General information

Reference

2025-2683  

Position description

Category

F08 Geochemistry - Engineer / Researcher

Job title

Post-doctoral position - Development of COMPass-PhreeqC coupling

Contract

Post-doctoral contrat

Contractual hours

Full-time

Contract duration

16 months

Context and contributions of the position

Joining the French Geological Survey (BRGM) means becoming part of France's leading public institution for Earth Science applications bringing together 1,000 wholeheartedly committed experts across 29 bases in Mainland and Overseas France.

BRGM focuses on enhancing geological knowledge and understanding of surface and sub-surface-related phenomena, with a view to meeting the challenges of environmental changes through innovative projects with societal implications.

Lithium is a critical chemical element that plays a key role in the energy transition. It is one of the main components of batteries for electric vehicles, for which global demand continues to grow. According to the French Ministry of Ecological Transition, the supply of critical metals, and lithium in particular, will be increasingly strategic for the French economy of tomorrow. Among the potential sources of lithium identified in France, those from geothermal brines circulating in the deep reservoirs of the Upper Rhine Graben (URG) appear particularly promising. BRGM, the French geological survey, and Lithium de France, France's leading independent operator of geothermal heat and lithium, are combining their expertise in a scientific study of geothermal lithium resources in Northern Alsace.

Job description

Our research project focuses on gaining a better understanding of the mechanisms of natural lithium enrichment in geological reservoirs and in the thermal waters they contain, particularly in the URG area. The goal is to optimize prospecting methods and define the conditions for sustainable management of the geothermal lithium resource. Thanks to an experimental laboratory approach coupled with 0D to 3D numerical simulations, this project will contribute to a better understanding of the natural lithium cycle and assess how this resource could be developed in a sustainable way. By the end, this collaboration between BRGM and Lithium de France aims to preserve the natural environment of geothermal lithium, thereby securing a sovereign resource essential to the energy transition.
The exploitation of deep geothermal reservoirs involves hydrodynamic, thermal and chemical disturbances that need to be predicted to insure the long-term lifespan of these reservoirs. Numerical modelling is a powerful tool to assess these perturbations with non-linear effects. The 3D coupled thermo-hydrodynamic-geochemical simulations envisaged in the project will aim to account for the reciprocal effects of thermal, hydrodynamic and geochemical processes in the reservoir during its exploitation like, for instance, porosity/permeability changes due to dissolution/precipitation reactions whose kinetics are promoted by temperature. In the specific geological context of the URG, such simulations can be done by means of the development of a coupling between a thermo-hydrodynamic code adapted to fractured media, namely the ComPASS software , and a geochemical code, namely PhreeqC. ComPASS is based on recent developments to simulate multiphase and multicomponent hydrothermal transfers. Simulations can be carried out on unstructured meshes including complex fracture networks, in which the flow is two-dimensional, coupled to the three-dimensional flow in the porous matrix (hybrid model). For the geochemical code PhreeqC, modules (i.e., IPhreeqC and PhreeqC-RM ) have been specifically developed to facilitate its coupling with hydraulic and transport codes. Both ComPASS and PhreeqC codes had been developed to enable parallel calculations. The post-doctoral work is planned to implement a sequential non-iterative approach (SNIA) coupling of ComPASS and PhreeqC relying on PhreeqC-RM. In addition to managing the balance of materials, charges and heat during information exchange, the coupling must consider that changes in fluid chemistry can induce dissolution/precipitation reactions affecting rock porosity and permeability, and consequently fluid circulation.

Profile

Requested start date : 01/03/2025
Education : PhD
Experience : 1 - 5 years

The applicant will mobilize the following skills and qualities:
- teamwork,
- writing skills,
- good Python programming skills (knowledge of C++ will be a plus)
- experience in modelling of coupled processes (experience in reactive transport modelling and/or hydrothermal modelling will be a plus).

Working conditions

This position involves periodic travel in France and abroad.
Within an environment that promotes a healthy work/life balance, particularly thanks to remote working, BRGM prides itself on providing a friendly and caring place to work.
Awarded HRS4R certification in 2021, we are committed to supporting you throughout your career at BRGM. We provide you with a range of tools for developing your skills and expertise, with scope for career progression and geographic mobility.

At BRGM, you will gain from such benefits as a 13th month salary, days off compensating for unpaid overtime, a company canteen, sports facilities as well as holiday and leisure options.

At BRGM, you are guaranteed a transparent recruitment process. It is easy to apply! Please send us your application (up-to-date CV and cover letter) by 16/02/2025.
Because diversity matters to us at BRGM, all of our job vacancies are open to everyone!
We will examine your application as soon as the closing date has passed. If your application is short-listed, we will contact you for recruitment interviews during which you will have the opportunity to talk with the recruitment and HR departments as well as a cross-functional department.

Position location

Job location

France, Centre-Val de Loire, Loiret (45)

Location