Industrial Carbon Capture from a Cement Facility Using the Cryocap FG Process

OBrien, Kevin; Salih, Hafiz; Dreyer, Derick; Henderson, Timothy; Guerif, Pierre-Philippe; Roberts, Daryl-Lynn; Lofgreen, Bryan

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https://hdl.handle.net/2142/114551 Copy

Description

Title

Industrial Carbon Capture from a Cement Facility Using the Cryocap FG Process

Author(s)

• OBrien, Kevin
• Salih, Hafiz
• Dreyer, Derick
• Henderson, Timothy
• Guerif, Pierre-Philippe
• Roberts, Daryl-Lynn
• Lofgreen, Bryan

Contributor(s)

• Air Liquide Engineering & Construction,
• Kiewit Corporation,
• Visage Energy,
• Holcim (United States),

Issue Date

2022-04-01

Keyword(s)

• Carbon dioxide capture
• Cryocap
• Cement manufacturing -- Missouri
• Carbon dioxide storage -- Illinois

Geographic Coverage

• Ste. Genevieve, MO
• Marissa, IL

Abstract

The University of Illinois at Urbana-Champaign (UIUC) will complete a front-end engineering and design (FEED) study for a commercial-scale carbon capture system that separates 95% of the total carbon dioxide (CO2) emissions at Holcim’s Ste. Genevieve cement plant in Missouri. The design will employ Air Liquide’s Cryocap™ technology that utilizes a pressure swing adsorption (PSA) unit to pre-concentrate the CO2 in the feed stream combined with a cryogenic unit to produce a high-purity CO2 product stream. The captured CO2 will be stored at a site near the Prairie State Generating Company power plant in Illinois within 80 miles of the CO2 source. UIUC will provide overall project management and will perform the techno-economic and life cycle analyses, business case analysis, and preliminary economic revitalization and job creation outcomes analysis. Air Liquide will develop the design basis and the inside battery limits (ISBL) design, and will also perform the hazard and operability (HAZOP) study. Kiewit will coordinate with Air Liquide for the ISBL design, perform the outside battery limits (OSBL) design, and lead the constructability review and cost assessment. Visage Energy will be responsible for the environmental justice analysis. Lastly, host site Holcim (United States) will provide support in the form of site data and participate in engineering design decisions pertaining to host site and capture plant integration. The Carbon Capture Program is accelerating the deployment of 2nd Generation carbon capture technologies, targeted to be commercially ready by 2025, through FEED studies for advanced carbon capture systems that separate 95% of the total CO2 emissions from an existing industrial manufacturing facility. The completion of FEED studies for commercial-scale systems that separate more than 100,000 tonnes/year net CO2 at industrial facilities, suitable for geologic storage, will support the United States in achieving a carbon pollution-free power sector by 2035 and a net-zero carbon pollution economy by 2050 while promoting creation of jobs located in power plant or industrial communities.

Publisher

U.S. Department of Energy National Energy Technology Laboratory

Type of Resource

text

Language

en

Handle URL

https://hdl.handle.net/2142/114551

Sponsor(s)/Grant Number(s)

U.S. Department of Energy ; DE-FE0032136

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