Fluor announced it was awarded a FEED contract for California Resources Corporation’s (CRC) carbon capture and sequestration project.
Fluor Corporation announced that it was awarded a front-end engineering and design (FEED) contract for California Resources Corporation’s (CRC) carbon capture and sequestration project.
The project, Cal Capture, is the 550-megawatt, natural gas-powered Elk Hills Power Plant in Tupman, California.
The FEED is being funded by the U.S. Department of Energy (DOE) through collaboration with the Electric Power Research Institute (EPRI) as part of a larger initiative to advance carbon capture technology development.
“Fluor’s commitment to helping clients achieve their clean energy goals continues with this recent award from CRC,” said Mark Fields, group president of Fluor’s Energy & Chemicals business. “We are honoured to be selected by CRC to help them design and permit California’s first carbon capture and sequestration system.”
Fluor’s scope of work is as the licensor providing engineering services for the plant’s licensed process unit and required utility systems using its proprietary Econamine FG PlusSM carbon capture technology which is an energy-efficient and cost-effective process for the removal of carbondioxide from flue gas streams. The process will incorporate Fluor’s advanced solvent formulation together with a number of patented energy savings features.
The execution of the project is a collaborative effort between EPRI, CRC and Fluor. The DOE award was made to EPRI, which has led the interface with the DOE. CRC is providing the project oversight and defining the basis of the FEED.
“CRC has four 2030 sustainability goals that align with those of the State of California. Our carbon goal is to design and permit a carbon dioxide (CO2) capture and storage system – the Cal Capture project – at our Elk Hills Power Plant with associated CO2 injection for enhanced recovery and sequestration at the adjacent Elk Hills oil field,” said Shawn Kerns, CRC executive vice president of Operations and Engineering.
Source: Pipeline ME