News - Career

Junior Researcher (Doctoral Candidate)

Junior Researcher (Doctoral Candidate)

Ref:2023_13

 

SEDIMARE HR Wallingford Project: Multi-models approach to scour in dynamic areas

Marie Skłodowska-Curie Doctoral Network:
Sediment Transport and Morphodynamics in Marine and Coastal Waters with Engineering Solutions (SEDIMARE) 2023-2027

 

Salary: £36,386-£43,626 (in accordance with the EU Marie Skłodowska-Curie-Actions financial guidelines for this scheme)

Duration: 36-month fixed-term contract

Location: Wallingford, UK (with secondment opportunities to the University of Nottingham, UK and the University of Patras, Greece) 

 

HR Wallingford have an exciting opening for a Junior Researcher (Doctoral Candidate) to join the SEDIMARE Doctoral Network consortium. The successful candidate will be based in the Coasts and Oceans Group in Wallingford and enrolled for a fee-free PhD at the UK Open University researching a multi-model approach to scour in dynamic areas. The position includes secondment opportunities to the University of Nottingham, UK and the University of Patras, Greece. The successful candidate will work on the development of an accurate integrated scour dynamics tool.

The SEDIMARE Doctoral Network consortium will provide a training-through-research program to 12 Doctoral Award/PhD Candidates across Europe and the UK in complex sediment transport processes involving sand-mud mixtures, mixed-size sands, granular-fluid mixtures; coupling between hydrodynamics (waves, storm surges, and tides), sediment transport, morphological changes, and engineering solutions to issues related to erosion/sedimentation with emphasis on sustainability and resilience. The research methods include effective process-based engineering modelling, advanced numerical simulations, and innovative experiments.

This project aims to combine different model approaches (Computational Fluid Dynamics (CFD), St-Venant and empirical) to provide an accurate integrated scour dynamics tool, that can be applied in morphologically active locations and includes the interactions between scour around coastal structures and the wider morphodynamics.

Taking the strength of the 3 approaches, the turbulence modelling of the CFD, the sand transport predictions of the St Venant models and the grounding in reality of the empirical models, cutting-edge improvements can be achieved on the individual approaches.

You will be responsible for conducting research on sediment transport and scour processes, and the coupling between hydrodynamics and sediment transport to predict large scale morphological changes. You will develop and implement effective process-based engineering models and run advanced numerical simulations to better understand these complex processes. You will collaborate with other members of the SEDIMARE Doctoral Network . As part of your role, you will attend and present at national and international conferences and workshops and write and submit scientific articles for publication in international peer-reviewed journals.

 

Requirements

  • Hold a primary degree or masters in civil / mechanical / maritime engineering, physical oceanography, physics, applied mathematics, or a related discipline.
  • Meet the Marie Skłodowska-Curie Early-Stage Researcher eligibility criteria. Further information can be found at http://ec.europa.eu/research/participants/data/ref/h2020/wp/2016_2017/main/h2020-wp1617-msca_en.pdf.
  • At the time of appointment, have less than four years full-time equivalent research experience and must not have already obtained a PhD.
  • Have not resided in the UK (recruiting host country) for more than 12 months in the three years immediately before the appointment.
  • Have a strong interest in sediment transport processes, hydrodynamics, and morphodynamics.
  • Strong scientific computing skills are required. Experience with OpenFoam and/or openTELEMAC preferred. Be able to work independently and collaboratively.
  • Have excellent oral and written communication skills.
  • Be able to travel to other institutions within the SEDIMARE Doctoral Network consortium.

Please note: the language of MSCA is English and candidates must have evidenced proficiency in English to meet HR Wallingford’s requirements.

 

 

Benefits

  • Attractive salary in accordance with MSCA regulations for Doctoral Candidates, including living allowance, mobility allowance, and family allowance (if applicable).
  • Enrolment for a fee-free PhD at the UK Open University.
  • Secondment opportunities to the University of Nottingham, UK and the University of Patras, Greece
  • Opportunities to collaborate with international experts in the field of sediment transport and morphodynamics in marine and coastal waters with engineering solutions.
  • Opportunities to attend and present at national and international conferences and workshops.
  • Funded PhD for the period of employment, with options for further financial support.

Application Process:

  • Application must be made via the HR Wallingford careers page: www.hrwallingford.com/careers/uniorResearcherCoastalModelling
  • The application must include a CV, a cover letter, and the names and contact information of at least two referees. Applications that do not adhere to these requirements will not be considered.
  • The application deadline is May 31st, 2023, 23:59 GMT. Late applications will not be considered.

Informal queries may be sent to This email address is being protected from spambots. You need JavaScript enabled to view it., but please do not send applications directly to this email address.

HydroQuest looking for a R&D Engineer

HydroQuest is looking for a R&D Engineer to deploy a hydrodynamic model at the regional scale of their tidal sites based on open TELEMAC-MASCARET. 

job offer is available on their Web site: https://www.hydroquest.fr/carriere/

open postdoc position at KU Leuven

Dear researchers,

Professor Erik A. Toorman has a postdoc position available (12 to max. 18 months) to work on treatment of tidal flats in TELEMAC (The position can be filled in immediately).

This is in the framework of our Eulerian plastic litter transport model development for a Flemish project (www.Pluxin.be) and an EU H2020 project (www.Labplas.eu), where we develop a floating litter module (in analogy to bedload) for which beaching and shore pickup of litter needs to be modelled as well (in combination with the drying-wetting algorithm).

If you know a postdoc with good TELEMAC experience who might be interested, let her/him get in touch with me.

Best regards

Erik A. Toorman
Professor in theoretical and computational fluid and sediment mechanics, KU Leuven
erik.toorman [@] kuleuven.be

Post-doc position on Hydrodynamic and sediment transport model of the Mahury estuary (French Guiana)

The 300 km coastline of French Guiana is one of the most dynamic coastlines due to mud banks migration. Along this shoreline, several rivers flow to the Atlantic Ocean and interact with these mud banks. Most of the population, which is expected to double in the next decades, lives along rivers or near the coastline. This growth combined with industrial developments and global warming increase the vulnerability against flooding and beach erosion. A project between CEREMA and BRGM has been funded to analyze (1) the interactions between rivers and the coastal mud bank migration and (2) their impact on risks management.

The studied site is the Mahury estuary where is located the main Port of French Guiana. Since 2012, a mud bank is migrating along the mouth which induces severe sediment settling and continuously dredging. The main city "Cayenne" is also located beside the mouth. Sand beaches of the city are fed by sediment fluxes from the Mahury and offshore fluxes. The presence of mud bank modifies the dynamics: wave attenuation by mud, coarser particles trapped by mud and modification of stratification pattern. The fluxes modification may induce more sediment deficit and increase the risk of sea flooding.

Within this framework, it is proposed to build a 3D hydrodynamic and sediment transport model of the Mahury estuary. The numerical models will be based on the open source TELEMAC-MASCARET modeling system (www.opentelemac.org). The ability of the numerical model to predict the maximum turbidity and its seasonal variation will be investigated. Once validated, the model should provide information related to the influence of the mud bank and modification of the main forcing. The numerical model will benefit from several in situ data (PhD Orseau 2016) and from remote sensing data (PhD Abascal Zorrilla in progress).

We are looking for a candidate having a PhD in fluid mechanics, hydraulics, geosciences or coastal oceanography and strong expertise related to sedimentology (cohesive and non-cohesive), geomorphology, fluid mechanics, hydraulics, wave modeling and numerical methods. Knowledge of French language is not mandatory.

About the host research laboratory:

The welcoming laboratory is the joint research unit (between Université de Technologie de Compiègne and the CEREMA Water Sea and Rivers) located in Compiègne in France (40 min by train from Paris).

How to apply

Candidates are encouraged to apply to Dr. Nicolas Huybrechts (This email address is being protected from spambots. You need JavaScript enabled to view it.) with a motivation letter, CV, and contact information of two referees.
Deadline: October 30.
Expected starting date: December 1st 2017

Post-doctoral position on Data Assimilation in 2D hydraulic models

The Saint-Venant Hydraulics Laboratory is a joint research laboratory between Ecole des Ponts ParisTech (ENPC), Electricité de France R&D (EDF R&D) and Cerema. This gives it a unique position in the field of applied fluid mechanics, at the interface between academy and industry. The Saint-Venant Hydraulics Laboratory seeks to fill a 18 month post-doctoral position on Data Assimilation in 2D hydraulic models.

The aim of this post-doctoral position is to provide an operational tool required to move vessels into the Gironde channel. The numerical tool, based on TELEMAC system (widely used open-source code www.opentelemac.org), must be able to deliver the real time water depth with uncertainty and confidence interval. The purpose of the present work is to develop a mathematical method resulting from data assimilation techniques, in order to formalize the knowledge of the events to automate the calibration process. Data assimilation methods combine the solution of models with measurements. They rely on a mathematical background that helps to find optimal solutions to complex problems with an explicit representation of errors. The underlying optimization problem is solved using a descent based or filter approach. This makes it possible to define the optimal parameter adjustment which minimizes the difference between the observations and the results arising from the numerical model. This optimization problem will be solved using derivative-free and gradient algorithms.

Successful applicants should, by the start of the appointment, have a Ph.D., or equivalent experience in Applied Mathematics, Applied Physics, Computer Sciences or Mechanical/Civil Engineering. The use and development of high performance numerical computing are highly desirable. The researcher will be employed by Ecole des Ponts ParisTech (ENPC). Salary and benefits will be commensurate with qualifications and experience.

About Saint-Venant laboratory and the host research team:

The Saint-Venant laboratory is actively engaged in fundamental and applied research, and its research activities are organized along three main themes: (A) Waves and marine hazards, (B) Modeling and simulation of free-surface flows, (C) Sediment transport and morphodynamics.
The laboratory has access to a unique variety of facilities, such as the 8000 m2 of experimental facilities and the development of high-performance Computational Fluid Dynamics models for environmental flows and transport processes, including the opensource Telemac-Mascaret modelling system (http://www.opentelemac.org). The laboratory is located on the EDF Lab site in Chatou (France), about 15 km from Paris downtown.
More information about our laboratory can be found at: http://www.saint-venant-lab.fr

How to apply

Applicants should send to Dr. Jean-Philippe Argaud and Dr. Cedric Goeury (see e-mail
addresses below): a cover letter and CV. All applications completed by April 31st, 2017 will receive full consideration, but candidates are urged to submit all required material as soon as possible. Applications will be accepted until the position is filled.
For additional information, please contact:

  • Dr. Jean-Philippe Argaud [EDF], e-mail: This email address is being protected from spambots. You need JavaScript enabled to view it.
  • Dr. Cedric Goeury [EDF], e-mail: This email address is being protected from spambots. You need JavaScript enabled to view it.

Post-doctoral position on parametric shape optimisation in hydraulics

The Saint-Venant Hydraulics Laboratory (Chatou, France) seeks to fill a 18 month post-doctoral position in the field of parametric shape optimisation for hydraulic and environmental problems, with the following main topics:

  • Robust shape and topology optimisation applied to river and/or coastal applications
  • Identification of optimal zones and/or boundaries to improve the efficiency or to minimise costs while guaranteeing the design constrains of hydraulic structures (e.g. water intakes) subject to different forcing effects

The aim of this post-doctoral position is to develop an efficient numerical tool based on TELEMAC system (widely used open-source code www.opentelemac.org) able to deliver optimal shape design for hydraulic engineering applications. The work will be mainly based on the implementation, improvement and development of computational methods capable to solve optimisation problems based on derivative-free and gradient algorithms. These algorithms will be first verified and validated on simplified configurations and then applied to selected industrial cases. Successful applicants should, by the start of the appointment, have a Ph.D., or equivalent experience in Applied Mathematics, Applied Physics, Computer Sciences or Mechanical/Civil Engineering. Experience of high performance numerical computing and/or programming are highly desirable. The researcher will be employed by Ecole des Ponts ParisTech. Salary and benefits will be commensurate with qualifications and experience.

About Saint-Venant laboratory and the host research team

The Saint-Venant Hydraulics Laboratory is a joint research laboratory between Ecole des Ponts ParisTech (ENPC), Electricité de France R&D (EDF R&D) and Cerema. This gives it a unique position in the field of applied fluid mechanics, at the interface between academy and industry. The Saint-Venant laboratory is actively engaged in fundamental and applied research, and its research activities are organized along three main themes: (i) Waves and marine hazards, (ii) Modeling and simulation of free-surface flows, (iii) Sediment transport and morphodynamics. The laboratory has access to a unique variety of facilities, such as the 8000 m2 of experimental facilities and the development of high-performance CFD models for environmental flows and transport processes, including the opensource Telemac-Mascaret modelling system (http://www.opentelemac.org). The laboratory is located on the EDF Lab site in Chatou (France), about 15 km from Paris downtown. More information about our laboratory can be found at: http://www.saint-venant-lab.fr

How to apply

Applicants should send to Drs. Riadh Ata (This email address is being protected from spambots. You need JavaScript enabled to view it.) and Cedric Goeury (This email address is being protected from spambots. You need JavaScript enabled to view it.) a CV and a cover letter. All applications completed by May 15th 2017 will receive full consideration, but candidates are urged to submit all required material as soon as possible. Applications will be accepted until the position is filled. For more information, please contact Dr. Riadh Ata, EDF R&D and Saint-Venant Laboratory, This email address is being protected from spambots. You need JavaScript enabled to view it. and Dr. Cedric Goeury, EDF R&D, This email address is being protected from spambots. You need JavaScript enabled to view it.. Deadline for application: 15th May 2017

Postdoc position in numerical modelling of coastal particulate transport

The Hydraulics Division of the KU Leuven Department of Civil Engineering offers a 2 year postdoc position (2017-2018) in the framework of the EU JPI Oceans Microplastics project WEATHER-MIC (http://www.jpi-oceans.eu/weather-mic/about). The task consists of the set-up of a 3-dimensional numerical model to simulate the transport, fate and dispersion of microplastic particles released from water treatment plant overflows in the Oslo Fjord and the Himmerfjärden Bay (Stockholm).

During this period, the postdoc will also contribute to the BELSPO STEREOIII project Proba4Coast (comparison of simulated SPM data with remote sensing images for the Belgian coastal area), the BELSPO BRAIN.be project INID67 (numerical simulation of SPM in the Belgian coastal area) and the VLAIO funded SBO project CREST (Climate resilient Coast – www.crestproject.be) (numerical simulation of beach erosion for the Belgian coast).

In all these case the same TELEMAC modelling system will be used. Different new process modules (especially for flocculation and biofilm formation) will have to be developed, implemented and tested.

The research is a continuation of ongoing work, i.e. much preparatory work (including the set-up of the hydrodynamic models) is mostly done. The selected postdoc will collaborate with other researchers within the KU Leuven Sediment Mechanics research group, as well as with TELEMAC users and developers in Belgium, France and the UK.

Profile

The candidate holds a PhD degree in civil, hydraulic or coastal engineering, oceanography or mechanical engineering (specialized in CFD). The master degree does not need to be in the same discipline. The ideal candidate has:

  • theoretical knowledge of the physics of fluid flow, turbulence, waves and particulate (or sediment) transport
  • experience in numerical modelling of fluid flow (computational fluid dynamics, preferably applied to 2D and 3D hydraulics and morphodynamics)
  • experience in the use of the TELEMAC system (TELEMAC, TOMAWAC and SISYPHE) and knowledge of its code and numerical techniques
  • experience in CFD code development and theoretical knowledge of numerical modelling
  • experience in coding in FORTRAN.

Candidatures (including motivation letter, CV, diploma transcripts and relevant publications) and requests for further information can be sent to: Prof. Erik TOORMAN Hydraulics Division, Department of Civil Engineering, KU Leuven Kasteelpark Arenberg 40 (box 2448), B-3001 Heverlee, Belgium E-mail: This email address is being protected from spambots. You need JavaScript enabled to view it., Tel. +32 16 32 16 59, Fax +32 16 32 19 89

Post-doctoral position: Seagrass restoration project in the Berre lagoon - efficiency and optimisation of a wave absorption system

Context

The Berre Lagoon (France) is one of the largest Mediterranean lagoons (155 km²). It's a shallow semi-confined ecosystem (mean depth 6.5 m) connected to the Mediterranean Sea via the Caronte channel. It receives freshwater from two main rivers and from Saint-Chamas EDF hydroelectric power plant. As a transitional system, there are many interactions between marine water, freshwater and meteorological forcings.

In the late 19th and early 20th centuries, the lagoon bottom was covered by a very extensive Zostera sp. meadows. These meadows perform numerous functions like stabilizing the sea bottom, providing food and habitats for other marine organisms. But, because of eutrophication, organic pollution through increasing agriculture and urbanization in river catchments, over-sedimentation, Zostera sp. meadows declined in the Berre Lagoon. Transplantation experiments have been achieved, with some positive but always limited results (survival, expansion). This could be due to strong hydrodynamic stresses (currents, waves): uprooting and damages on roots and leaves could prevent their expansion.

Scientific work has already been achieved. Seagrass characteristics have been monitored in situ. Hydrodynamics and sedimentology in a bay of the lagoon has been studied during a PhD work at the CEREGE (European Center for Research and Teaching Geosciences and Environment, France) (Paquier, 2014). A hydrodynamic numerical model (waves – currents coupled model considering effect of vegetation on hydrodynamics) has also been developed in a post-doctoral work at the LNHE-LHSV Lab (National Laboratory for Hydraulics and Environment EDF R&D and Hydraulics Laboratory Saint Venant, France) to better understand hydrodynamic processes involved.

As a result of these studies, temporary use of artificial seagrass mats could be considered as a soft engineering solution to reduce wave and induce favorable hydrodynamic conditions for natural seagrass expansion. The post-doctoral position is a preliminary step for a possible future mat (artificial seagrass) deployment as a demonstrator: it will assess the efficiency of such a system in real site conditions. The final objective of this work is to propose demonstrator specifications in terms of material, sizing, positioning, etc.

Objectives

A numerical « waves – 3D currents » coupled model (TOMAWAC and TELEMAC-3D softwares) covering a Berre lagoon specific area exists and will be used during this research work. It calculates waves and currents characteristics resulting from hydrodynamic forcings and takes into account vegetation effect on hydrodynamics (implemented in the model by means of its geometrical characteristics and a drag coefficient).

The proposed research work is both experimental (wave propagation experiments in a flume) and numerical (waves and 3D currents modelling). The 3 main tasks are:

  1. First step of the study is based on numerical modelling. Wave generation and propagation in the studied area will be simulated for a period of about 3 years. Simulation results will be analyzed and the wave regime characterized in order to define the features of the waves for the flume experiments.
  2. Experimental part of the study will rely on LNHE physical modelling facilities and skills. First, the postdoctoral researcher will contribute to identification of some materials that can be used as artificial vegetal mats, depending on technical and environmental specifications. The candidate will also contribute to the definition of an experimental protocol (methodology, metrology...). Experiments in a wave flume will then be carried out with one or several types of artificial mats. The aim is to study their effect on waves attenuation depending on different parameters (materials geometric characteristics, water depth, wave characteristics...). Based on the measurements, the quantification of a "drag coefficient" will be used to estimate ability of the tested materials to attenuate waves.
  3. The numerical model will be used to compute hydrodynamics in the area of interest when considering artificial seagrass mats installed on the lagoon bottom. These mats are supposed to limit hydrodynamic stresses in some target areas in order to favor natural seagrass development. Numerical simulations will contribute to artificial seagrass mats sizing and positioning optimization and thus technical specifications for a possible in situ demonstrator deployment will be proposed.

 Conditions

  • 12 months fixed-term job.
  • PhD required.
  • Skills: Hydrodynamics, numerical modelling.
  • An experience in experimental field would be appreciated as well as some knowledge on Fortran programming.

Laboratory

Laboratoire Hydraulique Saint-Venant LHSV
6, Quai Watier – 78400 Chatou (west suburbs from Paris)
France
RER A – Rueil-Malmaison station
http://www.saint-venant-lab.fr/saint-venant

Contact

Nathalie Durand (LNHE – EDF R&D)

Email: This email address is being protected from spambots. You need JavaScript enabled to view it.

Phone: (+33)1.30.87.77.50

Post offer: Post-doctoral position on parametric shape optimisation in hydraulic

Saint-Venant Hydraulics Laboratory, Université Paris Est
(joint research unit Ecole des Ponts ParisTech, EDF, Cerema)
Location: EDF Lab Chatou (France)

The Saint-Venant Hydraulics Laboratory is a joint research laboratory between Ecole des Ponts ParisTech (ENPC), Electricité de France R&D (EDF R&D) and Cerema. This gives it a unique position in the field of applied fluid mechanics, at the interface between academy and industry.

The Saint-Venant Hydraulics Laboratory seeks to fill a 18 month post-doctoral position in the
fields of parametric shape optimisation in application of hydraulic problems:

  • Structure. Shifting, resizing and rotating river and coastal protection structures to optimise selected flow variables to a desired stable state;
  • Zone. Identifying optimum zones to maximise sustainability and minimise costs.

The aim of this post-doctoral position is to provide an efficient numerical tool based on TELEMAC system able to deliver optimal shape design for hydraulic engineering applications. The purpose of the present work is to develop methods to solve the optimisation problem based on derivative-free and gradient algorithms. These algorithms will be tested on a simplified configuration and then on industrial cases.

Successful applicants should, by the start of the appointment, have a Ph.D., or equivalent experience in Applied Mathematics, Applied Physics, Computer Sciences or Mechanical/Civil Engineering. The use and development of high performance numerical computing are highly desirable. The researcher will be employed by Ecole des Ponts ParisTech (ENPC). Salary and benefits will be commensurate with qualifications and experience.

About Saint-Venant laboratory and the host research team

The Saint-Venant laboratory is actively engaged in fundamental and applied research, and its research activities are organised along three main themes:

  • Waves and marine hazards;
  • Modeling and simulation of free-surface flows;
  • Sediment transport and morphodynamics.

The laboratory has access to a unique variety of facilities, such as the 8000 m2 of experimental facilities and the development of high-performance Computational Fluid Dynamics models for environmental flows and transport processes, including the opensource Telemac-Mascaret modelling system. The laboratory is located on the EDF Lab site in Chatou (France), about 15 km from Paris downtown.

More information about our laboratory can be found at: http://www.saint-venant-lab.fr

How to apply

Applicants should send to Dr. Riadh Ata and Dr. Cedric Goeury (see e-mail addresses below) a cover letter and CV. All applications completed by March 31st, 2016 will receive full consideration, but candidates are urged to submit all required material as soon as possible. Applications will be accepted until the position is filled.

For additional information, please contact:

  • Dr. Riadh Ata [EDF and Saint-Venant Laboratory], e-mail: This email address is being protected from spambots. You need JavaScript enabled to view it.
  • Dr. Cedric Goeury [EDF], e-mail: This email address is being protected from spambots. You need JavaScript enabled to view it.

This position is now filled: Development of a new framework in Python for hydraulic-habitat models

IRSTEA, Aix-En-Provence, France

IRSTEA (National Research Institute of Science and Technology for Environment and Agriculture) is currently looking for a software development engineer in hydraulic-habitat models. A new open-source framework (middleware) is to be constructed between 1D-2D hydrodynamic world-class solvers (TELEMAC 2D, MASCARET 1D, or others) and fish habitat models.

A detailed job description (in French) can be found here.

Candidates can send CV and motivation letter to the address This email address is being protected from spambots. You need JavaScript enabled to view it. indicating the following reference: 2016-7-IR-HYAX

Researcher in hydrodynamic/sediment transport modelling (M/F)

The Luxembourg Institute for Science and Technology in Luxembourg is currently looking for a postdoctoral researcher in sediment transport modelling using Telemac-Mascaret.

The online version of the job description can also be found there: job description

Candidates interested in the above position can apply online via our website: www.list.lu

The application file should include:

  •  a CV, including a list of RDI outcomes (patents, prototypes, publications,...)
  • a motivation letter
  • contact information of 2-3 references
  • any other document you may think useful to be considered in your application file

For any questions regarding the scientific background of the project, feel free to contact Renaud Hostache (This email address is being protected from spambots. You need JavaScript enabled to view it.) or Christophe Hissler (This email address is being protected from spambots. You need JavaScript enabled to view it.)

Engineer specialised in hydraulic modelling with TELEMAC

The research domains of the Business Unit Water focus on water policy, surface and groundwater and modelling, urban water, sediment management, coastal zone management, water management systems and water related issues. Due to the increasing number of assignments, our Business Unit Water is seeking a engineer specialised in hydraulic modelling with TELEMAC

Your role:

  • You will be part of a multi-disciplinary team working in Antwerp on hydraulic modelling projects with Telemac – software.

Your profile:

  • University degree;
  • Your mother tongue is English or Dutch (or you are very fluent in one or more of these languages), you have the willingness to learn Dutch in a short period;
  • General knowledge of marine and coastal hydraulics is a must.
  • You have at least three years experience with numerical models, of which at least 2 years with TELEMAC.
  • A Ph.D. and/or peer reviewed publications in this field are an asset;
  • You have the ambition to grow further as an expert in numerical modeling, data processing and interpretation of measurements and model results and become an internal expert in your field;
  • You are technologically literate, an organizer and strive for quality and accuracy.
  • You are eager to demonstrate your skills in a competitive environment and convince the client of the added value of Antea Group;
  • You are willing to carry out a part of your work at a location other than our offices, either in Belgium (e.g. at the client's offices) or abroad (e.g. in the framework of an international project);
  • In addition to the required technical skills we are looking for a team player. Our new employee will think and plan along with our integrated water assignments.

Our offer:

  • We offer you an exciting technical function with extensive development opportunities and responsibilities in a thema-oriented and participatory company
  • An eager and dynamic team awaits your input in the development of integrated water projects in both domestic and foreign markets
  • Location: Antwerp , Belgium. Starting date : 2015, 1st of Jan.
  • An intensive supervision by experienced colleagues.

Interested? Send your motivation and CV to:

Doris D'hondt
Management Assistant Business Unit WATER
Buchtenstraat 9, B-9051 Ghent, Belgium
Tel. +32 (0)9 261 63 00
e-mail: This email address is being protected from spambots. You need JavaScript enabled to view it.
www.anteagroup.be

PhD post: Dynamics of the Amazonian mud bank system

Dynamics of the Amazonian mud bank system through spatial observation and hydro-sedimentary modeling: application to the coastal domain of French Guiana


Due to its geographical position near by the Amazon river estuary, French Guiana coastal domain is permanently under the influence of huge mud inputs from this river forming important mud bank structures migrating along the coastline. The migration of these mud banks continuously modulates the geomorphology of this coastal area characterized by an alternance of erosion and accretion zones. The understanding of the processes driving the migration of the mud banks represents a crucial issue at regional scale for various field of application (e.g. ecology, coastal management...). Recent studies have demonstrated the interest of using the information delivered by ocean color observation (MERIS, MODIS, SeaWIFs) for describing synoptically the Amazonian mud banks system. Despite their obvious interest, the latter medium spatial resolution data are however not fine enough for allowing a precise description of the hydro-sedimentary processes involved in this original geomorphological system.

This PhD was built in the latter context and will aim at providing a better understanding of the Guianese mud banks system through the development of innovative approaches coupling medium and high spatial resolution remote sensing observation and hydro-sedimentary modeling.

Specifically, a first of the PhD will consist in developing remote sensing observation of suspended sediment concentration in the coastal waters of French Guiana using medium (e.g. MERIS) and high resolution sensors (Landsat-8). This activity will need the development of inversion algorithms adapted to the high turbidity of this coastal domain and will provide innovative data especially regarding the high resolution sensors.

Further, a second part of the PhD activity will consist in the adaptation of a hydro-sedimentary model (TELEMAC) to the investigated region based on the in situ and satellite data gathered in the frame of the PhD that will complement existing data in the area.

In practice this PhD will be held at the CNRS-Guyane (Cayenne) and will couple in situ and programming activities that will benefit from the facilities already available in the laboratory.

Application: Resume and cover letter.

Contact: Antoine Gardel (This email address is being protected from spambots. You need JavaScript enabled to view it.), Vincent Vantrepotte (This email address is being protected from spambots. You need JavaScript enabled to view it.) & Nicolas Huybrechts (This email address is being protected from spambots. You need JavaScript enabled to view it.)

VIE proposal for the groundwater code ESTEL


Development of numerical methods in the groundwater flows and pollutant transfer code ESTEL within the open-source framework openTELEMAC-MASCARET

 - EDF R&D / LNHE and STFC Daresbury.

 

Context

The openTELEMAC-MASCARET system is an integrated suite of modules used to simulate free-surface flows involving flooding, wetting and drying as well as discharge of pollutants and release of freshwater. It also includes the 3D code ESTEL, which is a groundwater model for contaminant transfer in variably saturated flows. ESTEL has mainly been applied to study nuclear waste disposal safety assessments. Possible future applications of ESTEL deal with hydrogeological studies for safety assessment of industrial facilities, coupling surface and subsurface or watershed influence analysis. However, for this purpose, numerical developments in ESTEL are required, especially for large scale modeling with accurate precision.

Read more: VIE proposal for the groundwater code ESTEL

The open TELEMAC-MASCARET template for Joomla!2.5, the HTML 4 version.