A.T. van Nimwegen | Researchain

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Featured researches published by A.T. van Nimwegen.

ASME 2014 4th Joint US-European Fluids Engineering Division Summer Meeting collocated with the ASME 2014 12th International Conference on Nanochannels, Microchannels, and Minichannels | 2014

The Effect of Surfactants on the Flow Patterns in Vertical Air-Water Pipe-Flow

A.T. van Nimwegen; L.M. Portela; R.A.W.M. Henkes

In this work, we consider the influence of surfactants on the flow pattern transitions of air-water flow in vertical pipes. Surfactants cause the formation of foam, which suppresses the irregularities in the flow. Thereby, the foam significantly decreases the gas flow rate associated with the transition between annular and churn flow. Furthermore, this transition is no longer independent of the liquid flow rate, as the foam can more easily suppress the churning at low liquid flow rates. At sufficiently large surfactant concentrations, the foam suppresses all churning, leading to a direct transition between annular and slug flow. Using results from flow visualisation, the effect of the surfactants on the morphology of the different flow patterns is analysed. The results provide important subsidies for a mechanistic model of air-water-foam flow.Copyright

International Journal of Multiphase Flow | 2015

The effect of surfactants on air-water annular and churn flow in vertical pipes. Part 1: Morphology of the air-water interface

A.T. van Nimwegen; L.M. Portela; R.A.W.M. Henkes

International Journal of Multiphase Flow | 2015

The effect of surfactants on air–water annular and churn flow in vertical pipes. Part 2: Liquid holdup and pressure gradient dynamics

A.T. van Nimwegen; L.M. Portela; R.A.W.M. Henkes

International Journal of Multiphase Flow | 2016

The effect of surfactants on upward air–water pipe flow at various inclinations

A.T. van Nimwegen; L.M. Portela; R.A.W.M. Henkes

Computers & Fluids | 2015

Direct Numerical Simulation of turbulent flow in pipes with an arbitrary roughness topography using a combined momentum-mass source immersed boundary method

A.T. van Nimwegen; K.C.J. Schutte; L.M. Portela

Colloids and Surfaces A: Physicochemical and Engineering Aspects | 2015

The relation between the dynamic surface tension and the foaming behaviour in a sparger setup

D. Kawale; A.T. van Nimwegen; L.M. Portela; M.A. van Dijk; R.A.W.M. Henkes

International Journal of Multiphase Flow | 2017

The effect of the diameter on air-water annular and churn flow in vertical pipes with and without surfactants

A.T. van Nimwegen; L.M. Portela; R.A.W.M. Henkes

8th North American Conference on Multiphase Technology | 2012

A First Look At the Hydrodynamics of Air-water-foam Flow For Gas Well Deliquification

A.T. van Nimwegen; L.M. Portela; R.A.W.M. Henkes

International Journal of Multiphase Flow | 2017

界面活性剤がある場合とない場合の垂直管内の空気‐水環状とチャーン流に及ぼす直径の影響【Powered by NICT】

A.T. van Nimwegen; L.M. Portela; Henkes R.A.W.M.

International Journal of Multiphase Flow | 2017

Modelling of upwards gas-liquid annular and churn flow with surfactants in vertical pipes

A.T. van Nimwegen; L.M. Portela; R.A.W.M. Henkes

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L.M. Portela

Delft University of Technology

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R.A.W.M. Henkes

Delft University of Technology

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D. Kawale

Delft University of Technology

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K.C.J. Schutte

Delft University of Technology

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M.A. van Dijk

Royal Dutch Shell

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