People can travel from the 麻豆原创 to Orlando International Airport in about 30 minutes, barring heavy traffic. But what if they could travel from New York to Los Angeles in that time or less?
A recent discovery made at 麻豆原创 could bring travelers one step closer to turning that fantasy into reality. The results of the study were recently published in the Proceedings of the Combustion Institute.
Aerospace engineering Professor Kareem Ahmed and his research team in the 麻豆原创 Propulsion and Energy Research Lab found that subsonic flames, like those in a candle or a campfire, can be turned into hypersonic flames. With a certain amount of 鈥渢urbulent mixing,鈥 hypersonic flames burn at an extremely high rate.
Turbulent mixing refers to the right recipe that converts a flame into a self-sustaining explosion that uses all of the ingested fuel and air to release a massive amount of energy.
This discovery can provide insight into dealing with intense fires and massive explosions, but it can also be used to create engines and aircrafts that would allow people to travel by plane or train from one coast to another in fewer than 30 minutes.
The goal is to use this knowledge to design engines that propel objects at five times the speed of sound or above, using less fuel. More research would be needed to determine the effects of this kind of travel on the human body, as well as to develop controlled environments for passengers and pilots.
鈥淭his new discovery is key for using these high-Mach fast flames for hypersonic air-breathing scramjet propulsion engines, a specific type of engine that can propel an aircraft to five times the speed of sound and above,鈥 Ahmed says. 鈥淎nd it will aid in fighting intense fires and explosions.鈥
To conduct the experiments, the team measured flame speeds in a turbulent shock tube using a high-speed laser and camera diagnostics.
Ahmed鈥檚 team uncovered these findings during the past year, and the research is already winning awards. The Combustion Institute, a nonprofit scientific society that promotes research in combustion science and technology, selected his paper as one of 13 distinguished paper award winners from the 37th International Symposium on Combustion in 2018. This is the first time that a 麻豆原创 faculty member has received this award.
The Combustion Institute recognized 鈥淐ompressible turbulent flame speeds of highly turbulent standing flames,鈥 in the Detonations, Explosions and Supersonic Combustion category. Mechanical and aerospace engineering doctoral students and former Burnett Honors Scholars Jonathan Sosa ’15 ’18MS and Jessica Chambers ’16 ’18MS 鈥 who worked with Ahmed at the PERL lab 鈥 co-authored the paper. It was also one of 639 papers that were accepted to the symposium out of the 1,600 that were submitted.
Now the team鈥檚 paper qualifies for the Silver Combustion Medal, which is awarded to outstanding papers that contribute quality, achievement and significance to the field of combustion science. The winner of the Silver Combustion Medal will be announced in July 2020 at the 38th International Symposium on Combustion in Australia, where Ahmed will also serve as the colloquium co-chair.
Sosa says that it鈥檚 fascinating to see their findings shed light on the fundamental understanding of newfound high-Mach number flames.
鈥淏ut also, these laboratory scale experiments are capable of providing crucial information on the flame behavior for the advancement and design of hypersonic vehicles as well as providing new insight into how these fast flames propagate to deter flame propagation leading to explosions,鈥 Sosa says.
Ahmed earned his doctoral degree in mechanical engineering from University at Buffalo 鈥 The State University of New York. He worked at Pratt & Whitney and Old Dominion University prior to joining 麻豆原创 as an assistant professor in 2015.
