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ClearSign Technologies announces successful testing of ultra-low NOx H2 burner

ClearSign Technologies Corporation, an emerging leader in industrial combustion and sensing technologies that improve energy, operational efficiency and safety while dramatically reducing emissions, announces the successful development and demonstration of a ClearSign Core ultra-low nitrous oxide (NOx) burner fueled with 100% H2.

“We had high confidence going into this project about the capabilities of our ClearSign Core technology,” said Jim Deller, Ph.D., Chief Executive Officer of ClearSign. “We very much appreciate the DOE for this grant and opportunity to advance and demonstrate the capabilities of ClearSign Core technology to provide burners for the developing H2 economy, which we believe has potential massive global ramifications, reducing the pollutant emissions necessary to maintain a healthy environment today,” continued Dr. Deller. “Additionally, this project has raised the visibility of ClearSign and garnered the attention of customers and other stakeholders in the industry who have expressed interest in adopting this technology or providing sponsorship and collaboration to accelerate its deployment.”

This project is being funded by a government grant through the Small Business Innovative Research program with the Department of Energy to Support Scientific Innovation in Clean Energy Development and Climate Solutions. The project and funding are in phases. The initial funding amount was approximately $250,000 and commenced in June. With this completion of the Phase 1 work, the Company will submit a follow-up proposal with testing data and documented industry support to continue the development work with a Phase 2 grant. The application is for the maximum Phase 2 grant funding, which can be up to $1.6 MM over a two-year duration.

As a reminder, the goal of this project is to develop ultra-low NOx H2 burner technology, which we believe will enable the adoption of H2 fuel for industrial heating, leading to reductions in the industrial emissions of both carbon dioxide and NOxs. Current burners and previous efforts to decarbonize industrial combustion processes through the utilization of H2 fuel are inhibited by the lack of industrial H2 burners capable of burning pure H2 while preventing additional NOx emissions.