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Optimization of inner flow dynamics in aeration impact sprinklers through CFD simulation, theoretical analysis, and experimental validation of stabilizer design for enhanced hydraulic performance

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  • Qureshi, Waqar Ahmed
  • Xiang, Qingjiang
  • Tunio, Mazhar Hussain
  • Qureshi, Junaid Ahmed
  • Mosha, Abdallah Harold
  • Gao, Jianmin
  • Elsherbiny, Osama

Abstract

The optimization of sprinkler irrigation's hydraulic performance is a critical challenge for sustainable agriculture, despite its widespread adoption for its efficacy in water conservation and uniform distribution. The uniformity of water distribution, droplet properties, and overall irrigation effectiveness are all greatly impacted by the internal flow dynamics of impact sprinklers. This research enhances the internal flow dynamics of the 20PY2 aeration impact sprinkler through the application of computational fluid dynamics (CFD) simulations, orthogonal experimental design, and ANOVA to assess the influence of stabilizer parameters on hydraulic performance. An optimized flow stabilizer was developed to reduce turbulence, enhance velocity consistency, and promote water distribution. CFD measurements show a significant decrease in turbulent kinetic energy (TKE) to less than 1.0 m²/s², a 1.2 % increase in output velocity, and a 28.4 % decrease in pressure drop. These findings are confirmed by theoretical models, which have absolute errors of 0.06 m²/s² for turbulent kinetic energy (TKE), 2.633 Pa for pressure difference, and 1.82 m/s for velocity. Experimental findings validate an increased nozzle throw range of 13.2–18.2 % at different pressures, attaining a maximum range of 28 m at 400 kPa. The modified stabilizer surpasses the original at all pressures, exhibiting a 3 % greater Coefficient of Uniformity (CU%) at 300 kPa (83 % compared to 80 %), hence enhancing water depth stability. Radial water distribution experiments demonstrate improved misting efficiency, with maximum application rates rising by 1.0 mm/h under elevated pressure settings. These enhancements guarantee more consistent and effective water distribution, fostering sustainable water management in precision irrigation systems.

Suggested Citation

  • Qureshi, Waqar Ahmed & Xiang, Qingjiang & Tunio, Mazhar Hussain & Qureshi, Junaid Ahmed & Mosha, Abdallah Harold & Gao, Jianmin & Elsherbiny, Osama, 2025. "Optimization of inner flow dynamics in aeration impact sprinklers through CFD simulation, theoretical analysis, and experimental validation of stabilizer design for enhanced hydraulic performance," Agricultural Water Management, Elsevier, vol. 312(C).
    • Handle: RePEc:eee:agiwat:v:312:y:2025:i:c:s0378377425001775
    DOI: 10.1016/j.agwat.2025.109463
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    References listed on IDEAS

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    1. Chen, Rui & Li, Hong & Wang, Jian & Song, Zhuoyang, 2023. "Critical factors influencing soil runoff and erosion in sprinkler irrigation: Water application rate and droplet kinetic energy," Agricultural Water Management, Elsevier, vol. 283(C).
    2. Xiang, Qingjiang & Qureshi, Waqar Ahmed & Tunio, Mazhar Hussain & Solangi, Kashif Ali & Xu, Zhengdian & Lakhiar, Imran Ali, 2021. "low-pressure drop size distribution characterization of impact sprinkler jet nozzles with and without aeration," Agricultural Water Management, Elsevier, vol. 243(C).
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