomizing spray nozzle device such that the gas carries the two-phase evaporative droplets through and out of the atomizing spray nozzle device through one or more delivery nozzles of the atomizing spray nozzle device. 7. The atomizing spray nozzle assembly of claim 6 , wherein the one or more delivery nozzles also are configured to atomize the two-phase evaporative droplets as the two-phase evaporative droplets are sprayed toward one or more surfaces of the turbine engine. 8. An atomizing spray nozzle assembly for applying a coating inside a turbine engine, comprising: an atomizing spray nozzle device configured to receive different phases of materials used to form the coating, the atomizing spray nozzle device including a plurality of delivery nozzles shaped to be inserted into the turbine engine, to mix the different phases of the materials into two-phase evaporative droplets, and to direct the two-phase evaporative droplets toward a surface of the turbine engine, the plurality of delivery nozzles having centerlines that extend radially away from a centerline of the atomizing spray nozzle device; an equipment controller operably connected to the turbine engine for controlled rotation of the turbine engine; and a spray controller in communication with the equipment controller, the spray controller configured to commence spraying of the two-phase evaporative droplets after the equipment controller starts rotation of the turbine engine, the spray controller further configured to control a delivery pressure at which the two-phase evaporative droplets exit the atomizing spray nozzle device by controlling: at least one of: a supply pressure of the materials provided to the atomizing spray nozzle device, a supply pressure of a gas provided to the atomizing spray nozzle device, a flow rate of the materials provided to the atomizing spray nozzle device, a flow rate of the gas provided to the atomizing spray nozzle device, a temporal duration at which the materials is provided to the atomizing spray nozzle device, and a temporal duration at which the gas is provided to the atomizing spray nozzle device, and, at least one of: a time at which the materials are provided to the atomizing spray nozzle device, and a time at which the gas is provided to the atomizing spray nozzle device. 9. The atomizing spray nozzle assembly of claim 8 , wherein the atomizing spray nozzle device is 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. 10. The atomizing spray nozzle assembly of claim 8 , wherein the atomizing spray nozzle device includes an interior plenum that is shaped to direct the different phases of materials out of the plurality of delivery nozzles and create a spray of the two-phase evaporative droplets and a uniform coverage of the coating on the turbine engine. 11. The atomizing spray nozzle assembly of claim 8 , wherein the plurality of delivery nozzles are configured to spray the two-phase evaporative droplets to apply the coating as a uniform coating. 12. The atomizing spray nozzle assembly of claim 8 , wherein the atomizing spray nozzle device includes a first inlet and a second inlet, the first inlet configured to receive a mixture of ceramic particles and a liquid fluid, the second inlet configured to receive a gas. 13. The atomizing spray nozzle assembly of claim 12 , wherein the atomizing spray nozzle device is configured to atomize and mix the mixture of the ceramic particles and the liquid fluid with the gas as the two-phase evaporative droplets. 14. The atomizing spray nozzle assembly of claim 13 , wherein the second inlet is configured to direct the gas through the atomizing spray nozzle device such that the gas carries the two-phase evaporative droplets through and out of the atomizing spray nozzle device through the plurality of delivery nozzles of the atomizing spray nozzle device. 15. The atomizing spray nozzle assembly of claim 14 , wherein the plurality of delivery nozzles also are configured to atomize the two-phase evaporative droplets as the two-phase evaporative droplets are sprayed toward the one or more surfaces of the turbine engine. 16. An atomizing spray nozzle assembly for applying a coating inside a turbine engine, comprising: an atomizing spray nozzle device configured to receive different phases of materials used to form the coating, the atomizing spray nozzle device including a plurality of delivery nozzles shaped to be inserted into the turbine engine, the plurality of delivery nozzles having common cross-sections defining centerlines that extend at non-zero angles relative to a centerline of the atomizing spray nozzle device, the atomizing spray nozzle device configured to mix the different phases of the materials into two-phase evaporative droplets and to direct the two-phase evaporative droplets toward a surfac