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Smaller Systems
Cleaner Streams
RPB Technology for H₂S Removal
Our H₂S Removal System harnesses Rotating Packed Bed (RPB) technology to achieve high-efficiency gas sweetening in a compact design. By maximizing gas–liquid contact under high-gravity conditions, the system delivers superior H₂S absorption with reduced solvent use, lower energy demand, and a smaller equipment footprint — ensuring compliance and safety across oil, gas, and refinery applications.
How Our RPB-Based H₂S Removal System Works
CHELATED-IRON DESULFURIZATION
Our RPB-based H₂S Removal System offers a breakthrough approach to desulfurization.
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It enables direct sulfur production, eliminating the need for downstream Claus units or flaring.
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With a design that is up to 90% smaller and 50% lighter than conventional towers, it delivers unmatched space and weight savings.
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Its compact and robust configuration makes it especially suitable for offshore platforms, where space and efficiency are critical.
AMINE GAS TREATING
Our Amine Gas Treating System efficiently removes both CO₂ and H₂S using advanced RPB technology.
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Offers 90% space savings and 50% weight reduction compared to conventional towers.
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Ensures continuous solvent recycling and supports flexible solvent options for different applications.
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Designed for efficiency and adaptability, making it ideal for both onshore and offshore installations.
Chelated-Iron Desulfurization with RPB
An advanced H₂S removal process that integrates chelated-iron catalyst with Rotating Packed Bed (RPB) technology. The system converts H₂S directly into elemental sulfur, eliminating the need for downstream Claus units or flaring.
Compact AmineTreating with RPB
Our RPB-based amine treating system replaces bulky towers with a compact, high-performance design. It removes both CO₂ and H₂S efficiently, while continuously regenerating solvents. Compared to conventional towers, it delivers up to 90% space savings, lower CAPEX/OPEX, and greater flexibility for both onshore and offshore use.
