Comparison of Eulerian hydrodynamic models with non-intrusive X-ray measurements in pressurized dense gas-fluidised beds.

M.A. Gilbertson; M.J.V. Goldschmidt; J.A.M. Kuipers

Comparison of Eulerian hydrodynamic models with non-intrusive X-ray measurements in pressurized dense gas-fluidised beds.

M.A. Gilbertson, M.J.V. Goldschmidt, J.A.M. Kuipers

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › Academic › peer-review

39 Downloads (Pure)

Abstract

The objective of much fluidisation research has been the prediction of industrial beds, which are often large and operated at high pressure and temperature. This may be achieved through the use of Eulerian two-fluid models. Two such models have been compared with experimental results of the structure of a jet in a bubbling fluidised bed. In the first two-fluid model the particles are treated as a Newtonian fluid with a constant viscosity; in the second, kinetic theory for granular flow is used to describe the rheological properties of the particulate phase. The experiments were examined non-intrusively using X-ray equipment. The comparison of the experiments with the models revealed significant and systematic differences. These are described and the implications they have for the modelling and scaleup of bubbling fluidised beds are discussed.

Original language	Undefined
Title of host publication	Proceedings of the 10th Engineering Foundation Conference on Fluidisation, Beijing, China
Pages	405-412
Number of pages	7
Publication status	Published - 20 May 2001
Event	10th Engineering Foundation Conference on Fluidisation: Proceedings of the 10th Engineering Foundation Conference on Fluidisation, Beijing, China - Duration: 20 May 2001 → 25 May 2001

Conference

Conference	10th Engineering Foundation Conference on Fluidisation
Period	20/05/01 → 25/05/01

Keywords

IR-37287
METIS-204433

Access to Document

comparison_of_eulerian

Cite this

@inproceedings{2aa878418433433683ad6413d63487f2,

title = "Comparison of Eulerian hydrodynamic models with non-intrusive X-ray measurements in pressurized dense gas-fluidised beds.",

abstract = "The objective of much fluidisation research has been the prediction of industrial beds, which are often large and operated at high pressure and temperature. This may be achieved through the use of Eulerian two-fluid models. Two such models have been compared with experimental results of the structure of a jet in a bubbling fluidised bed. In the first two-fluid model the particles are treated as a Newtonian fluid with a constant viscosity; in the second, kinetic theory for granular flow is used to describe the rheological properties of the particulate phase. The experiments were examined non-intrusively using X-ray equipment. The comparison of the experiments with the models revealed significant and systematic differences. These are described and the implications they have for the modelling and scaleup of bubbling fluidised beds are discussed.",

keywords = "IR-37287, METIS-204433",

author = "M.A. Gilbertson and M.J.V. Goldschmidt and J.A.M. Kuipers",

year = "2001",

month = may,

day = "20",

language = "Undefined",

pages = "405--412",

booktitle = "Proceedings of the 10th Engineering Foundation Conference on Fluidisation, Beijing, China",

note = "10th Engineering Foundation Conference on Fluidisation ; Conference date: 20-05-2001 Through 25-05-2001",

}

Comparison of Eulerian hydrodynamic models with non-intrusive X-ray measurements in pressurized dense gas-fluidised beds. / Gilbertson, M.A.; Goldschmidt, M.J.V.; Kuipers, J.A.M.
Proceedings of the 10th Engineering Foundation Conference on Fluidisation, Beijing, China. 2001. p. 405-412.

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › Academic › peer-review

TY - GEN

T1 - Comparison of Eulerian hydrodynamic models with non-intrusive X-ray measurements in pressurized dense gas-fluidised beds.

AU - Gilbertson, M.A.

AU - Goldschmidt, M.J.V.

AU - Kuipers, J.A.M.

PY - 2001/5/20

Y1 - 2001/5/20

N2 - The objective of much fluidisation research has been the prediction of industrial beds, which are often large and operated at high pressure and temperature. This may be achieved through the use of Eulerian two-fluid models. Two such models have been compared with experimental results of the structure of a jet in a bubbling fluidised bed. In the first two-fluid model the particles are treated as a Newtonian fluid with a constant viscosity; in the second, kinetic theory for granular flow is used to describe the rheological properties of the particulate phase. The experiments were examined non-intrusively using X-ray equipment. The comparison of the experiments with the models revealed significant and systematic differences. These are described and the implications they have for the modelling and scaleup of bubbling fluidised beds are discussed.

AB - The objective of much fluidisation research has been the prediction of industrial beds, which are often large and operated at high pressure and temperature. This may be achieved through the use of Eulerian two-fluid models. Two such models have been compared with experimental results of the structure of a jet in a bubbling fluidised bed. In the first two-fluid model the particles are treated as a Newtonian fluid with a constant viscosity; in the second, kinetic theory for granular flow is used to describe the rheological properties of the particulate phase. The experiments were examined non-intrusively using X-ray equipment. The comparison of the experiments with the models revealed significant and systematic differences. These are described and the implications they have for the modelling and scaleup of bubbling fluidised beds are discussed.

KW - IR-37287

KW - METIS-204433

M3 - Conference contribution

SP - 405

EP - 412

BT - Proceedings of the 10th Engineering Foundation Conference on Fluidisation, Beijing, China

T2 - 10th Engineering Foundation Conference on Fluidisation

Y2 - 20 May 2001 through 25 May 2001

ER -