抖阴旅行射 Boulder lasers go supersonic
Researchers at 抖阴旅行射 Boulder are using lasers to precisely quantify the performance of high-speed engines. Those measurements 鈥 鈥 are key to propelling superfast hypersonic vehicles and providing better engine performance overall.
The research was done by Associate Professor Greg Rieker鈥檚 lab within the Paul M. Rady Department of Mechanical Engineering. It was sponsored by the Defense Advanced Research Projects Agency, the U.S. Air Force Office of Scientific Research, and Air Force Research Laboratory.
The work specifically quantifies the mass flux of air traveling through the engine to ignite the fuel inside and propel the aircraft. Because these vehicles fly faster than 1,000 mph at high altitudes where the air is thin, these types of internal air flow characteristics are important to understand.
鈥淗istorically, air mass flux has been challenging to determine because it requires incredibly accurate and detailed measurements in air flowing faster than Mach 1,鈥 Rieker said. 鈥淗owever, it is a critical quantity to measure because it helps us understand how well the engine is working. Engineers know how much fuel they put in the engine, and they know how much thrust is generated, but if they don鈥檛 fully understand how much air is flowing through the engine, it is hard to tell how efficient you were.鈥
To do that, Rieker and his team are using frequency comb lasers which emit light equivalent to more than 50,000 individual lasers 鈥 each with a slightly different color. Molecules in the air absorb specific colors of light, and the pattern of colors that are absorbed changes with temperature, pressure, velocity, and molecular concentration. Thus the pattern can be used to determine these quantities, which ultimately can be used to calculate the air mass flux of the flow with unprecedented precision and accuracy.
Mechanical engineering PhD candidates Nate Malarich and David Yun led the project for the lab, working with different parts of the engine and process leading up to an early ground test demonstration for the Air Force in Ohio. Yun said they addressed several issues before heading into the harsh field environment for those tests.
鈥淔or instance, it's not easy to capture the laser light after it has traveled through supersonic gas. That flickering view you have of your friend across a campfire happens to laser light passing through the engine as well, and it's particularly intense in supersonic engines, so we made sure our optics worked above a natural gas burner here at 抖阴旅行射,鈥 he said.
Rieker said his team is now working to shift the wavelengths measured by the laser to understand other aspects of the engine air flow. One avenue, for example, would be shifting the laser wavelength to measure velocity based on oxygen absorption instead of water vapor as was done at the demonstration, since there is not always water vapor coming into the engine in the upper atmosphere.
鈥淲e have only just started this work, and I am eager to see where it takes us,鈥 he said.