This study explores a technique for transforming a motorcycle’s thermal energy into electrical energy in order to produce a portable power source for rechargeable electronics. The technology captures energy while the motorcycle is moving by connecting a thermoelectric generator (TEG) to its heated components. This offers an alternative to traditional non-renewable energy sources. Such a strategy might lessen pollution in the environment and its detrimental impacts on human health. It generates about 4.5 V and 3 W of power with an efficiency of about 89.7%, which is enough to charge mobile phones and other gadgets. This model offers a sustainable answer to the problem of mobile charging by proving that thermoelectric energy harvesting can efficiently provide electricity at different motorcycle speeds.

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Harnessing Vehicles Exhaust Heat for Powering Self Wearable Devices

  • P. Mahitha Krishna,
  • S. Srinivasulu Raju,
  • V. Meghana,
  • S. K. Nauseen

摘要

This study explores a technique for transforming a motorcycle’s thermal energy into electrical energy in order to produce a portable power source for rechargeable electronics. The technology captures energy while the motorcycle is moving by connecting a thermoelectric generator (TEG) to its heated components. This offers an alternative to traditional non-renewable energy sources. Such a strategy might lessen pollution in the environment and its detrimental impacts on human health. It generates about 4.5 V and 3 W of power with an efficiency of about 89.7%, which is enough to charge mobile phones and other gadgets. This model offers a sustainable answer to the problem of mobile charging by proving that thermoelectric energy harvesting can efficiently provide electricity at different motorcycle speeds.