Extremely low settling velocity and particle sizing enables propping of microfractures deep within the complex fracture network
The unique characteristics of NANOMITE C ceramic microproppant reduces completion time, screen-out risks, and overall completion costs while improving the production contribution from all clusters and the reservoir matrix.
Hear from our customer
"I believe this product can be used in any reservoir, any basin, any type of completions. I already have approval to use it in every one of my wells."
- Independent operator, US land
NANOMITE C vs. Competing Products
NANOMITE C microproppant delivers, operational, performance, and cost benefits compared to alternative, along with minimized health concerns associated with exposure to dust.
NANOMITE C microproppant is easily incorporated in stimulation treatment designs. The microproppant is pumped as the fi rst proppant in a thin fl uid system at a low slurry concentration (0.10 to 0.25 lb/gal) to maximize the depth of the microproppant penetration into the fracture.
NANOMITE C can be pumped dry with conventional proppant
Dry Method (preferred):
Slurry Method (optional):
Webinar Series: New Microproppant Technology Improves Completion Efficiencies and Reservoir Contact
June 20-20, 2019
- Product Specifications
- Case Histories
- Related Resources
NANOMITE C microproppant overcomes fracture entry restrictions in the perforations and near-wellbore area through erosion of restrictions and improves near-wellbore diversion resulting in reduced surface treating pressures. Learn More
NANOMITE C ceramic microproppant increases long-term well productivity
NANOMITE C reduces treatment pressure, early screen outs and poor proppant placement Learn More
NANOMITE Technology Animation
NANOMITE C particles maintain production from microfractures and flatten the decline curve. Watch to see this technology at work. Learn More
Develop integrated solutions to optimize well performance and optimize returns with CARBO's innovative fracture and proppant technologies. Learn More