The Aerospace Engineering program offered by the University Institute of Engineering involves laboratory practices and for that the department has set-up various hi-tech laboratories that help students develop real-time skills and abilities. Various labs housed by the department are:
An aerospace materials lab is a facility dedicated to researching, developing, and testing materials used in the aerospace industry.
A Flight Simulator Lab is a facility that is designed for flight simulation training and research. Flight simulators are devices that replicate the experience of flying an aircraft in a safe, controlled environment. The simulators used in these labs are typically full-motion simulators that provide pilots with a realistic flight experience, including the sensation of takeoff, landing, turbulence, and other flight conditions.
A computational lab is a facility designed for scientific research and analysis that involves the use of computer simulations, modeling, and other computational methods. These labs typically have specialized hardware and software to support high-performance computing and data analysis.
An aircraft systems and instruments lab is a facility designed for research, development, and testing of aircraft systems and instruments. These labs typically have specialized equipment and instrumentation to simulate and analyze the performance of various aircraft systems and instruments. In an aircraft systems and instruments lab, researchers can test and develop new systems and instruments for aircraft, such as flight control systems, communication systems, navigation systems, and engine monitoring systems. They can also test and evaluate the performance of existing systems and instruments under various conditions, such as extreme temperatures, high altitude, and high-speed flight.
An aeromodelling lab is a facility designed for research, development, and testing of model aircraft. These labs typically have specialized equipment and materials to design, build, and test model aircraft. In an aeromodelling lab, researchers can design and build model aircraft of various types, such as gliders, drones, and radio-controlled airplanes. They can also test the performance of these aircraft under various conditions, such as wind tunnels or flight simulation software. Researchers can use this data to improve the design and performance of model aircraft.
In an aircraft structure lab, researchers can test and develop new materials and construction methods for aircraft structures, such as fuselages, wings, and landing gear. They can also test and evaluate the performance of existing structures under various conditions, such as fatigue, impact, and vibration. Aircraft structure labs are essential for ensuring the safety and reliability of aircraft structures.
Analyze the performance of various propulsion systems. In a propulsion lab, researchers can test and develop new types of engines, fuels, and propulsion systems. They can also test and evaluate the performance of existing propulsion systems under various conditions, such as high-altitude flight, extreme temperatures, and vacuum environments. Propulsion labs are essential for advancing the state of the art in aircraft and spacecraft propulsion technology.
These labs typically have specialized equipment and instrumentation to simulate and analyze the flow of fluids around objects. In an aerodynamics lab, researchers can test and develop new airfoil shapes, wing designs, and other aerodynamic features. They can also test and evaluate the performance of existing designs under various conditions, such as different wind speeds, angles of attack, and atmospheric conditions. Aerodynamics labs are essential for improving the performance and efficiency of aircraft and other vehicles that move through a fluid.
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