CCS and Power Systems

Carbon Storage - Geologic Storage Technologies and Simulation and Risk Assessment

The Coal-Seq III Consortium: Advancing the Science of CO2 Sequestration in Coal Seam and Gas Shale Reservoirs

Performer: Advanced Resources International, Inc.

Project No: FE0001560

Program Background and Project Benefits

Through its core research and development (R&D) program administered by the National Energy Technology Laboratory (NETL), the U.S. Department of Energy (DOE) emphasizes monitoring, verification, and accounting (MVA), as well as computer simulation, of possible carbon dioxide (CO2) leakage at CO2 geologic storage sites, along with risk assessment of those sites. As a part of these efforts, Advanced Resources International, Inc. (ARI) has been leading the Coal-Seq industry/government R&D collaborative project since 2000, with cooperating industry partners BP America, BG Group, and Sasol Petroleum International, among others. The primary goal of the project was to understand the technical/economic feasibility and application potential of carbon storage in coal seams.

As carbon capture, utilization, and storage (CCUS) capacity increases and projects become commercial beyond 2020, the importance of accurate geologic models and robust risk assessment protocols will become increasingly important to project developers, regulators, and other stakeholders. NETL’s Carbon Storage Program aims to continue improvements to the models and risk assessment protocols. Specific goals within the Simulation and Risk Assessment Focus Area that will enable the Carbon Storage Program to meet current programmatic goals are to (1) validate and improve existing simulation codes which will enhance the prediction and accuracy of CO2 movement in deep geologic formations to within ± 30 percent accuracy, (2) validate risk assessment process models using results from large-scale storage projects to develop risk assessment profiles for specific projects, and (3) develop basin-scale models to support the management of pressure, CO2 plume, and saline plume impacts from multiple injections for long-term stewardship in major basins of the United States. The knowledge gained from this project will benefit the energy industry by providing verifiable and valid storage mechanisms in coal reservoirs, as well as a new source of clean gas supply. The ability to take advantage of these opportunities will be facilitated by the development of valid geochemical and geomechanical predictive modules for coal seam and methane behavior under CO2 geologic storage as described above.


The primary objective of the DOE’s Carbon Storage Program is to develop technologies to safely and permanently store CO2 and reduce Greenhouse Gas (GHG) emissions without adversely affecting energy use or hindering economic growth. The Programmatic goals of Carbon Storage research are: (1) estimating CO2 storage capacity in geologic formations; (2) demonstrating that 99 percent of injected CO2 remains in the injection zone(s); (3) improving efficiency of storage operations; and (4) developing Best Practices Manuals (BPMs). The primary project goal of Coal-Seq III is to develop a set of robust mathematical modules to accurately predict how coal and shale permeability and injectivity change with CO2 injection. These modules will correctly account for multi-component system pressure, volume, and temperature (PVT) behavior. Overall, Coal-Seq III will help to improve CO2 storage operation efficiency by further understanding the dynamics of CO2 storage in coal seams and shales.

Project Details