CFD modelling of an initial powdery layer on cooled tubular surfaces

CFD modelling of an initial powdery layer on cooled tubular surfaces

Stať ve sborníku mimo WoS a Scopus

This work focuses on simulations of particulate matter fouling of cooling tubes by‑products of combustion of industrial waste and sewage sludge mixture. Boundary conditions including the flue gas and particle flow rate are derived from combustion tests. Particle properties and size distribution are obtained from the literature. The goal is to provide a basis for further CFD modelling of the development of large deposits in tube bundles observed during a test on the experimental facility.

This work focuses on simulations of particulate matter fouling of cooling tubes by‑products of combustion of industrial waste and sewage sludge mixture. Boundary conditions including the flue gas and particle flow rate are derived from combustion tests. Particle properties and size distribution are obtained from the literature. The goal is to provide a basis for further CFD modelling of the development of large deposits in tube bundles observed during a test on the experimental facility.

Computational Fluid Dynamics, fouling, numerical simulation, fly ash, powdery deposit

Computational Fluid Dynamics, fouling, numerical simulation, fly ash, powdery deposit

STROUHAL, J.; JUŘENA, T.; JEGLA, Z.

2023

05.06.2022

Heat Exchanger Fouling and Cleaning XIV – 2022

192

199

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