Newsroom
2020 Year in Review
Susteon to partner with Stanford University to develop a modular system for direct conversion of methane to methanol
Stanford University is partnering with Susteon to develop a “Modular System for Direct Conversion of Methane into Methanol via Photocatalysis.” This DOE project awarded under DE-FOA-0002006 aims to develop a process-intensified catalyst for photochemical conversion of...
Susteon and NETL sign a CRADA for flare gas utilization
Under a cooperative research and development agreement (CRADA), national Energy Technology Laboratory (NETL) and Susteon will co-develop a modular system for converting flare-, associated-, and natural- gas into olefins and other high value products. This work will...
Susteon supports UCLA in completion of pilot-scale testing to convert CO2 into construction products
Susteon supported University of California, Los Angeles (UCLA), in completing more than 1,200 hours of field testing at the Wyoming Integrated Test Center (ITC), successfully demonstrating a process to create concrete masonry units (CMUs, or concrete blocks) using...
Susteon to develop “Low Regeneration Temperature Sorbents for Direct Air Capture of CO2”
The U.S. Department of Energy’s (DOE) Office of Fossil Energy (FE) and NETL recently selected Susteon under DE-FOA-0002188 to receive $1 million funding to develop amine-doped solid sorbents catalyzed by ionic liquids that have the potential to increase the...
Susteon to partner with TDA to develop a pre-combustion capture system
TDA is partnering with Susteon under DOE funding (DE-FOA-0002057) to develop “A High-Efficiency, Modular Pre-Combustion Capture System for Coal FIRST Poly-generation Process.” This project will demonstrate the capability of the entire warm gas cleanup and capture...
Susteon to develop a Rapid Temperature Swing Adsorption Carbon Capture Technology for Optimal Operation of a Fossil Power Plant
Susteon was selected by DOE’s ARPA-E under FLECCS program to evaluate a CO2 capture technology using solid sorbents based on thermal swing adsorption that enables power generators to operate the power plant in a “load following” mode in response to grid conditions in...
Susteon to develop a plasma assisted catalytic conversion technology to produce propylene and CO from CO2 and propane
The U.S. Department of Energy’s (DOE) Office of Fossil Energy (FE) and NETL recently selected Susteon under DE-FOA-0002186 to receive $1.25 million of funding to develop a novel catalytic non-thermal plasma (CNTP) technology using metallic/bi-metallic catalysts for...
We Are Hiring!!
Check out our new job opening for Senior Process Engineer. Applications for the position are open now. Interested candidates can apply by sending resume to [email protected]
NCSU and Susteon Scientists Publish a Seminal Paper on “Low-Temperature CO2 Utilization”
North Carolina State University (NCSU) and Susteon researchers recently published a paper in the prestigious journal Advanced Energy Materials (www.advenergymat.de) entitled ‘Modified Ceria for Low-Temperature CO2 Utilization: A Chemical Looping Route to Exploit...