Engineered Gas Compressors for your Carbon Capture, Utilization, and Storage (CCUS) Requirements

Our engineered solutions are used throughout the entire value chain, supporting critical functions at each stage:

• Flue Gas Compression: Designed for dirty or corrosive gas feeds with typically low discharge pressures but very high flow volumes.

• Fertilizer and Urea Synthesis: Equipment supporting 80–200 bar operation with references in India, Brazil and South Korea.

• CO₂ Transport: Compression or pumping solutions for 2000–2300 psia pipeline networks.

• Sequestration: Units capable of 150 bar and above, depending on geology and reservoir conditions.

• Utilization: CO₂ utilization covers several industrial processes. Enhanced oil recovery operates at 130 to 250 bar. Cement plants incorporate CO₂ in emerging conversion routes. Synthetic fuel production, including Lanzatech’s bio‑fermentation, combines CO₂ with hydrogen to create hydrocarbons and depends on significant renewable power. CO₂ also feeds carbon‑based chemical production such as soda ash and similar products.

• Blue Hydrogen: “Blue hydrogen” incorporates carbon capture with traditional steam methane reforming H2 production. In addition to flue gas separation and compression, the natural gas feed compressor is very similar to the hundreds of fuel gas boosters that Ingersoll Rand has built for power plant applications

• Metanization: Metanization is a circular process that converts organic waste into biomethane, a clean and renewable alternative to fossil gas. By integrating captured CO₂ from biogas plants with green hydrogen produced through electrolysis, e‑methane is generated, a fully sustainable synthetic gas. This innovative approach boosts plant efficiency, reduces emissions, and supports a smart, future‑proof energy transition.

• Greenhouse CO₂: Greenhouse CO₂ application enhances plant growth by supplying purified carbon dioxide directly into the cultivation environment. By enriching the atmosphere inside the greenhouse, photosynthesis becomes more efficient, leading to stronger plants, higher yields, and improved crop quality. Using recovered and purified CO₂ creates a sustainable, cost‑effective solution that boosts productivity while supporting environmentally responsible agriculture.

• Custom or Standard Designs: Tailored TA, NX and CVG compressor packages available to meet specific project and application needs.
• Flexible Installation Options: Single‑lift installation for smaller compressor frames and modular assembly options for larger, more complex CO₂ capture projects.
• Configurable for Any Requirement: Flexible layouts and system configurations designed to align with the unique technical and operational demands of CO₂ capture processes.
• Robust Material Choices: Casing materials offered in ductile iron, carbon steel, or stainless steel to ensure durability and compatibility with CO₂‑rich environments.
• Optimized Coating Systems: Protective coatings selected to match both material type and gas composition, ensuring long‑term reliability and resistance to corrosion.
• Versatile Seal Technologies: Multiple seal options—including single, tandem, carbon ring, and labyrinth—provide secure containment for CO₂ handling.
• Expertise with Global EPC Contractors: Proven track record working with leading EPCs worldwide, ensuring smooth engineering coordination and project execution.
• Worldwide Delivery Capability: Engineered systems delivered to any location globally, supported by a strong commitment to performance and reliability.
• Complete Project Lifecycle Support: Comprehensive assistance from concept and design to installation, offering safe, innovative, and meticulously engineered solutions.
• Tailored to Unique Application Requirements: In‑depth research and application understanding allow us to deliver best‑fit, customized solutions for every CO₂ capture project.