CARBON CAPTURE, UTILIZATION, AND STORAGE CCUS
We provide comprehensive technical services for our clients, including preliminary project design, project planning, factory construction plans, complete equipment supply, installation, and commissioning, therebyachleving turnkey projects.
CCUS involves capturing carbon dioxide, usually from large point sources like power plants or industrial facilities that use fossil fuels or biomass as fuel. Once captured, the carbon dioxide is compressed and transported via pipelines, ships, railways, or trucks if not used on-site. It can be utilized for various purposes or injected into deep geological formations such as depleted oil or gas reservoirs or saline aquifers.
The company has the capability to design, build, operate, and manage full-process CCUS projects. With over ten years of experience in CO2 capture and resource utilization research, the company has developed comprehensive solutions for 200,000, 500,000, and 1,000,000-ton CCUS projects, along with large-scale carbon capture equipment sets.
What is Carbon Capture, Utilization, and Storage (CCUS)?
ADVANTAGE
CCUS must expand rapidly to play a role in reaching climate goals. At present, the averagelarge-scale CCus project captures and stores around 1 Mt of carbon dioxide per year. Early CCUshubs are aiming at around 5-10 Mt a year or more by 2030 and expect exponential growth.Future hubs are likely to be even larger.
Faster scale up
Collective transport and storage infrastructure brings economies of scale in construction andoperations, specifically in compression, dehydration, pipeline and storage. At the same time,shared lessons and standardization will bring down the costs of carbon capture and reduce risk.In the early stages of appraising potential new storage sites for hubs, sharing costs and risksmake it simpler to get started in areas that have not been developed
Lower costs and investment risks