DUTOURNIÉ, Patrick; AYMONIER, Cyril; CANSELL, François; MERCADIER, Jacques

doi:10.1021/ie0300732

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DUTOURNIÉ, Patrick
Laboratoire d'Etudes Thermiques, Energétiques et Environnement [LET2E]

AYMONIER, Cyril
Institut de Chimie de la Matière Condensée de Bordeaux [ICMCB]

CANSELL, François
Institut de Chimie de la Matière Condensée de Bordeaux [ICMCB]

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Industrial and engineering chemistry research. 2003, vol. 42, n° 20, p. 4708-4714

American Chemical Society

Résumé en anglais

The scaling up of a hydrothermal oxidation (HTO) facility depends on the development of simulation tools. In this way, a new approach to simulate the reactor thermal behavior during a nonstationary regime such as the start, stop, or emergency stop of the unit is developed. A numerical procedure of nonstationary temperature profile simulation in the reactor is described in order to predict the reactor thermal behavior. This new model is validated from experimental data obtained with a quasi-adiabatic reactor, which allows one to follow the temperature profile evolution along the reactor during the HTO process. Performances of the numerical procedure are tested with the simulation of three kinds of real nonstationary conditions: facility start, pump defect, and waste concentration dilution...< Réduire

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Supercritical fluids

Hydrothermal oxidation

Tubular reactors

Simulation

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Experiments and simulations of time-dependant phenomena in a hydrothermal oxidiation tubular reactor

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