Riteks CC-100 is an improved modified choline chloride product for use as a liquid potassium chloride (KCl) substitute in drilling, stimulation and completion fluids. It has the ionic balance required to provide clay control protection in the reservoir, performing as well as choline chloride by itself and at a cost savings. Clays contain cations, typically sodium, within their crystalline layers that occupy base exchange positions or sites in the clay structure (lattice). Upon contact with water, these cations are solubilized resulting in clay instability and swelling. When clays swell, the permeability of the formation is diminished, which impedes production. Clay stabilizers reduce clay swelling through ion exchange, where the clay stabilizer provides a cation to replace the native, solubilized clay cation, sodium.
Riteks Clay Stop is an improved modified choline chloride product for use as a liquid potassium chloride (KCl) substitute in drilling, stimulation and completion fluids. It has the ionic balance required to provide clay control protection in the reservoir, performing as well as choline chloride by itself and at a cost savings.
Riteks Clay Stabilizer-RS 70 is a liquid substitute for potassium chloride in oilfield applications. This permanent clay stabilizer functions by inhibiting clay swelling and mitigation, and shows superior performance at much lower levels than KCI. Clay Stabilizer-RS 70 is compatible with other drilling auxiliaries and is non-toxic and biodegradable.
Low Temperature Activators work in combination with the non-Hazardous Peroxide breakers to provide a predictable & controlled break, by reducing the working temperature range down to 165°F (73.9°C). This system has no effect on fluid viscosity during the pumping phase and can be tailored to affect the length of the break profile.
Non-hazardous, non-DOT regulated liquid peroxide breakers that provide predictable, controllable breaks at temperatures from 190-250°F (87.8-121.1°C) with crosslinked and FR fluids. These breakers offer service companies a safer experience with increased ease of pumping, all while increasing functionality, predictability, and control over a key temperature range. Because of the breaking mechanism of the free radical, rebound/reheal effect is much less of an issue with crosslinked fluids.
Zirconium crosslinkers used in combination with both guar and derivatized guars in flowback/produced water to create a viscous gel for transporting proppant for neutral pH applications. These products will work in produced water as high as 300,000 TDS.
Zirconium crosslinkers used in combination with derivatized guars to create a highly viscous gel for low pH and very high temperature (>300°F / 148.9 °C) fracturing applications. These crosslinked fluids improve fracture initiation & extension, improve solids carrying capacity & proppant transport, and open the formation to improve acid penetration distance.
Titanate crosslinkers used in combination with guar to create viscous gels with neutral to high pH fluid systems in transporting proppant. Technology can also be used in crosslinking polymers in drilling & completion applications that need highly viscous gels.