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CLC Lubricants Co is a Geneva, IL-based company in the Energy and Utilities sector.
Solaris Oilfield Infrastructure, based in Houston, is focused on developing strategic assets and services utilized by companies engaged in the drilling and completion of oil and gas wells. The growing demand for products and services driven by the development of shale oil and gas throughout North America is creating an increasing need for infrastructure such as Solaris` Mobile Silo Systems.
Callon Petroleum is an independent oil and natural gas company focused on the acquisition, exploration and development of high-quality assets in the leading oil plays of West and South Texas. Our portfolio of highly productive acreage offers both a low risk profile and robust margins from a deep inventory of delineated, high-return drilling locations. This is what drives our differentiated performance in the oil and gas industry. Our people are our greatest resource. We strive to foster an entrepreneurial environment where we empower our people to be leaders and innovators. Mutual respect, collaboration, and drive are the hallmarks of the Callon culture.
Naranjo Civil Constructors is a Greeley, CO-based company in the Energy and Utilities sector.
FracGeo provides decision makers, asset managers, engineers and geoscientists with Shale Managementâ„¢ solutions for sweetspot and landing zone selection, adaptive asymmetric frac design, and completion and well spacing optimization in unconventional and tight reservoirs to improve asset ROR and well performance. The 3D seismically driven geological and geomechanical fracture modeling software and services focus on the estimation, throughout the reservoir volume, of stress gradients and subsurface properties affecting hydraulic fracturing and SRV development. These include rock geomechanical properties, pore pressure and natural fractures, and additionally their complex interaction with regional stress before and during hydraulic fracture stimulation. FracGeo`s fracture geomechanical simulator uses new and fast computational tools integrating geoscience and engineering in a way that has not been done before, allowing the completion engineer to quantitatively adapt the hydraulic fracture treatment based on these varying reservoir properties to achieve the optimal stimulation which accounts for variable stress gradients in the subsurface.