Development of a Computational Code for the Design of Multi-Phase Processes at High Phase Fraction

Objetivo

Objectives and content
In a broad range of industrial sectors such as in
chemical, pharmaceutical, food, oil, paint and
biotechnology industries multi-phase processes are
abundantly in use. These operations comprise gas-liquid,
liquid-liquid or solid-liquid processes and often
combinations of these classes are encountered. In the
design and operation of these processes one often
utilises scaling rules or correlations as the relevant
physics is complicated and not well developed. This can
be understood if one e.g. realises that lengthscales are
involved of the order of metres (the impeller in a
stirred tank) and also of one micrometer (e.g. the
diameter of a droplet). Modelling of these processes
requires capturing of this large lengthscale regime. In
the last couple of years considerable progress has been
made in the development of the physics related to the
behaviour of the particles and its coupling to the flow
of the fluid in process equipment. The methodology used
is: Computational Fluid Dynamics, where the simulation of
the flow and the consequence of the flow on the particle
size distribution (and vice versa) has now become
possible. This so-called two-phase CFD methodology has
been applied successfully to processes such as
emulsification and aeration provided the number of
particles is relatively small.
It is the objective of this project to extend this
methodology to high phase fraction. This is extremely
relevant as most industrial operations are executed in
that regime for process-efficiency reasons. In order to
be able to develop a robust and flexible simulation code
for that regime, a number of fundamental problems have to
be unravelled: droplet/bubble break-up and coalescence
have to be modelled at high phase fraction, the CFD
methodology has to be extended into that regime which
requires the extension of the physics of turbulent flows
in close relationship with appropriate advanced algorithm
development. In addition to that models need to be
developed on phase-inversion that often takes place in
liquid-liquid dispersions at high phase fraction. In
this project universities will cover these topics and
will build the physical models. Those partners will also
support model-development by dedicated, well-defined
experiments to validate the models. These models will be
amalgamated into a commercial CFD code, STAR-CD, which
will be used in the evaluation of a number of test-cases
as designed and worked out by the industrial partners in
the project. They comprise emulsification in a stirred
tank, liquid-liquid extraction and settling a gas-liquid
fluidised bed and gas-liquid flow in a stirred tank. If
the simulations are successful, they prove the
versatility, reliability and flexibility of the
methodology for dispersions at high phase fractions.

Ámbito científico (EuroSciVoc)

CORDIS clasifica los proyectos con EuroSciVoc, una taxonomía plurilingüe de ámbitos científicos, mediante un proceso semiautomático basado en técnicas de procesamiento del lenguaje natural. Véas: El vocabulario científico europeo..

• ciencias naturales ciencias físicas mecánica clásica mecánica de fluidos dinámica de fluidos dinámica de fluidos computacional

Programa(s)

Programas de financiación plurianuales que definen las prioridades de la UE en materia de investigación e innovación.

• FP4-BRITE/EURAM 3 - Specific research and technological development programme in the field of industrial and materials technologies, 1994-1998

Tema(s)

Las convocatorias de propuestas se dividen en temas. Un tema define una materia o área específica para la que los solicitantes pueden presentar propuestas. La descripción de un tema comprende su alcance específico y la repercusión prevista del proyecto financiado.

• 0102 - Development of clean production technologies

Convocatoria de propuestas

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Régimen de financiación

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CSC - Cost-sharing contracts

Coordinador

Participantes (6)