Systems and methods for monitoring a flow of a fluid on an external surface of a structure in motion

What is claimed is: 1. A system for monitoring a flow of a fluid on an external surface of a structure in motion, the system comprising: a fluid dispensing assembly configured for mounting to an internal surface of the structure, the fluid dispensing assembly comprising: a reservoir configured to store the fluid; a pump in fluid communication with the reservoir and configured to draw the fluid from the reservoir; a conduit extending from the pump and configured to direct the fluid onto the external surface of the structure; and a control device in communication with the pump and configured to regulate a flow rate of the fluid through the conduit; a fixture configured to removably attach the fluid dispensing assembly to the internal surface; and a camera configured for removably mounting to the external surface of the structure; and a memory device configured to store image data captured by the camera. 2. The system of claim 1 , wherein the conduit is configured to direct the fluid through an outlet in the structure and onto the external surface. 3. An aircraft comprising: an aircraft structure defining an internal surface of the aircraft and an external surface of the aircraft; a fluid dispensing assembly mounted to the internal surface of the aircraft, the fluid dispensing assembly comprising: a reservoir configured to store a fluid; a pump in fluid communication with the reservoir and configured to draw the fluid from the reservoir; a conduit extending from the pump and configured to direct the fluid through an outlet in the aircraft structure and onto the external surface of the aircraft; and a control device in communication with the pump and configured to regulate a flow rate of the fluid through the conduit; a fixture removably attaching the fluid dispensing assembly to the internal surface of the aircraft; a camera mounted to the external surface of the aircraft and positioned to capture image data of the fluid flow on the external surface; and a memory device configured to store image data captured by the camera. 4. The aircraft of claim 3 , wherein the conduit directs the fluid onto the external surface of the aircraft proximate a lowermost portion of the aircraft structure. 5. The aircraft of claim 3 , wherein the fluid dispensing assembly is self-contained and independent of aircraft systems. 6. The aircraft of claim 3 , further comprising a second camera mounted to the internal surface of the aircraft and positioned to capture image data of the internal surface. 7. The aircraft of claim 3 , wherein the fluid comprises at least one of an oil-based fluid and a glycol-based fluid. 8. The aircraft of claim 3 , wherein the fluid has a viscosity property such that the fluid is capable of flowing at a temperature below −40° F. 9. The aircraft of claim 3 , wherein the camera comprises a camera lens that has a hydrophobic coating. 10. The aircraft of claim 3 , wherein the memory device is a removable storage device. 11. The aircraft of claim 3 , wherein the camera is a digital camera. 12. The aircraft of claim 3 , further comprising a computer in wireless communication with the control device. 13. The aircraft of claim 3 , wherein the control device is programmed to regulate the flow rate of the fluid based on predetermined flight conditions. 14. The aircraft of claim 3 , wherein the conduit directs the fluid onto the external surface of the aircraft through a pre-existing drain hole in the aircraft structure. 15. The aircraft of claim 3 , wherein the camera is supported by an aerodynamic mounting structure to minimize aerodynamic disturbance. 16. The aircraft of claim 3 , wherein the memory device is configured to store real-time image data captured during flight. 17. The aircraft of claim 3 , wherein the fluid dispensing assembly is mounted within an engine nacelle of the aircraft. 18. The aircraft of claim 3 , wherein the fluid dispensing assembly directs the fluid onto the external surface of a nacelle or cowl of a jet engine. 19. The aircraft of claim 18 , wherein the conduit directs the fluid onto the external surface of the nacelle or cowl of the jet engine. 20. The aircraft of claim 3 , wherein the communication between the control device and the camera is wireless. 21. The aircraft of claim 3 , wherein the system is configured to allow remote observation of the fluid flow in real time during flight. 22. A method of operating the aircraft of claim 3 , the method comprising: dispensing the fluid from the fluid dispensing assembly through the conduit and onto the external surface of the aircraft while the aircraft is in motion; capturing image data of the fluid flow using the camera mounted to the external surface; storing the captured image data in the memory device; and regulating the flow rate of the fluid using the control device based on predetermined conditions.