Development of a magnetically levitated hybrid savonius- darrieus wind turbine module for emergency power generation in diverse weather conditions/ Redj Cyrus R. Alano, Amiel Joseph E. Benitez, Janssen G. Cordova, Katrina Jane B. Cruz, Ericka Christianne C. David, and Sophia Aryen I. Undecimo.--

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 a magnetically levitated hybrid Savonius-
Darrieus wind turbine module designed to provide emergency power generation under

diverse weather conditions. The system integrates the advantages of both Savonius and
Darrieus rotor designs to enhance performance in low and variable wind speeds while
employing magnetic levitation to minimize mechanical friction and wear. The turbine is
coupled with a Permanent Magnet Synchronous Generator (PMSG) to improve efficiency
and reliability in power output. This innovation addresses the growing demand for
sustainable and decentralized energy sources, particularly in disaster-prone or remote
areas where grid access is limited. Through simulation and prototyping, the study
evaluates the turbine’s aerodynamic behavior, structural design, and power generation
capability. Comprehensive analysis includes CFD simulations for flow behavior, finite
element analysis for mechanical stress, and experimental validation under controlled

wind conditions. The findings highlight the module's potential as a viable solution for off-
grid emergency energy supply and promote further research into magnetically assisted

renewable systems. By combining advanced design techniques and green technology, the
project contributes to the development of resilient energy infrastructure for future energy
challenges.