13 Mar 2024
Job Information
- Organisation/Company
Ecole Centrale de Nantes- Department
LHEEA- Research Field
Environmental science » Other
Engineering » Mechanical engineering- Researcher Profile
First Stage Researcher (R1)- Country
France- Application Deadline
15 Apr 2024 - 12:00 (Europe/Paris)- Type of Contract
Temporary- Job Status
Full-time- Hours Per Week
35- Offer Starting Date
1 Oct 2024- Is the job funded through the EU Research Framework Programme?
Not funded by an EU programme- Is the Job related to staff position within a Research Infrastructure?
No
Offer Description
The marine atmospheric boundary layer (MABL), along with the upper layers of the ocean, play a central
role in air-sea fluxes of mass, momentum, heat and humidity providing crucial boundary conditions for the
atmosphere and the ocean which drive the evolution of weather conditions and the climate. The standard
model used to parameterize the characteristics of the near-surface atmosphere, including in marine
conditions, is based on the logarithmic law and the Monin-Obukhov similarity theory (MOST) taking into
account the thermal stability of the atmosphere. This approach describes turbulence in the surface layer
using the assumptions of stationarity and horizontal homogeneity and involves turbulent fluxes of constant
sensible heat, momentum, and moisture in the surface layer (SL). It is from these hypotheses that the
vertical average atmospheric profiles are parameterized.
We know that this approach, built for the onshore boundary layer, is called into question in the MABL, close
to the surface by the dynamic air-sea interactions (waves, currents, breaking, etc.) which are likely to move
the velocity, temperature and humidity profiles appart from of those predicted by MOST. This is particularly
the case for large swells associated with weak wind, a case observed in the laboratory, in simulation and in-
situ (Buckley et al, 2016, Veron et al, 2009, Paskin et al, 2022a). But observations of profiles close to the
surface remain relatively rare, which limits the understanding of the physics and the parameterization of
such interactions, particularly for cases of wave feedback towards the atmosphere or misaligned wave-wind
conditions...
The LHEEA has been working on these questions for several years from a numerical point of view through
CFD RANS simulation tools (Perignon et al., 2014) then through a model developed by (Cathelain, 2017) and
(Paskin et al. , 2022b), based on an atmospheric LES approach (Sullivan et al. 2014) and HOS approach
(Ducrozet et al. 2016) making it possible to locally represent in a deterministic manner the dynamic ocean-
atmosphere coupling, and by field measurement campaigns using a scanning LiDAR (Paskin et al 2022a,
Conan and Visich 2023) allowing the measurement of wind and turbulence profiles in real conditions.
The proposed thesis focuses on the description of all environmental conditions and aims to finely
characterize the dynamics of three-dimensional atmospheric flows, at the scales of interactions with marine
structures thanks to the exploitation of the coupled numerical model and in-situ measurements by scanning
LiDAR with particular interest on the cases of feedback of the swell on the atmosphere.
In addition to a bibliographic review and the handling of the laboratory's numerical and experimental
resources, the work will be structured around:
*post-processing of wind fields from existing cases archived, simulated during the thesis of M.
Cathelain and L. Paskin, and from complementary cases to simulate.
*post-processing of field data of wind profile, turbulence and surface flows from the different field
campaigns available and possibly new field campaigns.
*analysis of the impact of different sea states on the aerodynamic characteristics of the MABL
(roughness aerodynamics, turbulent organization, wind profile in the low layers...), particularly in
cases of misalignment wind/swell.
This thesis work is part of a strong dynamic of the LHEEA in recent years on the study of oceanic
environmental conditions. The work undertaken will be able to rely on the numerical and experimental
developments of the LHEEA, and it will benefit from the resources of the OPEN-C Foundation (SEM-REV,
etc.) and various partners on these themes (Ifremer, MIO- IRPHE, etc.). This work will lead to
communications at international conferences as well as publications in journals.
https://box.lheea.ec-nantes.fr/index.php/s/CtVlJto5ptSidKR
Requirements
- Research Field
- Engineering » Mechanical engineering
- Education Level
- Master Degree or equivalent
- Research Field
- Environmental science » Earth science
- Education Level
- Master Degree or equivalent
- Research Field
- Environmental science » Earth science
- Education Level
- Master Degree or equivalent
Skills/Qualifications
Master in fluid mechanics, meteorology, earth science
Good abilities in data processing (Python)
Interest and first experience in either field measurement of wind or numerical modeling (LES)
- Languages
- ENGLISH
- Level
- Excellent
- Languages
- FRENCH
- Level
- Excellent
- Research Field
- Environmental science » Earth scienceEngineering » Mechanical engineering
- Years of Research Experience
- None
Additional Information
Selection process
Send CV, motivation letter and support letter.
Selection on application and oral presentation
- Website for additional job details
https://box.lheea.ec-nantes.fr/index.php/s/CtVlJto5ptSidKR
Work Location(s)
- Number of offers available
- 1
- Company/Institute
- LHEEA - Ecole Centrale Nantes
- Country
- France
- City
- Nantes
- Postal Code
- 44000
- Street
- rue de la Noe
- Geofield
Where to apply
- Website
https://theses.doctorat-bretagneloire.fr/sis/campagne-2024up
Contact
- City
Nantes- Website
https://lheea.ec-nantes.fr/
https://www.ec-nantes.fr/english-version- Street
1 rue de la noë- Postal Code
44300
[email protected]- Phone
0033240371680
STATUS: EXPIRED
Similar Positions
-
Ph D In Nf Ts, Customer Experience & Distribution Channels , ; Audencia, France, 7 days ago
Application Deadline 15 May 2024 - 23:59 (Europe/Athens) Offer Description The position (PhD Candidate) is part of the MARIE Skłodowska-CURIE ACTIONS Doctoral Networks Industrial Doctorates (MSCA-...