Flotation with sedimentation : Steady states and numerical simulation of transient operation
(2020) In Minerals Engineering 157.- Abstract
A spatially one-dimensional model of the hydrodynamics of a flotation column is based on one continuous phase, the fluid, and two disperse phases: the aggregates, that is, bubbles with attached hydrophobic valuable particles, and the solid particles that form the gangue. A common feed inlet for slurry mixture and gas is considered and the bubbles are assumed to be fully aggregated with hydrophobic particles as they enter the column. The conservation law of the three phases yields a model expressed as a system of partial differential equations where the nonlinear constitutive flux functions come from the drift-flux and solids-flux theories. In addition, the total flux functions are discontinuous in the spatial (height) coordinate because... (More)
A spatially one-dimensional model of the hydrodynamics of a flotation column is based on one continuous phase, the fluid, and two disperse phases: the aggregates, that is, bubbles with attached hydrophobic valuable particles, and the solid particles that form the gangue. A common feed inlet for slurry mixture and gas is considered and the bubbles are assumed to be fully aggregated with hydrophobic particles as they enter the column. The conservation law of the three phases yields a model expressed as a system of partial differential equations where the nonlinear constitutive flux functions come from the drift-flux and solids-flux theories. In addition, the total flux functions are discontinuous in the spatial (height) coordinate because of two inlets (slurry and wash water) and outlets at the top and bottom. The desired stationary solutions of this model can be characterized by operating charts. A novel numerical method is used for simulations of the hydrodynamics under variable operating conditions such as control actions that drive the process to desired states of operation.
(Less)
- author
- Bürger, Raimund ; Diehl, Stefan LU ; Martí, María del Carmen and Vásquez, Yolanda
- organization
- publishing date
- 2020
- type
- Contribution to journal
- publication status
- published
- subject
- keywords
- Flotation column, Froth flotation, Mathematical model, Numerical simulation, Operating charts, Steady states, Three-phase model
- in
- Minerals Engineering
- volume
- 157
- article number
- 106419
- publisher
- Pergamon Press Ltd.
- external identifiers
-
- scopus:85089245677
- ISSN
- 0892-6875
- DOI
- 10.1016/j.mineng.2020.106419
- language
- English
- LU publication?
- yes
- id
- 1ab2cf33-4459-4698-b1a2-bf2cb82eeb52
- date added to LUP
- 2020-08-17 12:08:35
- date last changed
- 2022-04-19 00:18:21
@article{1ab2cf33-4459-4698-b1a2-bf2cb82eeb52, abstract = {{<p>A spatially one-dimensional model of the hydrodynamics of a flotation column is based on one continuous phase, the fluid, and two disperse phases: the aggregates, that is, bubbles with attached hydrophobic valuable particles, and the solid particles that form the gangue. A common feed inlet for slurry mixture and gas is considered and the bubbles are assumed to be fully aggregated with hydrophobic particles as they enter the column. The conservation law of the three phases yields a model expressed as a system of partial differential equations where the nonlinear constitutive flux functions come from the drift-flux and solids-flux theories. In addition, the total flux functions are discontinuous in the spatial (height) coordinate because of two inlets (slurry and wash water) and outlets at the top and bottom. The desired stationary solutions of this model can be characterized by operating charts. A novel numerical method is used for simulations of the hydrodynamics under variable operating conditions such as control actions that drive the process to desired states of operation.</p>}}, author = {{Bürger, Raimund and Diehl, Stefan and Martí, María del Carmen and Vásquez, Yolanda}}, issn = {{0892-6875}}, keywords = {{Flotation column; Froth flotation; Mathematical model; Numerical simulation; Operating charts; Steady states; Three-phase model}}, language = {{eng}}, publisher = {{Pergamon Press Ltd.}}, series = {{Minerals Engineering}}, title = {{Flotation with sedimentation : Steady states and numerical simulation of transient operation}}, url = {{http://dx.doi.org/10.1016/j.mineng.2020.106419}}, doi = {{10.1016/j.mineng.2020.106419}}, volume = {{157}}, year = {{2020}}, }