Designing a triplet-impinging fuel injector to be mounted on an ablative Lox and Kerosine liquid rocket engine to compete for the dollar-per-foot rocket challenge.
Calibrated the pressure transducers on the horizontal test stand to get the correct pressure drop values to determine the orifice size of the
LOX pneumatic actuator for the liquid rocket engine
Replaced and tested the back pressure regulator and its pressure gauges for the nitrogen to LOX line on the horizontal test stand to have
the correct downstream pressure for the LOX
Designed and assembled an autonomous robot proof of concept and prototype with a team of 4 within 3 weeks to compete at Unibots UK
Created a battery holder in Fusion 360 and built using 3-D printing to safely house an 11-volt lithium-polymer battery within the robot in order to be competition-ready
Winner of the University of Cambridge Unibots UK and awarded £500
Led a team of 4 to design and create an interactive museum exhibit game prototype for under $40 to be presented in an engineering expo to teach students and faculty about resilient engineering
Soldered wires to LEDs and Buttons and connected them to an Arduino board for users to be able to interact with the museum exhibit
Integrated game display images with corresponding buttons and LEDS within MATLAB for users to have a visually interactive experience to further engage in learning
Created a 3-month Gantt chart for the project in Excel to meet project deadlines and delegate project tasks which aided in the overall completion of our project
Documunted and created a wire diagram that allowed our team to fix any eletrical issue during the exhbit and prepare a second redundunt board in prepration for any issues in the primary board
