CO2 storage operators need physics-grade injectivity, cement integrity and scale management to meet regulatory MMV obligations. KEMISIM aligns EOR screening design with how CCS and CO2 storage operators actually plan, execute and audit field programs.
EOR screening evaluates whether a candidate reservoir is technically and economically viable for chemical, gas, thermal or microbial enhanced oil recovery — using analogues, fluid-rock interaction physics and rapid economic ranking. The way CCS and CO2 storage operators apply EOR screening differs from other segments — driven by their portfolio scale, governance model and the timelines under which they take engineering decisions.
KEMISIM EOR Screening Software combines analogue databases with physics-based screening to take asset teams from concept to ranked pilot candidates in a single workshop cycle. For CCS and CO2 storage operators, this translates into faster design cycles, auditable engineering and a defensible technical narrative for partners, regulators and lenders.
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.
Yes. KEMISIM has been used by CCS and CO2 storage operators for EOR screening design, training and post-job evaluation across multiple regions.
Yes. Direct licensing, hybrid engineering-plus-software engagements and full project delivery are all supported.
Every design decision is traceable to inputs, assumptions and physics — producing documentation CCS and CO2 storage operators can defend to partners, regulators and finance.
Yes. Workshops, certification and structured capability-transfer programs are part of most enterprise engagements.
A KEMISIM engineer will walk you through the workflow on data that looks like yours — no slides, no generic decks.