Tech Paper Sour Gas has a Sweeter Future
Bulk H2S removal using polymeric cellulose triacetate–based membranes.
There are inherent impurities in gas that not only accelerate the corrosion of pipelines and transmission control equipment but lower the heating value of the gas. These impurities must be removed prior to transmitting gas to a processing facility.
Our differentiating technology portfolio and expertise in process design and engineering provide the optimal gas treatment based on the parameters of your specific operation. When you're planning your next front-end engineering and design (FEED) study, we can help you make the most of your opportunity.
Separate CO₂ and H₂S from saleable natural gas streams with gas sweetening processes.
Prepare natural gas for transport and use by removing CO2, H2S, and mercaptans.
Remove water, H2S, and other impurities from produced gas without chemicals for pipeline transport.
Separate acid gases from produced natural gas without chemicals.
Convert H2S in gas streams to solid sulfur ready for agriculture or disposal.
Select purification products that are easy to operate and require minimal operator attention.
Improve performance of membrane technology through predictive monitoring and analysis.
Reduce emissions in natural gas facilities to comply with local environmental regulations.
Achieve >99.9% destruction efficiency for all VOCs by using both flares and incinerators.
Extract water from a natural gas stream to prevent hydrate formation and corrosion within pipelines.
Increase your revenue while preparing gas to meet pipeline specifications.
Recover valuable hydrocarbons and reduce stock-tank emissions
Improve recovery of heavier hydrocarbon fractions in the inlet gas stream.
Available for immediate delivery to improve your NGL recovery.
Remove solids and liquids in gas entering a treatment facility before sending to additional processing and purification.
Improve separation of oil, gas, sand, and water while reducing costs and risk.
Remove liquids from gas containing low amounts of liquid, with a removal efficiency of 99.99% down to 10 um.
Remove solids and liquid from gas containing moderate amounts of liquid, with a removal efficiency of 99.9% down to 10 um.
Lower energy requirements for natural gas liquefaction and increase LNG production and storage capacity.
Maximize recovery of monoethylene glycol (MEG) in your hydrate management process.