Introduction

The running cost of the vehicles are increasing day by day, hence common man is looking for an alternate mode of transportation, with low fuel and maintenance cost. Hybrid Electric Scooter is an attempt to meet these needs. With the rising prices of fuel and increase in the concern of global warming and the environment, electric scooter are becoming in demand. It is extremely quiet in performance which leads no sound pollution up to some extent and limitations. It is very environmental friendly and less emissions at source. It is very convenient to recharge, it can be done at home. Small amount of parts lead to lower maintenance, which equal lower maintenance cost as compared to fully petrol Vehicles. Hybrid Electric Scooter is the best option for an individual that is for local drive it can run on electric powered batteries and for long mileage and speed above 40km/h the power will be converted to petrol and the scooter will be operated on fuel instead of battery. It is a combo of electric and petrol powered system in a single scooter.

Aim

Design and Fabrication of Hybrid Electric Scooter.

Objectives

  • To make a 3-D model in SolidWorks software
  • To test the model using finite element analysis (FEA)
  • To simulate the product
  • To learn Hybrid mechanism
  • To design and develop an Aerodynamics shape
  • To contribute towards carbon emission/pollution free vehicles
  • To integrate IOT in a vehicle by making it a smart vehicle

Group Members

  • Hamza Kalim

    CU-433-2016             

  • Hasnain

    CU-367-2016

  • Mujeeb Ullah Jan

    CU-383-2016

  • Faizan Afridi

    CU-419-2016

Supervisor

  • Engr Afnan Haider 

Co Supervisor

  • Engr Owais Awan

Proposed Methodology

Suggested Results & Conclusions

  • The Hybrid Electric Scooter will work
    efficiently and according to the designed
    analysis.
  • The selected frame material of Aluminum
    Alloy 6061 will be capable of carrying
    load up to 250 kg.

Future Work

  • In order to further improve the product its shape can be
    developed more aerodynamically.
  • The battery optimization and increase in battery
    efficiency will lead the scooter to travel at 60km/h.
  • By introducing dynamo to the system the battery will be
    charged during travelling in stead of home charging
    system.
  • The IOT implementations can be improved by using
    more precise and accurate sensors and gadgets.

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