Incorporating Flywheel Hybrid Module In Automobile : Simulation And Analysis Approach

Azis, Ahmad Faizal (2016) Incorporating Flywheel Hybrid Module In Automobile : Simulation And Analysis Approach. Project Report. UTeM, Melaka, Malaysia. (Submitted)

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Abstract

This study introduced the simulation and analysis the structure of flywheel hybrid module (FHM) in order get the perfect performance during its operation. From the previous research, the author only use the classical method which is simple equation formula to evaluate energy analysis for the flywheel hybrid module. This project must be done in order to improve the method to evaluate the energy output of flywheel hybrid modul by using finite element analysis (FEA) method. The FHM design was conducted by using CAD software namely CATIA V5R21. The design be divide into two part which are the first part is flywheel and the second part is combination of ring and rim. A FHM type is designed in several steps based on the design considerations. A methodical plan must be followed so that all parameters are considered. The design was import to the Inpire SolidThinking software to proceed the simulation. The angular velocity and the load that applied on the model is the parameter that need to be focus during analysis process. The value of angular velocity was applied based on the safety factor consideration and the limit speed of the part FHM in the real life. The maximum angular velocity that be apply is 60000 rpm. The material be apply are Aluminium 6061 and medium carbon steel. Result from the analyses including Von Misses stress and displacement. The result that produce can use to investigated the stress concentration on the both part of FHM. From the location of stress concentration, the fatigue failure was predicted. It can be seen from the result whether material used or load applied need to be considered for a better result for future study.

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