We characterize the physical and mechanical properties, chemistry and structure of the subsurface to determine the feasibility of subsurface storage prospects and inform effective location screening. Our multidisciplinary team brings an understanding of where to place injection wells to best navigate cap-rock, sealing capacity, fault-seal integrity, fracture limits, and stress states to safely utilize your reservoir.
We utilize rock physics and 4D analysis to determine the acoustic/elastic rock properties of reservoirs and their sensitivities to fluid/CO2 saturations to give the greatest understanding of the impacts from injecting. Our real-time monitoring capabilities enable clients to effectively predict, track and monitor plumes and other geomechanical changes to the subsurface over time.
Ikon Science can perform feasibility screening of basins with geothermal resource potential. Utilizing our bespoke workflows we deliver an understanding of where overpressure is predicted, the permeabilities of the reservoir formations, methane saturation of the formation brine and formation temperatures.
Re-utilization of existing fields and infrastructure requires an understanding of the potential impacts of compaction from any structures on the transformed subsurface. Ikon’s rock physics and geomechanical expertise can determine site feasibility and define parameters for safe and sustainable engineering of structures in over-field environments.
Our experts help teams evaluate key subsurface risks and opportunities, from storage capacity and injectivity to pressure, permeability, saturation, and temperature.
Using RokDoc, we develop tailored workflows to support activities ranging from real-time drilling pressure monitoring to plume prediction and technical due diligence.
Our Digital Services team also helps capture, manage, and deliver subsurface data and project assets through the Curate subsurface data management platform.
These Studies include petrophysics, reservoir modeling and simulation of CO2/hydrogen plume movement
Injection for storage and Enhanced Oil Recovery
Storage site screening and characterization for potential CO2/Hydrogen storage and third-party verification
Assessment and mitigation of the risks associated with CO2/Hydrogen leakage
Drilling, completion, and injection tests of CO2/Hydrogen wells
Over-field Geomechanical Feasibility/compaction studies to define the feasibility of structures such as wind turbines over existing fields
