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Optimum primary equivalence ratio for rich-lean two-stage combustion of non-premixed ammonia/methane/air and ammonia/hydrogen/air flames in a swirling flow

Hirofumi Yamashita, Akihiro Hayakawa, Ekenechukwu C. Okafor, Sophie Colson, K.D. Kunkuma A. Somarathne, Taku Tsujimura, Shintaro Ito, Masahiro Uchida, Taku Kudo, Hideaki Kobayashi

2024Fuel54 citationsDOIOpen Access PDF

Abstract

Rich-lean two-stage combustion concept was proposed for reducing emissions from ammonia-fueled gas turbine combustors. The primary combustion zone should be maintained at an optimum primary equivalence ratio for the simultaneous reduction of NO and unburned NH 3 ; however, the optimum primary equivalence ratio has been reported only for a limited number of fuel blends and ammonia mixing ratios. This study experimentally and numerically investigated the optimum primary equivalence ratio and studied its application in the rich-lean two-stage combustion of ammonia/methane/air and ammonia/hydrogen/air flames over a wide range of ammonia mixing ratios under atmospheric pressure. This study identifies factors determining the optimum primary equivalence ratio. The emissions were measured using a swirl combustor for single- and two-stage combustion. Unstretched freely propagating premixed flame simulations were performed using CHEMKIN-PRO for investigating the effects of chemical reactions on the optimum primary equivalence ratio. In both single- and two-stage combustion, the optimum primary equivalence ratios of non-premixed ammonia/methane/air and ammonia/hydrogen/air flames decreased linearly and exponentially with increasing ammonia mixing ratios, respectively. The rich-lean two-stage combustion eliminated unburned NH 3 and minimized NO over a wide range of ammonia mixing ratios for non-premixed ammonia/methane/air and ammonia/hydrogen/air flames. The numerical results confirm that OH radical plays an important role in determining the optimum primary equivalence ratio.

Topics & Concepts

AmmoniaCombustionMethaneCombustorChemistryHydrogenCHEMKINEquivalence ratioMixing ratioMaterials scienceOrganic chemistryPhysical chemistryAdvanced Combustion Engine TechnologiesCombustion and flame dynamicsAtmospheric chemistry and aerosols
Optimum primary equivalence ratio for rich-lean two-stage combustion of non-premixed ammonia/methane/air and ammonia/hydrogen/air flames in a swirling flow | Litcius