Hydraulic Fracturing Design for CCS & CO2 Storage Operators

What is hydraulic fracturing design?

Hydraulic fracturing design is the engineering workflow that selects fluid, proppant, rate and stage geometry to create propped fractures of the right length, conductivity and complexity for a target reservoir — balancing production gain against cost and risk. The way CCS and CO2 storage operators apply hydraulic fracturing design differs from other segments — driven by their portfolio scale, governance model and the timelines under which they take engineering decisions.

Typical use cases

• →Tight sandstone and unconventional plays
• →Multi-stage horizontal completions
• →Re-fracturing of mature wells
• →Acid fracturing in carbonates

How CCS and CO2 storage operators get value from KEMISIM

CO2 storage operators need physics-grade injectivity, cement integrity and scale management to meet regulatory MMV obligations. KEMISIM is structured to drop into the engineering workflows CCS and CO2 storage operators already run — without forcing platform changes.

• Engineering aligned with CCS and CO2 storage operators' governance cycle
• Integration with in-house reservoir and well databases
• Defensible documentation for partners and regulators
• Capability transfer to in-house engineering teams

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