Article

Mathematical Modeling of Viscous Incompressible Fluid Flow in Tubular Networks: Analysis of Laminar and Turbulent Regimes

Habibulla AkhadkulovUniversiti Utara MalaysiaShaydulla MenglievTermez State UniversityA. H. M. Asif KamalUniversity of Malaya

Journal of Computational Innovation and Analytics (JCIA)journal2025

ABI

Abstract

The article delves into the mathematical modeling of the flow of viscous, incompressible fluids through a network of tubes enclosed within an outer pipe. It comprehensively examines both laminar and turbulent flow regimes, providing a thorough analysis of the underlying physical phenomena. Specifically, it investigates the fluid dynamics through a configuration consisting of n tubes, each with a length L and radius r situated within the outer tube. The article derives formulae for calculating key parameters such as the maximum velocity of fluid flow, the volumetric flow rate through the tube's cross-section, the coefficient of frictional resistance along the tube's length, and the maximum value of tangential stress.

Topics

Fluid dynamics and aerodynamics studies Heat Transfer and Numerical Methods Heat Transfer and Optimization

Identifiers

DOI: 10.32890/jcia2025.4.1.5

Citations and references

Cited by 00 references

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