By Tarek Dief June 17, 2019
Project Overview: Airborne Wind Energy System (AWES)
Step 1. Understand the Objective
The Airborne Wind Energy System (AWES) aims to generate power using fixed-wing drones that utilize wind energy efficiently. The system features a rigid-body drone that flies in a Figure-of-Eight pattern, controlled by algorithms to harvest optimal power from the lift generated by its wings.
Step 2. Learn the Key Details
This innovative approach involves the use of drones to capture wind energy, offering a promising alternative to traditional wind turbines with potentially higher efficiency and lower environmental impact.
Step 3. Know the Ultimate Goal
The ultimate goal is to develop a reliable and efficient airborne system that can continuously generate renewable energy by optimizing the drone’s flight path and control mechanisms.
Step 4. Understand My Responsibilities
- Flight-Path Design: Design the flight path for the drone to ensure it generates optimal power while flying.
- Control Algorithm Development: Develop and implement control algorithms that maintain the Figure-of-Eight motion for maximum energy harvesting.
- System Optimization: Work on optimizing the drone’s performance by refining the control systems and flight patterns.
- Testing and Validation: Test and validate the system in real-world conditions to ensure consistent and reliable power generation.