Design and deployment of unique gas-based technology
A novel technology for water control, based on a gas-based RPM
GaStim®PM technology is a gas-based / gas mobility enhancer / water control agent. It is designed for tight reservoirs in which the main flowing phase is gas in the presence of mobile water.
Improves Gas effective permeability in the presence of water, far away from wellbore. Avoids water bank behind treatment front.
GaStim®PM is able to reach zones far from the wellbore (50+ ft) where shear effects are minimum, thus maximizing treatment’s durability.
Tested at laboratory conditions in High and low K sandstone reservoirs affected by water intrusion
An innovative technology for condensate bank recovery
Interacts with the precipitated condensate, increasing the mobility of both the gas and the condensate phases.
Promote higher vaporization and liquid displacement efficiencies, enhancing hydrocarbon relative permeabilities and final liquid recoveries.
GaStim®Cond is deployed deep into the reservoir and enough time is given for it to diffuse and interact with the precipitated condensate
Increased Stimulated Rock Volume (SRV) and thus, bigger condensate recovery
Deep Reservoir Organic Scales Control
A novel gas-based asphaltene control technology promoting deeper treatment’s emplacement, longer durability and better distribution provided by the unique properties of GaStim® method.
GaStim® Solv is based on laboratory and field results showing more than 80% recovery over damaged permeability.
GaStim® Solv system is designed to sustain incremental production for several months after application promoting changes in base decline trends.
Laboratory results demonstrate more than 80% recovery of damaged permeability
An innovative technology for IOR/EOR that improves conformance
GaStim®Div is a gas dispersible foam technology allowing significant simplifications in the operation logistics at higher cost-efficiencies for the deployment of IOR/EOR foams in gas injection-based projects.
Substantial increase of diversion zone for in-depth reservoir conformance control
Less adsorption of the chemicals for optimal emplacement and durability
Our Technology shown considerable changes in injectivity performance and GOR control during treatments in matrix dominated reservoirs
