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Simulation analysis of fertilizer discharge process using the Discrete Element Method (DEM)

Author

Listed:
  • Kemoh Bangura
  • Hao Gong
  • Ruoling Deng
  • Ming Tao
  • Chuang Liu
  • Yinghu Cai
  • Kaifeng Liao
  • Jinwei Liu
  • Long Qi

Abstract

Fertilizer discharge process is a critical part of fertilizer application, as it affects the fertilizer discharge rate and uniformity of fertilizer application. In this study, a spiral grooved-wheel fertilizer discharge device was designed to replace the conventional straight grooved-wheel. Comparisons of the fertilizer discharge performance of the two grooved-wheel types were performed through tests and simulations using the discrete element method (DEM). The discharge performance of the two discharge devices was assessed by measuring the discharge mass rate, discharge uniformity, and the falling velocity of the fertilizer particles. Results showed that under similar conditions, the fertilizer discharge mass rate of the spiral grooved-wheel was higher than that of the straight grooved-wheel. The fertilizer discharge uniformity of the spiral grooved-wheel was much better than that of the straight grooved-wheel. The average falling velocity of fertilizer particles through the discharge spout was higher under the spiral grooved-wheel. The relative errors between the test and simulation results for the discharge mass rates, discharge uniformity, and particle falling velocities of the spiral grooved-wheel were all less than 10%. The developed spiral grooved-wheel exhibited a better performance than the conventional straight grooved-wheel, in all the aspects examined. The results serve as a theoretical basis for guiding the design of high-performance fertilizer applicators.

Suggested Citation

  • Kemoh Bangura & Hao Gong & Ruoling Deng & Ming Tao & Chuang Liu & Yinghu Cai & Kaifeng Liao & Jinwei Liu & Long Qi, 2020. "Simulation analysis of fertilizer discharge process using the Discrete Element Method (DEM)," PLOS ONE, Public Library of Science, vol. 15(7), pages 1-16, July.
  • Handle: RePEc:plo:pone00:0235872
    DOI: 10.1371/journal.pone.0235872
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    Cited by:

    1. Guoqiang Dun & Quanbao Sheng & Xinxin Ji & Chaoxia Zhang & Shang Gao & Yuhan Wei & Yinan Han, 2024. "Optimal Design and Experiment of Electronically Controlled Inclined Spiral Precision Fertilizer Discharger," Agriculture, MDPI, vol. 14(7), pages 1-22, July.

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