Numerical Analysis of Flow Through Venturimeter with Variation of Neck Size to Determine Velocity Coefficient and Pressure Drop DOI

Zakaria Gaber Hanawy Beshay,

Sokunthea Sin,

Waseem Raja

et al.

Interval Indonesian Journal of Mathematical Education, Journal Year: 2025, Volume and Issue: 3(1), P. 1 - 12

Published: May 1, 2025

Purpose of the study: This study aims to analyze effect variations in size venturimeter neck on velocity coefficient and pressure drop using a numerical simulation method. Methodology: The method used this is SolidWorks 2014 software. simulated model has length variation 20 mm 30 mm, with throat diameter 10 mm. fluid water temperature 25°C, carried out Reynolds number (Re) range 1000 5000. Main Findings: results showed that greater incoming fluid, number, flow rate, also increased. In addition, difference affects drop, where longer experiences due duration flow. resulting influenced by higher velocity, rate value. Novelty/Originality novelty research lies approach analyzing relationship between drop. allows faster more efficient calculations compared conventional experimental methods, thus contributing development accurate applicable measurement techniques.

Language: Английский

Numerical Analysis of Flow Through Venturimeter with Variation of Neck Size to Determine Velocity Coefficient and Pressure Drop DOI

Zakaria Gaber Hanawy Beshay,

Sokunthea Sin,

Waseem Raja

et al.

Interval Indonesian Journal of Mathematical Education, Journal Year: 2025, Volume and Issue: 3(1), P. 1 - 12

Published: May 1, 2025

Purpose of the study: This study aims to analyze effect variations in size venturimeter neck on velocity coefficient and pressure drop using a numerical simulation method. Methodology: The method used this is SolidWorks 2014 software. simulated model has length variation 20 mm 30 mm, with throat diameter 10 mm. fluid water temperature 25°C, carried out Reynolds number (Re) range 1000 5000. Main Findings: results showed that greater incoming fluid, number, flow rate, also increased. In addition, difference affects drop, where longer experiences due duration flow. resulting influenced by higher velocity, rate value. Novelty/Originality novelty research lies approach analyzing relationship between drop. allows faster more efficient calculations compared conventional experimental methods, thus contributing development accurate applicable measurement techniques.

Language: Английский

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