C.G.S. Santim scite author profile

C.G.S. Santim

5Publications

27Citation Statements Received

31Citation Statements Given

How they've been cited

How they cite others

188

Affiliations

Brazilian Center for Research in Energy and Materials, Universidade Estadual de Campinas

Publications

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Investigation of pressure drop in horizontal pipes with different diameters

Hamad

Faraji

Santim

et al. 2017

International Journal of Multiphase Flow

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The pressure drop has a significant importance in multiphase flow systems. In this paper, the effect of the volumetric quality and mixture velocity on pressure drop of gas-liquid flow in horizontal pipes of different diameters are investigated experimentally and numerically. The experimental facility was designed and built to measure the pressure drop in three pipes of 12.70, 19.05 and 25.40 mm. The water and air flow rates can be adjusted to control the mixture velocity and void fraction. The measurements are performed under constant water flow rate (CWF) by adding air to the water and constant total flow rate (CTF) in which the flow rates for both phases are changed to give same CTF. The drift-flux model is also used to predict the pressure drop for same cases. The present data is also compared with a number of empirical models from the literature. The results show that: i) the pressure drop increases with higher volumetric qualities for the cases of constant water flow rate but decreases for higher volumetric qualities of constant total flow rate due to the change in flow pattern. ii) The drift-flux model and homogenous model are the most suitable models for pressure drop prediction. KEYWORDS: Air-water flow, pressure drop, horizontal pipes, experimental measurement, drift-flux model Highlights: 1. The pressure drop in three horizontal pipes of 12.70, 19.05 and 25.40 mm is studied. 2. The pressure drop increases with higher volumetric qualities for the cases of constant water flow rate but decreases for higher volumetric qualities of constant total flow rate due to the change in flow pattern 3. The drift-flux model and homogenous model are the most suitable models for pressure drop prediction.

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A transient analysis of gas-liquid slug flow inside a horizontal pipe using different models

Santim

Gaspari

Paternost

2017

Journal of Petroleum Science and Engineering

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Two-phase flow pressure drop modelling in horizontal pipes with different diameters

Faraji

Santim

Chong

et al. 2022

Nuclear Engineering and Design

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Transient multiphase flow modeling and validation in a real production system with high CO2 content using the drift-flux model

Santim

Fulchignoni

Rosa

et al. 2020

Journal of Petroleum Science and Engineering

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Experimental and numerical study of pressure drop in pipes packed with large particles

Hamad

Santim²,

Faraji

et al. 2020

Heat Mass Transfer

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C.G.S. Santim

Investigation of pressure drop in horizontal pipes with different diameters

A transient analysis of gas-liquid slug flow inside a horizontal pipe using different models

Two-phase flow pressure drop modelling in horizontal pipes with different diameters

Transient multiphase flow modeling and validation in a real production system with high CO2 content using the drift-flux model

Experimental and numerical study of pressure drop in pipes packed with large particles

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