Modelling of concentrated fibre suspension pipe flow with low-Reynolds-number k-ε turbulence models: new damping function

Carla Cotas; Fernando Garcia; Maria Graça Rasteiro; Dariusz Asendrych

doi:10.3183/npprj-2017-32-01-p132-147

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Modelling of concentrated fibre suspension pipe flow with low-Reynolds-number k-ε turbulence models: new damping function

Carla Cotas , Fernando Garcia , Maria Graça Rasteiro and Dariusz Asendrych

Published/Copyright: July 19, 2018

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From the journal Nordic Pulp & Paper Research Journal Volume 32 Issue 1

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Cotas, Carla, Garcia, Fernando, Rasteiro, Maria Graça and Asendrych, Dariusz. "Modelling of concentrated fibre suspension pipe flow with low-Reynolds-number k-ε turbulence models: new damping function" Nordic Pulp & Paper Research Journal, vol. 32, no. 1, 2017, pp. 132-147. https://doi.org/10.3183/npprj-2017-32-01-p132-147

Cotas, C., Garcia, F., Rasteiro, M. & Asendrych, D. (2017). Modelling of concentrated fibre suspension pipe flow with low-Reynolds-number k-ε turbulence models: new damping function. Nordic Pulp & Paper Research Journal, 32(1), 132-147. https://doi.org/10.3183/npprj-2017-32-01-p132-147

Cotas, C., Garcia, F., Rasteiro, M. and Asendrych, D. (2017) Modelling of concentrated fibre suspension pipe flow with low-Reynolds-number k-ε turbulence models: new damping function. Nordic Pulp & Paper Research Journal, Vol. 32 (Issue 1), pp. 132-147. https://doi.org/10.3183/npprj-2017-32-01-p132-147

Cotas, Carla, Garcia, Fernando, Rasteiro, Maria Graça and Asendrych, Dariusz. "Modelling of concentrated fibre suspension pipe flow with low-Reynolds-number k-ε turbulence models: new damping function" Nordic Pulp & Paper Research Journal 32, no. 1 (2017): 132-147. https://doi.org/10.3183/npprj-2017-32-01-p132-147

Cotas C, Garcia F, Rasteiro M, Asendrych D. Modelling of concentrated fibre suspension pipe flow with low-Reynolds-number k-ε turbulence models: new damping function. Nordic Pulp & Paper Research Journal. 2017;32(1): 132-147. https://doi.org/10.3183/npprj-2017-32-01-p132-147

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https://doi.org/10.3183/npprj-2017-32-01-p132-147

Keywords for this article

Turbulent pulp flow; Drag reduction; Low-Reynolds-number k-ε turbulence models; Ansys Fluent; Rheology

Articles in the same Issue

An eco-friendly scheme to eliminate silica problems during bamboo biomass fractionation
Increased pulp yield by prolonged impregnation in softwood kraft pulping
The Arrhenius Equation is Still a Useful Tool in Chemical Engineering
Characterization of a dusting lime kiln – A mill study
CTMP process optimization Part I: Internal and external variables impact on refiner conditions
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Strong paper from spruce CTMP - Part I
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ATMP pulping of Norway spruce – pulp property development and energy efficiency
Refining of birch kraft pulp before or during xylanase treatment – effect on carbohydrate release and retention behavior
Comparison of optical instruments for fines and filler characterisation
On the net refining energy and tensile development of nbsk pulp in a low consistency refiner
Effect of fiber length on formation and strength efficiency in twin-wire roll forming
Evaluation of the in-plane shear strength of paper measured by tensile-loaded shear test
Modelling of concentrated fibre suspension pipe flow with low-Reynolds-number k-ε turbulence models: new damping function
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A new potential paper resource; recyclability of paper cups coated with water-soluble polyacrylate-based polymer