Method and system for analyzing velocity distribution of water flow in a water body

What is claimed is: 1. A system for analyzing a velocity distribution of water flow in a water body, said system comprising: a water outlet configured to be disposed above the water body for discharging sample water into the water body, the sample water having a temperature higher than that of the water body; a thermographic camera configured to be disposed above the water body for capturing at least a first thermographic image of the water body upon discharge of the sample water into the water body and a second thermographic image of the water body after capturing the first thermographic image; and a processing device electrically connected to said thermographic camera for receiving the first and second thermographic images, and programmed to calculate a flow velocity of the sample water in the water body based on the first and second thermographic images and to analyze the velocity distribution of the water body according to the flow velocity of the sample water; a water container connected to said water outlet, said water container having an opening for collecting rainwater; a heating component disposed at said water container for heating the rainwater contained in said water container to serve as the sample water; and a valve connected to said water outlet for controlling the discharge of the sample water contained in said water container into the water body through said water outlet. 2. The system of claim 1 , wherein said heating component includes an electrical heater. 3. The system of claim 1 , wherein said heating component includes a transmissive optical device configured to use sunlight for heating the rainwater. 4. The system of claim 1 , wherein said thermographic camera is an infrared camera. 5. The system of claim 1 , wherein said processing device is further programmed to display a graph of the velocity distribution of the water body. 6. A method for analyzing velocity distribution of water flow in a water body, comprising steps of: discharging, via a water outlet disposed above the water body, sample water into the water body, the sample water having a temperature higher than that of the water body; capturing, by a thermographic camera disposed above the water body, a first thermographic image of the water body upon the step of discharging sample water into the water body; capturing, by the thermographic camera, at least a second thermographic image of the water body after the step of capturing a first thermographic image of the water body; calculating, by a processing device, at least one flow velocity of the sample water in the water body based on the first and second thermographic images; and analyzing, by the processing device, a velocity distribution of the water body according to the at least one flow velocity of the sample water; the method further comprising, prior to the step of discharging sample water into the water body, steps of: receiving water by a water container connected to the water outlet; and heating the water in the water container to serve as the sample water. 7. The method of claim 6 , wherein the step of receiving water includes collecting and storing rainwater. 8. The method of claim 6 , wherein the thermographic camera is an infrared camera. 9. The method of claim 6 , further comprising displaying, by the processing device, a graph of the velocity distribution of the water body.