Rolls-Royce AE1107F engine to support FLRAA Bell V-280 Tilt-rotor
During my second rotation at Rolls-Royce while acting under System Engineering, I became a Design Integration expert while using Cameo SysML Model Based System Engineering (MBSE). I became highly proficient with the technical tool as I was entrusted to take MBSE structure further than ever in Model Based Design (MBD) history. I also developed a product transportation system with suppliers, customers, and internally; as well as an assembly sequence which was developed to support VR maintenance for the engine once in full production if the contract is received for Bell.
Rolls-Royce Trent 700 engine
During my first rotation at Rolls-Royce while acting under Engineering for Service, I investigated aftermarket savings for the Trent engine family. These engines produce >70,000lbs of thrust per engine. While acting in after market savings I was able to complete 9 Request for Manual Revisions (RMRs). Each manual revision is projected to obtain $XXX,XXX worth of savings for Rolls-Royce.
Dual Axis Solar Tracker
Optimized solar energy capabilities by manipulating photoresistor readings to maneuver a solar panel to a strategic location with the most direct path of sunlight. The solar tracker would rotate 360 degrees on the horizontal axis using a stepper motor and 180 degrees on the vertical axis using a servo motor.
Each of the 4 strategically placed photo resistors would increase the its resistance when more positive ions from direct sunlight were received. A for-if-loop algorithm was created which would rotate vertically and horizontally depending on the direct path of sunlight.
Buckeye Space Launch Initiative (BSLI)
Ohio State based club which launches three rockets: 10K ft rocket, 30K ft rocket, Liquid fuel rocket (62 mile)
The 10K and 30K rockets are in the implementation stages which actively compete in national competitions with NASA and Space Port America. The Liquid High Altitude rocket is in the development stages which the goal to use liquid fuel on the 30K rocket by year 2022.
OSU chemE Car
Develop operational car powered by chemical reactions and mechanical mechanisms. The goal is to optimize vehicle efficiency and accuracy through research and experimentation. I spent my time on the chassis design team where I used my skills in SolidWorks design to build a gearbox cover which was light weight, considered safety for the user and the mechanism, fit within design constraints, and was aerodynamic. The team later competes on a national level with other colleges such as Harvard and MIT (both of which we beat last year).
Advanced Energy Vehicle (AEV) Project
Led engineering team in design, research, and development of energy efficient monorail vehicle. I was responsible to oversee and communicate information as the team worked together to further advance the AEV design. The team later competed in a state-wide competition in which our design was able to place 2nd due to its efficiency and unique design.
