Researcher

Portable Wind Mobile Charger

Project Image

Personal Project

Humans face difficulties while travelling by public transport ( Bus, Train) as there is no proper way to charge their mobile phones and tablets. This is a portable wind power generator where the people can use to charge their mobile phones or tablets while traveling through public transport ( Bus, Train) . This device has to be fixed outside the window of their sheet. And they can easily unfix it and bring with them when leaving. The integrated device is able to produce the desired output voltage to charge the mobile phone. This device provides green energy for mobile phone charging while travelling.

Considerations
  1. Design: The device would need to be compact, lightweight, and easily attachable to the window of the vehicle. It should also be designed in a way that it doesn't obstruct the view or cause any safety concerns.
  2. Wind Turbine: The wind turbine should be small yet efficient enough to generate sufficient power to charge mobile phones and tablets. It should be able to capture wind energy even at low speeds typically experienced during travel.
  3. Power Generation and Storage: The wind turbine should be connected to a generator or alternator that converts the rotational energy from the turbine into electrical energy. This energy can then be stored in a battery or capacitor to provide a stable power source for charging devices.
  4. Voltage Regulation: Since different mobile phones and tablets require different voltage levels for charging, the device should have the capability to regulate and provide the desired output voltage for charging various devices.
  5. Safety Considerations: Safety measures should be incorporated into the design to ensure that the device doesn't pose any risks to passengers or the vehicle. This includes protection against electrical faults, secure mounting, and resistance to weather conditions.
  6. Efficiency and Optimization: The device should be optimized to capture wind energy efficiently even in varying wind conditions and directions. Additionally, it should be designed to minimize drag and maintain the performance of the vehicle.

Skills

  • Designing compact and lightweight devices
  • Wind turbine technology and principles
  • Electrical circuitry and power generation
  • Voltage regulation for device charging
  • Electrical circuit design and simuation
  • PCB design
  • Prototype developmet and testing
  • Battery technology and charging mechanisms
  • Solidworks design and simulation
  • Safety engineering for electrical systems
  • Energy efficiency optimization
  • Project management
  • Problem-solving and troubleshooting in a technical context