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Impact of Hydrogen/Natural Gas Blends on Partially Premixed Combustion Equipment: NO x Emission and Operational Performance

Author

Listed:
  • Paul Glanville

    (Gas Technology Institute, 1700 S Mount Prospect Rd, Des Plaines, IL 60018-1804, USA)

  • Alex Fridlyand

    (Gas Technology Institute, 1700 S Mount Prospect Rd, Des Plaines, IL 60018-1804, USA)

  • Brian Sutherland

    (Gas Technology Institute, 1700 S Mount Prospect Rd, Des Plaines, IL 60018-1804, USA)

  • Miroslaw Liszka

    (Gas Technology Institute, 1700 S Mount Prospect Rd, Des Plaines, IL 60018-1804, USA)

  • Yan Zhao

    (Gas Technology Institute, 1700 S Mount Prospect Rd, Des Plaines, IL 60018-1804, USA)

  • Luke Bingham

    (Gas Technology Institute, 1700 S Mount Prospect Rd, Des Plaines, IL 60018-1804, USA)

  • Kris Jorgensen

    (Gas Technology Institute, 1700 S Mount Prospect Rd, Des Plaines, IL 60018-1804, USA)

Abstract

Several North American utilities are planning to blend hydrogen into gas grids, as a short-term way of addressing the scalable demand for hydrogen and as a long-term decarbonization strategy for ‘difficult-to-electrify’ end uses. This study documents the impact of 0–30% hydrogen blends by volume on the performance, emissions, and safety of unadjusted equipment in a simulated use environment, focusing on prevalent partially premixed combustion designs. Following a thorough literature review, the authors describe three sets of results: operating standard and “ultra-low NO x ” burners from common heating equipment in “simulators” with hydrogen/methane blends up to 30% by volume, in situ testing of the same heating equipment, and field sampling of a wider range of equipment with 0–10% hydrogen/natural gas blends at a utility-owned training facility. The equipment was successfully operated with up to 30% hydrogen-blended fuels, with limited visual changes to flames, and key trends emerged: (a) a decrease in the input rate from 0 to 30% H 2 up to 11%, often in excess of the Wobbe Index-based predictions; (b) NO x and CO emissions are flat or decline (air-free or energy-adjusted basis) with increasing hydrogen blending; and (c) a minor decrease (1.2%) or increase (0.9%) in efficiency from 0 to 30% hydrogen blends for standard versus ultra-low NO x -type water heaters, respectively.

Suggested Citation

  • Paul Glanville & Alex Fridlyand & Brian Sutherland & Miroslaw Liszka & Yan Zhao & Luke Bingham & Kris Jorgensen, 2022. "Impact of Hydrogen/Natural Gas Blends on Partially Premixed Combustion Equipment: NO x Emission and Operational Performance," Energies, MDPI, vol. 15(5), pages 1-31, February.
  • Handle: RePEc:gam:jeners:v:15:y:2022:i:5:p:1706-:d:757993
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    Citations

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    Cited by:

    1. Adrian Neacsa & Cristian Nicolae Eparu & Cașen Panaitescu & Doru Bogdan Stoica & Bogdan Ionete & Alina Prundurel & Sorin Gal, 2023. "Hydrogen–Natural Gas Mix—A Viable Perspective for Environment and Society," Energies, MDPI, vol. 16(15), pages 1-38, August.
    2. Yan Zhao & Vince McDonell & Scott Samuelsen, 2022. "Residential Fuel Transition and Fuel Interchangeability in Current Self-Aspirating Combustion Applications: Historical Development and Future Expectations," Energies, MDPI, vol. 15(10), pages 1-50, May.
    3. Adrian Neacsa & Cristian Nicolae Eparu & Doru Bogdan Stoica, 2022. "Hydrogen–Natural Gas Blending in Distribution Systems—An Energy, Economic, and Environmental Assessment," Energies, MDPI, vol. 15(17), pages 1-26, August.
    4. Johannes Schaffert, 2022. "Progress in Power-to-Gas Energy Systems," Energies, MDPI, vol. 16(1), pages 1-9, December.

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