Design and fabrication of an iot-based charging station driven by a building-mounted fibonacci wind turbine and permanent magnet dc generator/ Karl Angelo J. Aguirre, John Partick D. Alinsunurin, Lorrea Mae E. Clarito, Rafaela G. Dela Cruz, John Carlo R. Elacion, and Mark Joseph R. Javier.--

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Aguirre, Karl Angelo J [author]

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Material type: Text

TextPublication details: Manila: Technological University of the Philippines, 2025.Description: xiv, 163pages: 29cmContent type:

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BTH TK 146 A38 2025

Dissertation note: College of Engineering.-- Bachelor of science in electrical engineering: Technological University of the Philippines, 2025. Summary: This study presents the development of an IoT-based charging station powered by Building-Mounted Fibonacci Wind Turbine (BMFWT) with a Permanent Magnet DC Generator (PMDCG). The Fibonacci-based blade design improves aerodynamic efficiency, enhancing overall turbine performance. Mechanical energy from wind is converted into electrical energy by the PMDCG and stored in a 3-12V lead-acid battery. The integrated IoT system enables real-time monitoring of power generation and battery status. The charging station supports charging devices such as mobile phones and laptops, providing a practical energy solution for students and staff.

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Item type	Current library	Shelving location	Call number	Copy number	Status	Date due	Barcode
Bachelor's Thesis COE	TUP Manila Library	Thesis Section-2nd floor	BTH TK 146 A38 2025 (Browse shelf(Opens below))	c.1.	Not for loan		BTH0006471

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Bachelor's thesis

College of Engineering.-- Bachelor of science in electrical engineering: Technological University of the Philippines, 2025.

Includes bibliographic references and index.

This study presents the development of an IoT-based charging station powered by
Building-Mounted Fibonacci Wind Turbine (BMFWT) with a Permanent Magnet DC
Generator (PMDCG). The Fibonacci-based blade design improves aerodynamic efficiency,
enhancing overall turbine performance. Mechanical energy from wind is converted into
electrical energy by the PMDCG and stored in a 3-12V lead-acid battery. The integrated
IoT system enables real-time monitoring of power generation and battery status. The
charging station supports charging devices such as mobile phones and laptops, providing a
practical energy solution for students and staff.

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