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Development and characterization of a low-NOx partially premixed hydrogen burner using numerical simulation and flame diagnostics

Nikolas Schmidt, Marcel A. Müller, Patrick Preuster, Lars Zigan, Peter Wasserscheid, Stefan Will

2023International Journal of Hydrogen Energy42 citationsDOIOpen Access PDF

Abstract

The utilization of hydrogen as a fuel in free jet burners faces particular challenges due to its special combustion properties . The high laminar and turbulent flame velocities may lead to issues in flame stability and operational safety in premixed and partially premixed burners. Additionally, a high adiabatic combustion temperature favors the formation of thermal nitric oxides (NO). This study presents the development and optimization of a partially premixed hydrogen burner with low emissions of nitric oxides. The single-nozzle burner features a very short premixing duct and a simple geometric design. In a first development step, the design of the burner is optimized by numerical investigation (Star CCM+) of mixture formation, which is improved by geometric changes of the nozzle. The impact of geometric optimization and of humidification of the combustion air on NO x emissions is then investigated experimentally. The hydrogen flame is detected with an infrared camera to evaluate the flame stability for different burner configurations. The improved mixture formation by geometric optimization avoids temperature peaks and leads to a noticeable reduction in NO x emissions for equivalence ratios below 0.85. The experimental investigations also show that NO x emissions decrease with increasing relative humidity of combustion air. This single-nozzle forms the basis for multi-nozzle burners, where the desired output power can flexibly be adjusted by the number of single nozzles.

Topics & Concepts

CombustorCombustionNOxNozzlePremixed flameAdiabatic flame temperatureLaminar flowFlame structureHydrogenChemistryMechanicsMaterials scienceNuclear engineeringThermodynamicsOrganic chemistryPhysicsEngineeringCombustion and flame dynamicsRocket and propulsion systems researchAdvanced Combustion Engine Technologies