Development of Energy Harvesting from Raindrop

  • Authors

    • Mohamad Fauzi Omar
    • Harizan Che Mat Haris
    • Norziana Aminudin
    2019-01-18
    https://doi.org/10.14419/ijet.v8i1.7.25970
  • Energy Harvesting, Raindrop, Piezoelectric transducer, output energy
  • This paper presents an experimental study of harvesting from the mechanical energy produce from raindrop. The energy is harvested using round piezoelectric transducer disc that is installed horizontally with the raindrop. This project aims to produce a simple prototype of raindrop power generator by using multiple numbers of piezoelectric transducers. The raindrop power generator major components are consisting of water pump, water tank, piezoelectric plane, and raindrop maker. Each piezoelectric transducer has the diameter size of 25mm. This projects analyses the energy produced with increasing number of piezoelectric transducer with the total diameter ranging from 25mm, 50mm, 75mm, 100mm and 125mm respectively. The piezoelectric trandsducer with the diameter of 125mm will produce and harvest the highest output voltage, current, and energy compared to the other diameters of the piezoelectric transducer. The highest output voltage and current harvested for the piezoelectric transducer of 125mm is 3.3V and 0.47mA respectively. The energy produced from the piezoelectric transducer was determined through calcultion. In this case the output energy produced was 54.45μJ.

     

     

  • References

    1. H. Pal, S. Ghosh, R. Chatterjee, R. Mahapatra and S. Chatterjee, "Piezoelectric energy harvesting devices for recharging cell-phone batteries," 2016 International Conference on Microelectronics, Computing and Communications (MicroCom), Durgapur, 2016, pp. 1-3.

      [2] Wischke, M., Masur, M., Kroener, M., & Woias, P. (2011). Vibrating Harvesting In Traffic Tunnels To Power Wireless Sensors. Smart Material and Structures, pp. 1-8.

      [3] Henry A. Sodano & Daniel J. Inman.(2005). "Comparison of Piezoelectric Energy Harvesting Devices for Recharging Batteries". Journal of Intelligent Material Systems and Structures, 16(10), pp. 799-807.

      [4] R.K. Srivastava & Parul Gupta. (2010). "Overview of Multi-Functional Materials". Journal of Material Engineering and Performance, Vol. 5, pp. 405-409.

      [5] Parul Dhingra, Jhilam Biswas, Anjushree Prasa & Sukanya S. Meher. (2012). “Energy Harvesting Using Piezoelectric Materials". Special Issue of International Journal of Computer Applications.

      [6] H. Pal, S. Ghosh, R. Chatterjee, R. Mahapatra and S. Chatterjee, "Piezoelectric energy harvesting devices for recharging cell- phone batteries," 2016 International Conference on Microelectronics, Computing and Communications (MicroCom), Durgapur, 2016, pp. 1-3.

      [7] Kymisis, J., Kendall, C., Paradiso, J., Gershenfeld, N., (October 2004). "Parasitic Power Harvesting in Shoes," Proc. of the Second IEEE International Conference on Wearable Computing, (ISWC), IEEE Computer Society Press, pp. 132-139.

      [8] Feenstraa J, Granstroma J, Sodanob H. (2008). "Energy Harvesting Through A Backpack Employing A Mechanically Amplified Piezoelectric Stacks", Mechanical Systems and Signal Processing, 22(3), pp. 721–734.

      [9] Lefeuvre E, Sebald G, Guyomar D, Lallart M, Richard C. (2009). "Materials, Structures and Power Interfaces For Efficient Piezoelectric Energy Harvesting", Journal of Electroceramics 22: pp. 171–179.

      [10] Takeuchi M, Matsuzawa S, Tairaku K, Takatsu C. (2007). "Piezoelectric Generator as Power Supply For RFID-tags And Applications", Proc. IEEE Ultrasonic Symposium, 28 31.10, New York City, USA, pp. 2558–2561.

      [11] Ottman, G. K., Hofmann, H., Bhatt, A. C.,and Lesieutre, G. A. (2002). “Adaptive Piezoelectric Energy Harvesting Circuit for Wireless, Remote Power Supplyâ€. IEEE Transactions on Power Electronics, Vol. 17, No. 5, pp.1-8.

      [12] E. Lefeuvre, A. Badel, C. Richard, D. Guyomar,(2004).“High Performance Piezoelectric Vibration Energy Reclamationâ€. Proceedings of SPIE Conf. 5390, pp. 379-387.

      [13] S. M. Shahriat, A. Ahmed, T. Qazi, S. K.Farabi and E. Zahir, "Design and implemantation of a piezoelectric energy harvesting system using a super capacitor," 2015 International Conference on Advances in Electrical Engineering (ICAEE), Dhaka, 2015, pp. 30-33.

      [14] Hofmann, H., Ottman, G. K., and Lesieutre, G. A. (2002). “Optimized Piezoelectric Energy Harvesting Circuit Using Step-Down Converter in Discontinuous Conduction Mode. 33rd Annual IEEE Power Electronics Specialists Conference, pp. 1-14.

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  • How to Cite

    Fauzi Omar, M., Che Mat Haris, H., & Aminudin, N. (2019). Development of Energy Harvesting from Raindrop. International Journal of Engineering & Technology, 8(1.7), 146-152. https://doi.org/10.14419/ijet.v8i1.7.25970