Review of Piezoelecric Energy Harvesting Through Footsteps

Open Access

Year : 2023 | Volume :8 | Issue : 1 | Page : 14-18
By

    S. Usha

  1. Rajeshwar P

  2. Sasi Kumar S

  3. Yeswanth K

  4. Yugesh G

  1. Assistant Professor, Department of Mechanical Engineering, Government College of Technology, Coimbatore – 641013, Tamil Nadu, India
  2. Student, Department of Mechanical Engineering, Government College of Technology, Coimbatore – 641013, Tamil Nadu, India
  3. Student, Department of Mechanical Engineering, Government College of Technology, Coimbatore – 641013, Tamil Nadu, India
  4. Student, Department of Mechanical Engineering, Government College of Technology, Coimbatore – 641013, Tamil Nadu, India
  5. Student, Department of Mechanical Engineering, Government College of Technology, Coimbatore – 641013, Tamil Nadu, India

Abstract

In this modern world, growth of technology is highly increased and the human population. So, we have planned to connect these two things to harvest electrical power which is the ultimate source of all those technologies. This paper presents a literature review of generating power by using piezoelectric materials which converts human’s footsteps into electrical energy. Many smart materials are used to generate power from many sources. In those, piezoelectric materials related papers are reviewed under the development of a device to produce electrical energy by using the pressure produced by the human while walking and jogging. The utilization of pressure obtained from compression of floors offered by human footstep pressure across the piezoelectric materials.

Keywords: Piezoelectric material, Energy harvesting, Electric energy, Mechanical load, Human Population.

[This article belongs to International Journal of Composite and Constituent Materials(ijccm)]

How to cite this article: S. Usha, Rajeshwar P, Sasi Kumar S, Yeswanth K, Yugesh G Review of Piezoelecric Energy Harvesting Through Footsteps ijccm 2023; 8:14-18
How to cite this URL: S. Usha, Rajeshwar P, Sasi Kumar S, Yeswanth K, Yugesh G Review of Piezoelecric Energy Harvesting Through Footsteps ijccm 2023 {cited 2023 Jan 21};8:14-18. Available from: https://journals.stmjournals.com/ijccm/article=2023/view=91826

Full Text PDF Download

Browse Figures

References

1. Nayan, H. “”Power generation using piezoelectric material.”” Journal of Material Sciences & Engineering 4.3 (2015).
2. Kamboj, Akshat, et al. “”Design of footstep power generator using piezoelectric sensors.”” 2017 International Conference on Innovations in Information, Embedded and Communication Systems (ICIIECS). IEEE, 2017.
3. Ruman, Md Raseduzzaman, Mukta Das, and SM Istiaque Mahmud. “”Human Footsteps for Energy Generation by using Piezoelectric Tiles.”” 2019 Innovations in Power and Advanced Computing Technologies (i-PACT). Vol. 1. IEEE, 2019.
4. Santhiya, M., et al. “”An IOT used piezoelectric sensor used power generation through footsteps.”” Materials Today: Proceedings 37 (2021): 166-169.
5. Ganesh, R. Jai, et al. “”Experimental study on footstep power generation system using piezoelectric sensor.”” Materials Today: Proceedings 45 (2021): 1633-1637.
6. Ng, T. H., and W. H. Liao. “”Sensitivity analysis and energy harvesting for a self-powered piezoelectric sensor.”” Journal of Intelligent Material Systems and Structures 16.10 (2005): 785-797.
7. Yang, Rusen, et al. “”Power generation with laterally packaged piezoelectric fine wires.”” Nature nanotechnology 4.1 (2009): 34-39.
8. Najini, Hiba, and Senthil Arumugam Muthukumaraswamy. “”Research Article Piezoelectric Energy Generation from Vehicle Traffic with Technoeconomic Analysis.”” (2017).
9. Fang, Hua-Bin, et al. “”Fabrication and performance of MEMS-based piezoelectric power generator for vibration energy harvesting.”” Microelectronics Journal 37.11 (2006): 1280-1284.
10. Ali, Adeel, et al. “”Footstep Power Generation Using Piezoelectric Sensor.”” (2021).
11. AJAY, J., et al. “”Design and Fabrication of Oxy-Hydrogen Generator.”” (2019).
12. Ganesh, H., and S. Sharmila. “”Generation of Power using Piezoelectric Transducer.””, May 2016.
13. Srivastava, Ratnesh, et al. “”Power Generation using Piezoelectric Material.”” International Advanced Research Journal in Science 2.1 (2015): 101-104.
14. Asry, Anis Maisarah Mohd, et al. “”Power generation by using piezoelectric transducer with bending mechanism support.”” International Journal of Power Electronics and Drive Systems 10.1 (2019): 562.
15. Kumar, Anil. “”Electrical power generation using piezoelectric crystal.”” International Journal of Scientific & Engineering Research 2.5 (2011): 1.


Regular Issue Open Access Article
Volume 8
Issue 1
Received May 9, 2022
Accepted May 21, 2022
Published January 21, 2023