Litcius/Paper detail

Experimental and numerical analysis of industrial-type low-swirl combustion of hydrogen enriched natural gas including OH* chemiluminescence imaging

Georg Daurer, Stefan Schwarz, Martin Demuth, Christian Gaber, Christoph Hochenauer

2024International Journal of Hydrogen Energy28 citationsDOIOpen Access PDF

Abstract

The utilization of hydrogen (H2) instead of natural gas (NG) in high-temperature industries has the potential to significantly reduce global greenhouse gas emissions. To obtain detailed information on the combustion characteristics in a semi-industrial air–fuel setup, comprehensive experiments and 3D CFD simulations are performed on a low-swirl burner inside a combustion chamber. The H2 enrichment in NG of 0–100 vol% is analyzed at burner powers of 75–120 kW and temperatures of 900–1400 °C. The process efficiency increases by up to 10 percentage points due to higher temperatures and enhanced heat transfer. Furthermore, up to 20% lower NOx emissions are observed, which is attributed to a significant change in the flow and flame characteristics. For the first time, OH* chemiluminescence imaging is successfully applied to validate RANS simulations of an industrial turbulent flame. Further research should be directed toward evaluating OH* reaction kinetics in both laminar and turbulent NG/H2 combustion setups.

Topics & Concepts

CombustionCombustorLaminar flowNOxTurbulenceNatural gasHydrogenReynolds-averaged Navier–Stokes equationsChemistryCombustion chamberChemiluminescenceMethaneComputational fluid dynamicsGreenhouse gasEnvironmental scienceMaterials scienceThermodynamicsPhysicsChromatographyPhysical chemistryOrganic chemistryEcologyBiologyCombustion and flame dynamicsRadiative Heat Transfer StudiesAdvanced Combustion Engine Technologies