Strategic Intelligence: Carbon Capture and Storage

Publisher GlobalData

Published Jun 25, 2025

SKU # GBDT20187080

Description

Strategic Intelligence: Carbon Capture and Storage

Summary

Carbon capture, utilization, and storage (CCUS) is a critical technology for achieving emissions reduction, particularly in hard-to-decarbonize sectors like thermal power, cement, and steel. By capturing CO₂ emissions and either storing them underground or converting them into useful products, CCUS can significantly reduce industrial emissions. Besides, the integration of carbon capture with renewable energy sources, such as bioenergy, has led to the development of carbon-negative solutions. The energy sector, and especially the oil and gas companies have been at the forefront in developing and deploying carbon capture technologies. They have also contributed towards innovations in solvent materials, capture methods, and storage techniques to make CCUS a viable option for large-scale deployment.

Scope

This report assesses the worldwide potential for CCS deployment across the energy sector.
It highlights the various industry, technology, and regulatory trends influencing the CCS theme.
It evaluates the global active and upcoming CCS projects in the energy sector.
It analyses the CCS value chain and identifies major players across different elements of the value chain.
The report also provides an overview of the competitive positions held by leading oil and gas players in the CCS theme.

Reasons to Buy

Know about CCS and its potential role in decarbonizing the energy sector
Identify the key trends supporting the global adoption of CCS technologies.
Review the adoption of CCS across different segments within the energy sector.
Understand the CCS value chain and identify the oil and gas leaders in this space.
Identify and benchmark key oil and gas players in the CCS theme.

Executive Summary: Players; Technology Briefing; GlobalData’s energy transition framework; The need for carbon sequestration; The CCS process – removing carbon emissions from industrial facilities; Major CO₂ emission sources across the energy sector; Types of carbon capture technologies; Disposal of captured CO₂; Trends; Oil & gas sector trends; Technology trends; Policy and regulatory trends; Industry Analysis; Global CCS capacity outlook; Regional analysis of CCS capacity; Major upcoming capture projects
CCS capacity by sector: Natural gas and the role of CCS in decarbonization; Enabling the hydrogen economy through CCS integration; Decarbonizing power generation with CCS solutions; Biorefineries targeting negative emissions fuels; Direct air capture; Decarbonizing cement production with CCS; Permanent storage is emerging as the dominant pathway for captured CO₂; Key CO₂ storage projects; Competitive landscape; Value Chain; CO₂ emission source; CO₂ capture and separation; CO₂ transportation; CO₂ end product
CCUS services: Companies; Oil and gas companies; Service companies; Sector Scorecards; Integrated oil & gas companies scorecard; Who’s who; Thematic screen; Valuation screen; Risk screen; Glossary; Further Reading; GlobalData reports; Our Thematic Research Methodology; About GlobalData; Contact Us

List of Tables

Table 1: Oil & gas sector trends

Table 2: Technology trends

Table 3: Policy and regulatory trends

Table 4: Global CCS capacity outlook

Table 5: CCS capacity by sector

Table 6: Oil and gas companies

Table 7: Service companies

Table 8: Glossary

Table 9: GlobalData reports

List of Figures

Figure 1: Who are the leading players in the CCUS theme, and where do they sit in the value chain?

Figure 2: Where does CCS fit in GlobalData’s energy transition framework?

Figure 3: How does CCS work?

Figure 4: The different technologies for capturing CO₂

Figure 5: The global energy sector will witness a significant rise in the carbon capture capacity by 2030

Figure 6: The bulk of the 2030 capture capacity is from projects that have passed the feasibility stage

Figure 7: Regional analysis of CCS capacity

Figure 8: North America leads in upcoming capture capacity

Figure 9: The US will lead in global CCS capacity additions by 2030

Figure 10: Power plants and hydrogen production will see greater deployment for CCUS in the energy sector

Figure 11: CCS capacity by 2030 in natural gas-dependent sectors

Figure 12: CCS capacity is projected to grow significantly in standalone hydrogen production plants by 2030

Figure 13: CCS will facilitate the decarbonization of coal and gas-fired power plants

Figure 14: Iowa and South Dakota lead in upcoming CCS capacity in the US by 2030

Figure 15: US leads in DAC projects

Figure 16: CCS deployment in the cement sector is set to accelerate between 2025 and 2030

Figure 17: End-purpose of upcoming CCS projects

Figure 18: The US and Norway hold the most carbon storage projects

Figure 19: Leading companies for carbon capture and storage capacity by 2030

Figure 20: The CCS value chain

Figure 21: The CCS value chain: CO₂ capture and separation

Figure 22: The CCS value chain: CO₂ transportation

Figure 23: The CCS value chain: CO₂ end product

Figure 24: The CCS value chain: CCUS services

Figure 25: Who does what in the integrated oil & gas companies space?

Figure 26: Thematic screen

Figure 27: Valuation screen

Figure 28: Risk screen

Figure 29: Our five-step approach for generating a sector scorecard

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