Tesis profesional presentada por Juan Pablo Cirett Jiménez [cirett@outlook.com]

Miembro del programa de honores. Licenciatura en Ingeniería Mecatrónica. Departamento de Ingeniería en Computación, Electrónica y Mecatrónica. Escuela de Ingeniería, Universidad de las Américas Puebla.

Jurado Calificador

Director: Dr. Pedro Bañuelos Sánchez
Presidente: Dr. José Luis Vázquez González
Secretario: Dr. César Martínez Torres

Cholula, Puebla, México a 15 de diciembre de 2020.

Resumen

Sustainable electric mobility must be for everyone; our way of living today is trapped in a consumerist and selfish society destroying our planet and all its species. Part of our change to be more sustainable is to improve our transportation methods and make them more energy efficient. But there is a problem: it comes at a high price. What I found is the most comun thought when talking about electric vehicles is: ?I can?t afford it? but personally I think in today?s time everyone should have the opportunity to be sustainable on their own budget. The sad truth it´s not affordable for everyone as of now. Therefore, on this thesis I will propose three different alternative methods for everyone to change to electric transportation; the first one is specialized for people to have easy transportation around the city for a small budget. Secondly, I am proposing a vehicle which can replace the combustion engine vehicles everywhere for a medium budget and thirdly an alternative transport method for people still wanting to drive classic cars, looking stylish and having strong power vehicles but electrified and sustainably for a slightly bigger budget. I would like to start with two phrases: ?I?m sick and tired of worrying about gas prices, sick and tired about wars in the middle east, sick and tired of breathing the air we are breathing? (Paine, 2012) ?Driving a fuel car is going to feel like yesterday, driving this car (Tesla Model S) is driving the future?. Elon Musk (NatGeo, 2020)

Palabras clave: Sustainable, Electric, Mobility, Alternative, Transportation,.

Índice de contenido

Portada

Agradecimientos

Índices

Capítulo 1. EV mobility

  • 1.1 Electric Vehicles History
  • 1.2 Electric Vehicles Technology

Capítulo 2. Environment

  • 2.1 Environmental Impact
  • 2.3 Which options do we have now
  • 2.4 Future of Electromobility
  • 2.5 Proposes introduction

Capítulo 3. Project I - Personal Electric Vehicle (Bike - Car)

  • 3.1 Abstract
  • 3.2 Introduction
  • 3.3 Design
  • 3.4 Process
  • 3.5 Improvements
  • 3.6 Results
  • 3.7 Conclusions

Capítulo 4. Project II - EV Conversion

  • 4.1 Abstract
  • 4.2 Process
  • 4.3 Conclusion

Capítulo 5. Project III - 911 Electric Porsche

  • 5.1 Abstract
  • 5.2 Porsche 911 Electric
  • 5.3 The design of the conversion
  • 5.4 Revive ONE
  • 5.5 Conclusion

Capítulo 6. Results and Conclusions

  • 6.1 Results
  • 6.2 Conclusions

Referencias

Apéndice 1. Battery Pack Design

Apéndice 2. Bike-Car Important Measures

Apéndice 3. Bike-Car Person Riding

Apéndice 4. Battery Pack Holder Up

Apéndice 5. Battery Pack Holder Up

Apéndice 6. Ev Buggy - Vw Platform

Apéndice 7. Ev System Components High Voltage Line

Apéndice 8. Ev System Components Comunaction Line

Apéndice 9. Electric Porsche 911 G

Apéndice 10. Electric Porsche 911 G Engine

Cirett Jiménez, J. P. 2020. Sustainable electric mobility for everyone: three different alternative methods for electric transportation. Tesis Licenciatura. Ingeniería Mecatrónica. Departamento de Ingeniería en Computación, Electrónica y Mecatrónica, Escuela de Ingeniería, Universidad de las Américas Puebla. Diciembre. Derechos Reservados © 2020.