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Approach:
•First of all, the type and dimensions of the aircraft that can fulfill the tasks given in the competition have been calculated.
•Aerofoil selection was made in accordance with the design.
•Material, propeller and material selection was made.
•The Modeling in the project was carried on Solidworks and
•analysis on SolidWorks Flow Simulation.
•Bill of material (part list) was made.
•The manufacturing processes of the different components
•were also determined.
•After the manufacturing process, first prototype was flied.
•The final product was created considering the problems experienced in the flight.
Unmanned Aerial Vehicle Design
Project: Unmanned Aerial Vehicle Design for Future Flight Design Competition 2015
An International Contest was organized by Turkish Air Force Academy. According to contest rules, the teams were design, fabricate and fly an unmanned mothership aircraft deploying a swarm of micro air vehicles (MAV). Necessities for military intelligence and reconnaissance missions became popular lately. Being aware of that, Tulpar Team was formed by 21 university students from various faculties at Cukurova University. I had taken part in this team as body and wing designer.
Aim of the Project:
• To produce power by the expansion of compressed air
• Reduction in pollution by no emission of harmful gases at
exhaust
• To reduce the cost of the engine as no cooling system is
required
• To reduce the use of fossil fuels thus developing an
alternative technology for vehicles.
• To decrease the maintenance cost
• To produce an engine which is non- flammable
Compressed Air Engine Design
Project: Compressed Air Engine Design for Mechanical Engineering Final Project 2016
The compressed-air engine is used as compressed air as fuel, stored in a tank, and powered by an engine. This designed vehicle consists of an air storage tank, from which the air is made to expand inside the cylinder.
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