RESA III - CO2 Mobility and Subsurface Transport
The University of Texas at Austin · Austin, TX · 6 days ago
Human Resources$72k–$76k/yrFull-time
About the role
This is a one-year, fixed-term, in-person position located at the J.J. Pickle Research Campus in North Austin. The successful candidate will join an elite, fast-moving, and tightly integrated research cohort at the Bureau of Economic Geology (BEG), UT Austin.
Responsibilities
- Operate and modify advanced gas expansion/liquid transient flow systems to measure CO2 (gas and supercritical phase) mobility, effective permeability, molecular diffusion, and adsorption.
- Quantify rock-fluid interactions and transport degradation under dynamic net confining stress environments to evaluate reservoir stress-sensitivity.
- Upscale laboratory-derived petrophysical, diffusion, relative permeability, and stress-dependent parameters into compositional reservoir models to perform robust sensitivity and production forecast studies.
- Work closely with the lab formulation team to translate fluid-interface mechanics into numerical transport constraints, preparing technical frameworks for upcoming field-scale pilot deployments.
Requirements
- MS in Petrophysics, Petroleum Engineering, Geomechanics, Chemical Engineering, Geosciences, or a closely related geosystems discipline and at least 2 years experience.
- Proven experimental expertise in high-pressure core experiments, petrophysical measurements (effective permeability, porosity), or fluid transport phenomena.
- Deep fundamental understanding of fluid transport mechanisms in tight/unconventional formations (diffusion, adsorption, Darcy vs. non-Darcy flow).
- Strong capability in data analysis, scripting, or laboratory automation (Python, MATLAB, or LabVIEW).
Qualifications
- A PhD in the required disciplines is strongly preferred.
- Extensive proficiency with commercial compositional reservoir simulators (e.g., CMG GEM, ECLIPSE) and a proven track record of history-matching laboratory core-floods.
- Experience or strong fundamental training in Geomechanics (stress-strain relationships, fracture conductivity, or rock mechanics).
- Experience utilizing digital rock physics, image analysis, or CT scanning to evaluate multi-phase flow displacement.
Skills
- Expertise in high-pressure core experiments, petrophysical measurements, and fluid transport phenomena.
- Strong data analysis and scripting skills.
- Proficiency with commercial compositional reservoir simulators.
- Experience with digital rock physics, image analysis, or CT scanning.
- Understanding of fluid transport mechanisms in tight/unconventional formations.
- Knowledge of Geomechanics (stress-strain relationships, fracture conductivity, or rock mechanics).
Benefits
- Flexible working hours.
- Professional development opportunities.
- Collaboration with leading industry and federal stakeholders.
- Competitive salary range of $72,000 - $76,000.
Pay
$72,000 - $76,000
Schedule
40 weekly scheduled hours