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Our solutions are based on the diagnosis, treatment design and deployment of novel chemical-in-gas dispersions, substantially increasing the stimulated reservoir volume and treatment durability in well productivity and recovery enhancement applications.
We have developed unique and proprietary solutions for well productivity and recovery enhancement in a variety of reservoir systems, supported by successful field experiences.
GaStim® methods are based on rigorous operative practices and state-of-the-art models for formation damage diagnosis and treatment design. Our analysis tool GasNautics allows the optimal emplacement of GaStim® solutions in terms of formulations, injection rates and volumes and soaking periods to maximize treatment’s durability and coverage.
The GaStim® technique is a novel well stimulation & EOR process in which the carrying system of the chemical agent is gas instead of liquid. It is proved that such an approach has positive implications that include but are not limited to:
– Enhanced treatment’s distribution promoted by conformance and diffusion effects
– Substantial increase of stimulated rock volume
– Tunable treatment’s adsorption maximizing durability and penetration
– Reduction of capillary effects favoring hydrocarbon Krs and flow back efficiency
Supported by operational procedures with the highest standards, GaStimTech brings stimulation & EOR practices to a next level.
GasNautics
GaStimTech® is actively seeking novel Well Stimulation, EOR and Carbon Capture methods to overcome technological barriers even in the most challenging environments. Through our own modeling tool, GasNautics, treatment design variables are fine tuned and on-site monitoring of GaStim® process variables is achieved. We are also developing nanotechnology solutions for reservoir permeability enhancement by clays dissolution GaStim®Reactive and multiscale fractures conductivity enhancement GaStim®Propp. GaStim®Carbon incorporates the most advanced developments in nanotechnology for substantial increase of CO2 geological storage capacity.