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Discovery to Impact

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INDUSTRIAL AFFILIATES PROGRAMS

Industrial Affiliates Programs provide a unique opportunity for the private sector to partner with UT researchers to explore research topics of mutual interest. Companies who join these programs gain access to state-of-the-art research facilities, world-class university talent, and any data and publications shared among members in exchange for an annual membership fee. Because Industrial Affiliates Programs are dedicated to fundamental, early-stage research, members can engage with the university’s research programs, students, and faculty without paying institutional indirect costs or overhead.



For more information on joining or establishing an Industrial Affiliates Program, contact our Licensing and Collaborative Research team.

  • GeoH2

    Energy – Renewable

    GeoH2 conducts geoscience and economic research to facilitate and advance the development of a hydrogen economy at scale. GeoH2 connects industry professionals in the energy and power sector with researchers in energy geoscience, subsurface engineering, and energy economics to conduct subsurface hydrogen storage research and technology development, perform market feasibility analyses, and explore novel subsurface concepts related to hydrogen.

    Brochure Website

  • Well Construction, Decommissioning, and Abandonment

    Energy – Reservoir Drilling

    The primary goal of the Well Construction, Decommissioning, and Abandonment (CODA) program is to research and develop new materials, systems, methods and computational models for successful, cost-effective, long-term well abandonment.

    Brochure Website

  • Gulf of Mexico Basin Depositional Synthesis Project

    Energy – Reservoir Geophysics

    The Gulf of Mexico Basin Depositional Synthesis Project (GBDS) is a continuing industry-supported project that studies the Cenozoic and Mesozoic fill in the Gulf of Mexico. The goal of GBDS is to construct and maintain a detailed, comprehensive and integrated synthesis of the depositional history of the Gulf basin. GBDS has defined and mapped a gulf-wide Mesozoic and Cenozoic stratigraphic framework that provides its members context for regional play definition, deep slope and basin reservoir prediction, lease evaluation, and shelf carbon storage site evaluation. Well and seismic reflection correlations between continental margin and deep basin stratigraphies which allows for the investigation of paleogeography, source to sink sediment routing, and the spatial/temporal distribution of highest quality reservoir, source and seal rock. The project makes effective use of well logs, 2D and 3D seismic data, detrital zircon geothermochronology, subsurface pressure data, detailed sedimentological descriptions, and source rock analyses.

    Brochure Website

  • Comparing Electricity Options

    Energy – Global Warming & Environmental

    Comparing Electricity Options (CEO) is designed as a data-driven analysis of local and global environmental impacts, including greenhouse gas and local emissions, land and water pollution and use, associated with supply chains and lifecycle of main electricity generation options. There are evident trade-offs among society’s goals of mitigating climate change, improving local environments, and providing reliable and affordable energy that can sustain a healthy economy with gainful employment for the population. Balancing these often-conflicting objectives, while considering costs at the system and end-user levels, will benefit from our study. Our goals are to create tools that support energy sector decision and policy makers with their overall economic and environmental assessments to manage supply chain and environmental, social, and governance risks, based on current and projected commodity demands, highlight where innovation can add value to their available options, and inform policies that drive measurable improvement and encourage optimal innovation

    Brochure Website

  • Texas Carbon Management Program

    Energy – Global Warming & Environmental

    This research program is focused on the technical obstacles to the deployment of CO2 capture from flue gas by amine absorption/stripping. The primary objective is to develop and demonstrate evolutionary improvements to monoethanolamine scrubbing for CO2 capture from coal- and gas-fired flue gas, including power plants and other sources. The strategy is to apply chemical engineering science to understand and quantify the performance of MEA and piperazine absorption/stripping, then to develop innovative, evolutionary improvements.

    Brochure Website

  • UT GeoFluids

    Energy – Reservoir Geology & Simulation

    UT GeoFluids studies the state and evolution of subsurface pressure, stress, deformation and fluid flow through experiments, models, and field study. Our findings are used to design stable and safe drilling programs, to predict hydrocarbon migration and entrapment, and to determine the seal capacity for C02 sequestration.

    Brochure Website

  • Fracture Research and Application Consortium

    Energy – Reservoir Geology & Simulation

    The Fracture Research and Application Consortium (FRAC) pursues fundamental and applied research toward the successful characterization, prediction, and simulation of naturally and artificially fractured reservoirs. We take a combined approach that integrates structural geology and diagenesis with reservoir engineering and geomechanical modeling. This combination leads to fundamental understanding of fractures and fracture processes in fractured reservoirs of all types at a range of scales. Our goal is improved prediction of the geometry, spatial distribution, and hydraulic properties of faults and fractures at all scales and their influence on drilling and completions, fluid migration, production, and injection. Results are relevant to geothermal facility design, oil and gas exploration and development, including unconventional reservoirs, and deep fractured rock hydrogeology.

    Brochure Website

  • Carbon Utilization & Storage

    Energy – Global Warming & Environmental

    The goal of Carbon Utilization, Storage, and Transportation (CARBON UT) is to develop novel solutions to the energy transition that satisfy energy demands, carbon balance, economic feasibility, and public acceptance. We focus on developing basic technologies needed in the energy transition, such as CO2 capture and direct conversion, geological carbon sequestration, bridging technologies for energy with less or no carbon emission, hydrogen production and supply chain, and renewable energy at low cost.

    Brochure Website

  • Gulf Coast Carbon Center

    Energy – Global Warming & Environmental

    Gulf Coast Carbon Center (GCCC) works on technical issues related to long-term geologic storage of CO2 in porous media after CO2 has been captured to prevent build-up of this gas in the atmosphere and ocean. We work on regional and site-specific characterization of storage resources and the parameters relevant to storage and confinement; on multi-phase fluid flow monitoring; and on monitoring to test the correctness of characterization and modeling. We work in the field and in labs. We also do outreach to a wide public, from K-12 students to industries and governments us and globally.

    Brochure Website

  • Rig Automation and Performance Improvement in Drilling

    Energy – Reservoir Drilling

    The Rig Automation and Performance Improvement in Drilling (RAPID) industrial affiliates program is an interdisciplinary group of researchers and students from multiple engineering disciplines (petroleum, mechanical, civil, computational, etc.) whose objective is to deliver novel solutions for any and every aspect of well construction with the overall goal of reducing drilling/completion time and cost and reducing the number of individuals at the rig site.

    Brochure Website

  • Construction Industry Institute

    Construction

    Construction Industry Institute (CII), based at The University of Texas at Austin, is a consortium of more than 130 leading owner, engineering-contractor, and supplier firms from both the public and private arenas. These organizations have joined together to enhance the business effectiveness and sustainability of the capital facility life cycle through CII research, related initiatives, and industry alliances.

    Brochure Website

  • Digital Rock Petrophysics

    Energy – Petrophysics

    The Digital Rock Petrophysics Industrial Affiliate Program develops new methods of petrophysical characterization, data preservation, simulation automation based on multiscale imaging of porous materials and relating them to laboratory and field measurements. Our research objectives include (1) improving relative permeability, wettability description and electrical properties in heterogeneous formations such as carbonates and unconventionals and (2) establishing multiscale imaging and characterization workflows that unravel fundamentals of the relevant transport processes. In the process, we will create a rock catalog based on Digital Rocks Portal (https://www.digitalrocksportal.org/) that hosts benchmarks for machine/deep learning rock characterization algorithms and relates digital rocks petrophysics results with measurements, well log interpretation and field observation.

    Brochure Website

Discovery to Impact partners with researchers, inventors, investors, and entrepreneurs at every step of their journey in relentless pursuit of changing the world.