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All Journal Indonesian Journal of Innovation Studies
Mauliana , Metatia Intan \
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Computer Science & IT Education Engineering Law, Crime, Criminology & Criminal Justice

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CFD Simulation Reveals Pressure Drop in Pipe Flow System: Simulasi CFD Mengungkap Penurunan Tekanan pada Sistem Aliran Pipa Yunus, Muhamad Ridwan; Akbar, Ali; Firdaus , Rachmat; Mauliana , Metatia Intan \
Indonesian Journal of Innovation Studies Vol. 26 No. 4 (2025): October
Publisher : Universitas Muhammadiyah Sidoarjo

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.21070/ijins.v26i4.2111

Abstract

General Background Fluid flow analysis in piping systems is essential for understanding energy losses and system performance in engineering applications. Specific Background Computational Fluid Dynamics (CFD) has been widely applied to simulate fluid behavior and pressure distribution in complex pipe geometries. Knowledge Gap However, detailed analysis of flow characteristics and pressure drop in specific pipe configurations, particularly at bends, remains limited. Aims This study aims to analyze fluid flow patterns and pressure drop in a piping system using CFD simulation. Results The results show that pressure drop increases with higher flow velocity and is significantly affected by pipe geometry, especially at bends where turbulence and vortex formation occur. Flow visualization indicates non-uniform pressure distribution and localized energy losses. Novelty This study provides detailed numerical insight into the interaction between flow velocity and pipe geometry using CFD visualization. Implications The findings can support the optimization of piping system design to reduce energy losses and improve operational efficiency. Keywords: Computational Fluid Dynamics, Pressure Drop, Pipe Flow, Fluid Simulation, Turbulence Key Findings Highlights Increased velocity intensifies energy loss along piping sections Flow separation appears prominently in curved geometry regions Numerical visualization clarifies localized pressure distribution patterns
Co-Authors Ali Akbar Firdaus , Rachmat Yunus, Muhamad Ridwan