DEVELOPMENT AND PERFORMANCE EVALUATION OF A MOTORIZED BATTERY-POWERED SPRAYER

Authors

  • SOYOYE Babatunde Oluwamayokun

    Federal University of Technology Akure, Ondo State, NIGERIA

  • FALAYI Folayan Richard

    Federal University of Technology, Akure, Ondo State, Nigeria

  • OGUNJIMI Jumoke Omowumi

    Federal University of Technology, Akure, Ondo State, Nigeria

  • OLORUNFEMI Emmanuel Olasunkanmi

    Federal University of Technology, Akure, Ondo State, Nigeria

DOI:
https://doi.org/10.51459/futajeet.2025.19.1.448
Keywords:
Flow Rate, battery-powered, optimization, prime mower, field capacity
Abstract

The development and application of automated sprayers in agricultural practices represent a significant advancement in precision farming technology. This project aims to design, fabricate, and evaluate a motorized battery-powered sprayer tailored to enhance pesticide and herbicide application efficiency and effectiveness. The system was incorporated with spraying attachments, DC battery (UPS-12V) and DC motor as prime mover for autonomous navigation capabilities to optimize spraying operations in diverse agricultural environments and reduce the dependency on the fossil fuels. The components of the sprayer were designed following the standard engineering design procedure. The forward speed studied for the optimization of the spray nozzles were 1.8, 0.99, and 0.75 m/s with a distance of 10 m at all instances. It was recorded from the experiments that the angle of inclination of 90o had the widest coverage area. The results also showed that at a particular speed the flow rate remained constant regardless of the angle of inclination. The flow rate also varies directly with the speed of operation of the sprayer. The optimization results revealed that the sprayer performed effectively at the combination of forward speed of 1.82 m/s and angle of inclination of 90o resulting in effective field capacity of the sprayer was 54.90 m2/s.

Author Biographies
  1. SOYOYE Babatunde Oluwamayokun, Federal University of Technology Akure, Ondo State, NIGERIA

    Department of Agricultural and Environmental Engineering

  2. FALAYI Folayan Richard, Federal University of Technology, Akure, Ondo State, Nigeria

    Department of Agricultural and Environmental Engineering

  3. OGUNJIMI Jumoke Omowumi, Federal University of Technology, Akure, Ondo State, Nigeria

    Department of Agricultural and Environmental Engineering

  4. OLORUNFEMI Emmanuel Olasunkanmi, Federal University of Technology, Akure, Ondo State, Nigeria

    Department of Agricultural and Environmental Engineering

References

Baltazar, A. R., Santos, F. N. D., Moreira, A. P., Valente, A., and Cunha, J. B. (2021). Smarter robotic sprayer system for precision agriculture. Electronics, 10(17), 2061.

Mahmud, M. S., Zahid, A., He, L., and Martin, P. (2021). Opportunities and possibilities of developing an advanced precision spraying system for tree fruits. Sensors, 21(9), 3262.

Michael, C., Gil, E., Gallart, M., and Stavrinides, M. C. (2020). Influence of spray technology and application rate on leaf deposit and ground losses in mountain viticulture. Agriculture, 10(12), 615.

Mitchell, J. J., Shrestha, R., Spaete, L. P., and Glenn, N. F. (2015). Combining airborne hyperspectral and LiDAR data across local sites for upscaling shrubland structural information: Lessons for HyspIRI. Remote Sensing of Environment, 167, 98-110.

Poratkar, S. H. and Raut, D. R. (2013). Development of multinozzle pesticides sprayer pump. International Journal of Modern Engineering Research (IJMER), 3(2), 864-868.

Raghava, M. and Rajendra, D. (2020). Design and fabrication of dual power sprayer. International Research Journal on Advanced Science Hub, 2(7), 15-23.

Savelli, F., Luck, J. D., and Knierim, J. J. (2017). Framing of grid cells within and beyond navigation boundaries. Elife, 6, e21354.

Shan, C., Wang, G., Wang, H., Xie, Y., Wang, H., Wang, S., Chen, S. and Lan, Y. (2021). Effects of droplet size and spray volume parameters on droplet deposition of wheat herbicide application by using UAV. International Journal of Agricultural and Biological Engineering, 14(1), pp.74-81.

Soyoye, B. O. (2020). Effect of Metering Speed and Hopper Capacities on the Discharge and Application Rates of a Locally Developed Maize Planter. Science & Technology, 6 (21), 62-70.

Wang, C., Liu, Y., Zhang, Z., Han, L., Li, Y., Zhang, H., Wongsuk, S., Li, Y., Wu, X. and He, X. (2022). Spray performance evaluation of a six rotor unmanned aerial vehicle sprayer for pesticide application using an orchard operation mode in apple orchards. Pest Management Science, 78(6), 2449-2466.

Wayzode, P. B., Umale, S. R., Nikam, R. R., Khadke, A. D. and More, H. (2016). Design and Fabrication of Agricultural Sprayer, Weeder with Cutter. International Journal of Research Advent Technology, 340-344.

Wu, Z., Chen, Y., Zhao, B., Kang, X., and Ding, Y. (2021). Review of weed detection methods based on computer vision. Sensors, 21(11), 3647.

Cover Image
Downloads
Published
2025-05-30
Issue
Vol. 19 No. 1 (2025): FUTA Journal of Engineering and Engineering Technology
Section
Articles
License

Copyright (c) 2025 FUTA JOURNAL OF ENGINEERING AND ENGINEERING TECHNOLOGY

Creative Commons License

This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.

Copyright

With the submission of a manuscript, the corresponding author confirms that the manuscript is not under consideration by another journal. With the acceptance of a manuscript, the Journal reserves the exclusive right of publication and dissemination of the information contained in the article. The veracity of the paper and all the claims therein is solely the opinion of the authors not the journal.

How to Cite

DEVELOPMENT AND PERFORMANCE EVALUATION OF A MOTORIZED BATTERY-POWERED SPRAYER. (2025). FUTA JOURNAL OF ENGINEERING AND ENGINEERING TECHNOLOGY, 19(1), 12-19. https://doi.org/10.51459/futajeet.2025.19.1.448

Similar Articles

71-80 of 88

You may also start an advanced similarity search for this article.