Carbon capture and storage market intelligence
Structured intelligence across the full CCUS chain.
Carbon capture, utilization, and storage has reached an inflection point. After decades as a niche technology, CCUS is now being scaled as a standalone climate mitigation tool across power generation, heavy industry, and direct air capture. The US IRA expanded the 45Q tax credit to $85/tonne for geological storage, the EU Innovation Fund is funding industrial CCS, and national governments from Norway to Japan are developing dedicated CO₂ transport and storage infrastructure.
The CCUS project pipeline has expanded rapidly, but execution complexity remains high. Capture technologies must be integrated with existing industrial processes. CO₂ transport requires purpose-built pipelines or shipping infrastructure. Geological storage demands extensive characterization, permitting, and long-term liability frameworks.
Delphidata maps the CCUS value chain as a connected network. Capture facilities are linked to the industrial emitters they serve, the transport infrastructure that moves CO₂, and the storage sites where it is permanently sequestered. Each project carries structured data on capture technology type, capture capacity in megatonnes per annum, transport modality, storage geology, and development stage.
The Delphi dashboard provides interactive CCUS coverage including project list and analysis, industry analysis with market sizing and technology trends, and stakeholder mapping across the full value chain.
What Delphidata tracks.
Structured data across the full value chain.
Capture facilities
Industrial point-source capture (cement, steel, chemicals, refining, power generation), BECCS, and DAC. Mapped with capture technology, nameplate capacity (Mtpa CO₂), energy penalty, capture rate, and integration configuration.
Transport infrastructure
Dedicated CO₂ pipelines, repurposed natural gas pipelines, ship-based transport, and rail/truck logistics. Pipeline data includes route, diameter, capacity, and operating pressure.
Storage sites
Saline aquifer formations, depleted oil and gas reservoirs, basalt formations, and EOR sites. Mapped with geological characterization, storage capacity estimates, injection rate, permitting status, and monitoring requirements.
Hub and cluster developments
Multiple industrial emitters connected to shared transport and storage infrastructure. Track which hubs are forming, which emitters are committed, and how shared investment is structured.
Policy and regulation
US 45Q tax credit, EU ETS pricing, Innovation Fund awards, national CCS regulatory frameworks, storage licensing regimes, and carbon contracts for difference programs.
Who uses this intelligence.
Industrial emitters
Evaluate technology options, benchmark capture costs against carbon pricing, identify transport and storage infrastructure in their region, and assess the competitive landscape of capture technology providers.
Storage developers and transport operators
Identify demand for CO₂ infrastructure, track competing hub developments, and assess the commercial viability of transport and storage investments.
Investors and project finance teams
Screen CCUS opportunities by technology maturity, policy environment, and commercial structure. The FID Tracker and Investment Tracker provide visibility into where capital is being committed.
Policy advisors and government agencies
Track how CCS incentive programs translate into actual project development, compare framework effectiveness across jurisdictions, and identify infrastructure gaps requiring public intervention.