Fluor Corp wins award for gas processing tech

By Fluor Corp. | November 26, 2019

Fluor Corp has announced that its patented Deep Dewpointing Process (DDP) won Best Gas Processing/LNG Technology at the Hydrocarbon Processing 2019 Awards gala event held in Houston earlier this month.

 “We are honored to receive this year’s award for Best Gas Processing/LNG Technology for our Deep Dewpointing Process,” said Mark Fields, group president of Fluor’s Energy & Chemicals business. “This award recognizes Fluor’s innovative culture and highlights how our leading-edge technology in gas processing helps our clients improve performance and flexibility, reduce capital and operating costs, and improve the safety of their facilities.”

DDP is Fluor’s patented Cryo-Gas technology solution for rich, unconventional gas applications with 6 to 12 gallons per minute natural gas liquid content and 500 pounds per square inch gauge (psig) to 900 psig feed pressure. Fluor’s DDP technology enables a single gas processing plant to recover high levels of propane—95 percent or greater—in both ethane rejection and ethane recovery modes without the use of a turboexpander. The process is inherently flexible, with exceptional turndown capacity without losing recovery efficiency.

“DDP fills a unique market niche between low recovery mechanical refrigeration plants and expensive ultra-high recovery turboexpander plants,” said Curt Graham, manager of engineering for Fluor’s southern California operations and global gas processing technology lead. “With Fluor’s DDP technology, operators can easily switch between ethane recovery and rejection without losing propane recovery. This innovative approach is critical for midstream organizations that demand flexibility along with performance and capital efficiency in processing rich gas.”

Fluor and Joule Processing are currently working together to implement Fluor's DDP technology into a 60 million standard cubic-feet-per-day gas plant in the Colorado Denver-Julesburg Basin. The DDP technology can markedly improve liquids recovery efficiency in the U.S. midstream industry especially for rich shale gas.