F
Frederic Heymes
Researcher at Mines ParisTech
Publications - 59
Citations - 741
Frederic Heymes is an academic researcher from Mines ParisTech. The author has contributed to research in topics: Overpressure & Boiling liquid expanding vapor explosion. The author has an hindex of 13, co-authored 59 publications receiving 580 citations. Previous affiliations of Frederic Heymes include University of Montpellier.
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A new efficient absorption liquid to treat exhaust air loaded with toluene
TL;DR: In this paper, a detailed comparison and evaluation of different kinds of organic absorbent was undertaken in purpose of toluene absorption, and experiments were performed to check gas-liquid partitioning and viscosity.
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Atmospheric dispersion modeling using Artificial Neural Network based cellular automata
TL;DR: Cellular Automata coupled with an Artificial Neural Network (CA-ANN) are developed here to calculate the atmospheric dispersion of methane (CH4) in 2D to reduce computation time while keeping accuracy.
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Experimental study of hydraulic ram effects on a liquid storage tank: Analysis of overpressure and cavitation induced by a high-speed projectile
Nicolas Lecysyn,Aurélia Bony-Dandrieux,Laurent Aprin,Frederic Heymes,Pierre Slangen,Gilles Dusserre,Laurent Munier,Christian Le Gallic +7 more
TL;DR: Based on data obtained from a high-speed video recorder, a phenomenological description is proposed for the evolution of intense pressure waves and cavitation in the target liquids.
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A closer look at BLEVE overpressure
Delphine Laboureur,A. M. Birk,J.M. Buchlin,Patrick Rambaud,Laurent Aprin,Frederic Heymes,A. Osmont +6 more
TL;DR: In this paper, an analysis method of the shocks observed in the experiments is presented based on fundamental gas dynamics, and allows the elaboration of a new modeling approach for BLEVE overpressure, based on the calculation of the initial overpressure and radius of the blast.
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An experimental study of an LPG tank at low filling level heated by a remote wall fire
Frederic Heymes,Laurent Aprin,A. M. Birk,Pierre Slangen,J.B. Jarry,Henri François,Gilles Dusserre +6 more
TL;DR: In this paper, the authors describe an experimental study of 2300 L pressure vessels exposed to remote fire heating by a natural gas fuelled wall fire simulator, which is first characterized with tests including fire thermocouples, radiative flux meters and thermal imaging.