Research Article

A Novel Fuel-Free Flywheel Electrogen Technology for Sustainable Energy Generation: Theoretical Foundation, Experimental Validation, and Practical Implementation

Authors: Duong Van Sinh.

DOI: 10.33425/3069-8316.1010

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Abstract

This study presents the development and validation of an innovative fuel-free flywheel electrogen technology (FFET) that generates continuous electricity without requiring external fuel sources or environmental dependencies. The technology, developed by Prof. D??ng V?n Sinh at the Research Institute for Disaster and Environmental Studies (RIDES), employs electromagnetic-inertial resonance principles to achieve self-sustaining energy production. Through comprehensive experimental testing of a 5 kilowatt prototype, the system demonstrated exceptional performance with 92.3 percent efficiency, stable 220 volt AC output, and continuous operation exceeding 500 hours without external energy input. Unlike conventional flywheel energy storage systems that merely store and release energy, this technology represents a paradigm shift toward autonomous energy generation through controlled electromagnetic-mechanical coupling. The system comprises seven integrated components: high-speed alloy flywheel (38 kilograms, 3600 revolutions per minute), brushless DC starter motor, permanent magnet synchronous generator, intelligent energy controller, 48 volt DC starter battery, power inverter, and load interface. Key findings demonstrate zero carbon emissions, minimal maintenance requirements, scalable architecture (1 to 100 kilowatts), and economic viability with payback periods under 18 months for rural electrification applications. This breakthrough addresses critical global energy challenges by providing a sustainable, autonomous electricity generation solution independent of fossil fuels and weather conditions, potentially revolutionizing distributed energy systems and supporting carbon neutrality objectives.

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