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Thursday, May 4, 2017

Done!!!

I have finished my wind tunnel with adding some objects for testing later. I still have not figured out how to test the objects as the CO2 from the dry ice plus water is not working well. I might just leave the wind tunnel at the center until I find a solution to this problem. I did set up the display by adding some information on wind tunnels and how they work on the wall behind the wind tunnel for visitors. I think that everyone who visits the Space Center will definitely leave it after learning something about wind tunnels. I am still working on testing the objects, but besides that I am basically done. I just want to say thanks to everyone who kept up with my project and I can't wait to present it this May 6 at BASIS Phoenix. I still work on my poster, but besides that my presentation is basically done.




Thank You!!

My final presentation:  https://docs.google.com/presentation/d/1R4JHEp4vvfzfZ83jkDhkgIyggk_Y4ii6ZAQgqkG0Hx0/edit#slide=id.g20976b1344_1_23

Thursday, April 27, 2017

Final Problems

I had some issues with my flow visualization which is how I wanted to test the objects in the wind tunnel. I intended to use dry ice with warm water to give off the smokey effect of CO2, but it did not work as well as I thought it would. I could not record a video of it because it was basically invisible unless you were there in person. I might try other methods of smoke like smoke bombs or something, but this is my situation right now. I really put my money on the dry ice  after reading many reviews on how good the smokey effect is. I might try it again with more in a darker place with better lighting so that I can get a good video of us testing a toy helicopter in the wind tunnel. 

Monday, April 24, 2017

Flow Straightener

A flow straightener, sometimes called a honeycomb, is a device used to straighten the air flow in a wind tunnel. It is a passage of ducts, laid along the axis of main air stream to minimize the lateral velocity components caused by swirling motion in the air flow during entry. The cross-section shapes of these "honeycombs" may be of square, circular and regular hexagonal cells.

Wednesday, April 19, 2017

Open Circuit Wind Tunnels

The advantages of open circuit wind tunnels is first the low construction cost. These are easy to make and are cheap. It's a better design for propulsion and smoke visualization. There is no accumulation of exhaust products in an open tunnel.

The disadvantages are poor flow quality in the wind tunnel. The tunnels should also be kept away from other objects in the room that produce asymmetries to the bellmouth. It can also be affected by wind and weather.The fan must must continually accelerate flow through the tunnel. It is also noisy which can be inconvenient.   

Monday, April 17, 2017

Closed Circuit Wind Tunnels

The advantages of closed circuit wind tunnels are that the fan blades are less vulnerable to damage. The noise is lower and the particle being tested can be easily contained. Outside air movements like air vents don't affect the wind tunnel. The power requirement for a given speed is lower. The air entering the test section is also free of debris.

The disadvantages are that the cost for these types of wind tunnels are significantly higher compared to the open circuit wind tunnels. The recycled air supply can be disastrous when working with combustion engines. It requires more space as these tend to be a bit bigger. The increeasing air pressure can be an issue during prolonged use.

Wednesday, April 12, 2017

Schlieren photograph

Schlieren photography is similar to the shadowgraph technique and relies on the the fact that light rays are bent whenever they encounter changes in density of a fluid. Schlieren systems are used to visualize the flow away from the surface of an object. The schlieren system shown in this figure uses two concave mirrors on either side of the test section of the wind tunnel. A mercury vapor lamp or a spark gap system is used as a bright source of light. The light is passed through a slit which is placed such that the reflected light from the mirror forms parallel rays that pass through the test section. On the other side of the tunnel, the parallel rays are collected by another mirror and focused to a point at the knife edge. The rays continue on to a recording device like a video camera.

Now if the parallel rays of light encounter a density gradient in the test section, the light is bent, or refracted. In our schematic, a shock wave has been generated by a model placed in the supersonic flow through the tunnel test section. Shock waves are thin regions of high gradients in pressure, temperature and density. A ray of light passing through the shock wave is bent as shown by the dashed line in the figure. This ray of light does not pass through the focal point, but is stopped by the knife edge. The resulting image recorded by the camera has darkened lines that occur where the density gradients are present. The model completely blocks the passing of the light rays, so we see a black image of the model. But more important, the shock waves generated by the model are now seen as darkened lines on the image. We have a way to visualize shock waves.

Monday, April 10, 2017

Smoke Section

This blog post is regarding to problems that I encountered while doing the smoke section. I cut out two holes in the jar for the pipes. One hole was for the pump for me to manually pump the dry ice CO2 into the wind tunnel. The other hole was for the pipe to enter the wind tunnel.

The second hole was a little to big making it harder for me to close it with hot glue as hot glue is a water tight sealant. I had to redo the whole thing which took an extra day, but that's engineering for you. I also had to change the positions of the pipes to make it easier for the CO2 to hit the object being tested in a uniform way.