Acid Gas Handling & CO2
Managing acid gas and CO₂ isn’t just about meeting specifications – it’s about designing systems that perform reliably under real-world conditions and evolving regulations. From amine treating and sulfur recovery to CO₂ capture and injection, our process engineers bring deep technical expertise and hands-on experience across the full lifecycle of acid gas systems. Whether you’re optimizing existing infrastructure or developing a new facility, we deliver practical solutions that balance performance, compliance, and cost.
Are you navigating tightening emissions rules, planning for CO₂ sequestration or enhanced oil recovery (EOR), or trying to future-proof your acid gas systems against regulatory risk?
Our approach to acid gas handling and CO₂ projects is grounded in practical experience and performance-driven design. Our process engineers have a track record of solving real-world issues at every stage – from conception through to commissioning and operations. When acid gas systems don’t behave the way models predict, we help bridge the gap between theory and reality with solutions that are proven to work in the field.
We have supported acid gas and CO₂ management efforts across Alberta and throughout North America, in step with increasing regulatory requirements and industry targets for emissions reduction and carbon capture. Whether you’re looking at acid gas injection, amine system optimization, or CO₂ capture from process or combustion sources, we’ve likely seen – and fixed – a similar challenge.
We are always ready to discuss how our specialized team can help support your project’s success, no matter where you are in the process lifecycle.
Our capabilities include:
- Feasibility, Conceptual, or Pre-FEED Studies including Techno-Economic Assessment (TEA)
- Regulatory Strategy and Permitting Support including Carbon Sequestration
- Front-End Engineering Design (FEED) for Amine, Acid Gas Removal (AGR), and CO₂ Capture Systems
- Detailed Design of Injection Systems, Compression, and Disposal Infrastructure as well as all other Balance-of-Plant Equipment
- Hazard and Operability Studies (HAZOPs), Hazard Identifications (HAZIDs), and Layer of Protection Analysis (LOPA) with a focus on hazards specific to H2S and CO2 handling
- Project and Construction Management with Commissioning Readiness Focus
- Vendor and Technology Selection for Amine, Membrane, and Non-Amine Solvent-Based Systems
