Mathematics (Sep 2024)

Mathematical Formulations for Predicting Pressure Drop in Solid–Liquid Slurry Flow through a Straight Pipe Using Computational Modeling

  • Tanuj Joshi,
  • Abhinav Gupta,
  • Om Parkash,
  • Ralph Kristoffer B. Gallegos,
  • Nay Lin Oo,
  • Gopal Krishan

DOI
https://doi.org/10.3390/math12182879
Journal volume & issue
Vol. 12, no. 18
p. 2879

Abstract

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The study establishes two mathematical formulations to predict the pressure drop in a solid–liquid slurry flowing through a straight pipe. Employing the Eulerian–Eulerian RNG k-ε model, the computational investigation uses water as the carrier fluid and glass beads as solid particles. The analysis spans various particle sizes (d50 = 75–175 μm), volumetric concentrations (Cvf = 10–50%), and velocities (Vm = 1–5 m/s). The first model, developed using the MATLAB curve-fitting tool, is complemented by a second empirical equation derived through non-polynomial mathematical formulation. Results from both models are validated against existing experimental and computational data, demonstrating accurate predictions for d50 = 75–175 µm particles within a Reynolds number range of 20,000 ≤ Re ≤ 320,000.

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