It is accredited by the Southern Association of Colleges and Schools to award baccalaureate, master’s and doctoral degrees, and is organized in six colleges: business, engineering, honors college, liberal arts, nursing and science.
UAH is one of three members of the University of Alabama System, which includes the University of Alabama at Birmingham and the University of Alabama in Tuscaloosa. All three institutions operate independently, with only the president of each university reporting to the Board of Trustees of the system. The university enrollment is approximately 7,500.
University of Alabama Huntsville research articles from Innovation Toronto
- Scientist creates AI algorithm to monitor machinery health – February 3, 2016
- Research could hasten the dawn of hybrid rocket engines – July 12, 2015
- Computer Cooling System Could Save U.S. $6.3 Billion in Electricity a Year – April 29, 2015
- UAHuntsville students hope glove keyboard will revolutionize use of devices with one hand
- Undergraduate Invention Aims to Lower Costs of Organ Cell Printing
- Personal monitor systems may change healthcare
- Lasers key to UAH team’s asteroid defense system
- Off-the-shelf helicopters for military and commercial use
An artificial intelligence algorithm created by University of Alabama in Huntsville (UAH) principal research scientist Dr. Rodrigo Teixeira greatly increases accuracy in diagnosing the health of complex mechanical systems.
“The ability to extract dependable and actionable information from the vibration of machines will allow businesses to keep their assets running for longer while spending far less in maintenance. Also, the investment to get there will be just software,” says Dr. Teixeira, who is the technical lead for the Health and Usage Monitoring Systems (HUMS) analytics project at UAH’s Reliability and Failure Analysis Laboratory (RFAL).
In blind tests using data coming from highly unpredictable and real-life situations, the algorithm consistently achieves over 90 percent accuracy, says Dr. Teixeira.
If you can detect a fault before it becomes serious, then you can plan ahead and reduce the time machinery spends idle in the shop. As we all know, time is money.
“This technology is in the trial stage.
Hybrid rocket fuel research being done by a University of Alabama in Huntsville (UAH) mechanical engineering doctoral student could hasten the day when a simpler, safer, more economical rocket engine propels space missions.
At UAH’s Johnson Propulsion Center, Matthew Hitt has experimented with varying solid fuel grain sizes to see how they burn at different combustion chamber pressures and oxidizer flow rates in an effort to improve the performance of hybrid engines.
“This is another step in making hybrids – which are a safer alternative to either solid or liquid engines – more practical for actual application,” he says
Improving the efficiency has to do with improving the fuel regression rate – a scientific way of saying you get the solid fuel to burn faster so it recedes back from the flame front at a faster rate.
“By increasing the fuel regression rate – which can lead to simpler designs – you are leaving less unburned fuel, so you are not carrying all this dead weight,” Hitt says.
Not having to carry fuel that won’t end up getting burned could reduce the weight of the rocket, allow for use of a smaller engine for the same flight result, or allow for a larger payload due to the weight savings.
A patented passive cooling system for computer processors that’s undergoing optimization at The University of Alabama in Huntsville(UAH) could save U.S. consumers more than $6.3 billion per year in energy costs associated with running their computer cooling fans.
Imagine what it could do if in global use.
The system, which was awarded $10,000 in 2014 UAH Charger Innovation Funds, uses convection to circulate 3M’s Fluorinert FC-72 liquid through channels in a computer’s processor and then into a heat sink that serves as an external radiator.
Its adoption could save computer manufacturers $540 million annually in manufacturing material costs by eliminating fans and associated wiring. Energy and materials savings are based on a future in which 300 million machines are in use in the U.S.