Romain JANODET
From www.coria-cfd.fr
(→Research) |
|||
(11 intermediate revisions by the same user not shown) | |||
Line 1: | Line 1: | ||
{{#customtitle:Romain JANODET|Romain JANODET - www.coria-cfd.fr}} | {{#customtitle:Romain JANODET|Romain JANODET - www.coria-cfd.fr}} | ||
+ | [[File:Romain_Janodet_Photo.jpg|right|thumb|Romain Janodet|250px]] | ||
== Personal Information == | == Personal Information == | ||
Romain Janodet <br /> | Romain Janodet <br /> | ||
− | PhD student | + | PhD student at CORIA & Safran Tech <br /> |
− | + | Fluid Mechanics, CFD, Multiphase Flows <br /> | |
− | email: romain.janodet@coria.fr | + | email: romain.janodet@coria.fr <br /> |
+ | [https://cv.archives-ouvertes.fr/romain-janodet CV HAL] | ||
== Lab Information == | == Lab Information == | ||
− | CORIA <br /> | + | CORIA - CNRS UMR 6614 <br /> |
Avenue de l'Université - BP 12 <br /> | Avenue de l'Université - BP 12 <br /> | ||
76801 Saint Etienne du Rouvray, France <br /> | 76801 Saint Etienne du Rouvray, France <br /> | ||
Line 21: | Line 23: | ||
* 2017: MSc in Fluid Mechanics, Heat Transfer, Combustion, CentraleSupélec (formerly Ecole Centrale Paris), Châtenay-Malabry, France <br /> | * 2017: MSc in Fluid Mechanics, Heat Transfer, Combustion, CentraleSupélec (formerly Ecole Centrale Paris), Châtenay-Malabry, France <br /> | ||
* 2015: BSc in Mechanical Engineering, EPF - Ecole d'Ingénieurs, Sceaux, France | * 2015: BSc in Mechanical Engineering, EPF - Ecole d'Ingénieurs, Sceaux, France | ||
+ | * 2015: 5-month intern at the Guiana Space Centre (CNES-CSG), Range operation office, Kourou, France | ||
− | == Research == | + | == Research activities == |
− | * 2017: Masters Thesis at University of Toronto Institute for Aerospace Studies (UTIAS), CFD & Propulsion Group, Toronto, Canada <br /> Title: Numerical Evaluation of the Transition Boundary Between Regular and Mach Reflections for a Moving Shock Interacting with a Wedge in Sulfur Hexafluoride <br /> Supervisors: Prof. Clinton P. T. Groth & Prof. James J. Gottlieb | + | * 2017: Masters Thesis at University of Toronto Institute for Aerospace Studies (UTIAS), CFD & Propulsion Group, Toronto, Canada <br /> Title: Numerical Evaluation of the Transition Boundary Between Regular and Mach Reflections for a Moving Shock Interacting with a Wedge in Sulfur Hexafluoride <br /> Supervisors: Prof. Clinton P. T. Groth & Prof. James J. Gottlieb. [http://arrow.utias.utoronto.ca/~groth/former-members.html Research group] <br /> |
{| border="1" align="center" | {| border="1" align="center" | ||
− | | [[File:RP05AirAlpha0p015.png|center| | + | | [[File:RP05AirAlpha0p015.png|center|200px|frameless]] |
− | * Single-Mach Reflection (three-shock configuration | + | * Single-Mach Reflection (three-shock configuration) |
− | |rowspan="2"| [[File:RP05AirAlphan0p0005.png|center| | + | |rowspan="2"| [[File:RP05AirAlphan0p0005.png|center|200px|frameless ]] |
* Regular Reflection (two-shock configuration) | * Regular Reflection (two-shock configuration) | ||
− | |rowspan="3"| [[File:GridAirRP05AMRL12MS1p05.png|center| | + | |rowspan="3"| [[File:GridAirRP05AMRL12MS1p05.png|center|200px|frameless ]] |
* Anisotropic block-based AMR | * Anisotropic block-based AMR | ||
− | |||
|} | |} | ||
− | * | + | * Present: PhD Thesis (CIFRE grant) started in April 2018 at CORIA, Rouen, France and Safran Tech, Magny-Les-Hameaux, France <br /> Title: Numerical Simulation of Primary Atomization in Aeronautical Injectors, using a Massively Parallel Adaptive Mesh Refinement Technique <br /> Supervisors: Dr. [https://www.coria-cfd.fr/index.php/User:Moureauv Vincent Moureau] (CORIA), Dr. Renaud Mercier (Safran Tech), and Prof. Alain Berlemont (CORIA) |
+ | |||
+ | == Teaching activities == | ||
+ | * 2019: Teaching assistant, CentraleSupélec - <i>Introduction to scientific computing</i> to Masters students (15h) | ||
+ | |||
+ | == Publications == | ||
+ | === Conference proceedings === | ||
+ | # {{smallcaps| Janodet, R., Vaudor, G., Lartigue, G., Bénard, P., Moureau, V., Mercier, R.}} (2019) An unstructured conservative level set algorithm coupled with dynamic mesh adaptation for the computation of liquid-gas flows. <I>29th European Conference on Liquid Atomization and Spray Systems (ILASS Europe)</i> [https://hal.archives-ouvertes.fr/hal-02304125 HAL] |
Revision as of 12:51, 6 October 2019
Contents
Personal Information
Romain Janodet
PhD student at CORIA & Safran Tech
Fluid Mechanics, CFD, Multiphase Flows
email: romain.janodet@coria.fr
CV HAL
Lab Information
CORIA - CNRS UMR 6614
Avenue de l'Université - BP 12
76801 Saint Etienne du Rouvray, France
Tel: +33 (0)2 32 95 36 00
Fax: +33 (0)2 32 91 04 85
Background
- Present: PhD student in Computational Multiphase Flows, INSA of Rouen (Energy & Propulsion department), France
- 2017: MSc in Fluid Mechanics, Heat Transfer, Combustion, CentraleSupélec (formerly Ecole Centrale Paris), Châtenay-Malabry, France
- 2015: BSc in Mechanical Engineering, EPF - Ecole d'Ingénieurs, Sceaux, France
- 2015: 5-month intern at the Guiana Space Centre (CNES-CSG), Range operation office, Kourou, France
Research activities
- 2017: Masters Thesis at University of Toronto Institute for Aerospace Studies (UTIAS), CFD & Propulsion Group, Toronto, Canada
Title: Numerical Evaluation of the Transition Boundary Between Regular and Mach Reflections for a Moving Shock Interacting with a Wedge in Sulfur Hexafluoride
Supervisors: Prof. Clinton P. T. Groth & Prof. James J. Gottlieb. Research group
|
|
|
- Present: PhD Thesis (CIFRE grant) started in April 2018 at CORIA, Rouen, France and Safran Tech, Magny-Les-Hameaux, France
Title: Numerical Simulation of Primary Atomization in Aeronautical Injectors, using a Massively Parallel Adaptive Mesh Refinement Technique
Supervisors: Dr. Vincent Moureau (CORIA), Dr. Renaud Mercier (Safran Tech), and Prof. Alain Berlemont (CORIA)
Teaching activities
- 2019: Teaching assistant, CentraleSupélec - Introduction to scientific computing to Masters students (15h)
Publications
Conference proceedings
- Janodet, R., Vaudor, G., Lartigue, G., Bénard, P., Moureau, V., Mercier, R. (2019) An unstructured conservative level set algorithm coupled with dynamic mesh adaptation for the computation of liquid-gas flows. 29th European Conference on Liquid Atomization and Spray Systems (ILASS Europe) HAL