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dc.contributor.authorVashishtha, Ashish
dc.contributor.authorYousefian, Sajjad
dc.contributor.authorGoldin, Graham
dc.contributor.authorFrojd, Karin
dc.contributor.authorJella, Sandeep
dc.contributor.authorBourque, Gilles
dc.contributor.authorMonaghan, Rory F.D.
dc.date.accessioned2021-06-09T14:04:49Z
dc.date.available2021-06-09T14:04:49Z
dc.date.copyright2020
dc.date.issued2021-01
dc.identifier.citationVashishtha, A., Yousefian, S., Goldin, G., Frojd, K., Jella, S., Bourque, G., & Monaghan, R. F. D. (2020). CFD-CRN Study of NOx formation in a high-pressure combustor fired with lean premixed CH4 / H2 - air mixtures. Paper presented at the ASME Turbo Expo 2020: Turbomachinery Technical Conference and Exposition.en_US
dc.identifier.urihttp://research.thea.ie/handle/20.500.12065/3601
dc.description.abstractThe main motivation of this study is to investigate detailed NOx and CO formation in high-pressure dump combustor fired with lean premixed methane-air mixture using CFD-CRN hybrid approach. Further, this study is extended to investigate the effect of H2 enrichment on emission formation in the same combustor. Three-dimensional steady RANS CFD simulations have been performed using a Flamelet Generated Manifold (FGM) model in Simcenter STAR-CCM+ 2019.2 with the DRM22 reduced mechanism. The CFD simulations have been modelled along with all three heat transfers modes: conduction, convection and radiation. The conjugate heat transfer (CHT) approach and participating media radiation modelling have been used here. Initially, CFD simulations are performed for five lean equivalence ratios (휙 = 0.43-0.55, Tinlet= 673 K, Vinlet= 40 m/s) of pure methane-air mixture operating at 5 bar. The exit temperature and flame-length are compared with available experimental data. The automatic chemical reactor network has been constructed from CFD data and solved using the recently developed reactor network module of Simcenter STAR-CCM+ 2019.2 in a single framework for each cases. It is found out that the CRNs up to 10,000 PSRs can provide adequate accuracy in exit NOx predictions compared to experiments for pure methane cases. The contribution of NOx formation pathway, changes from N2O intermediate to thermal NO as equivalence ratio increases. Further studies are performed for two equivalence ratios (휙 = 0.43 and 0.50 to simulate the impact of H2 addition (up to 40% by volume) on NOx formation pathways and CO emission. It is found out here that the contribution from ∗Corresponding author: [email protected] NNH pathway increases for leaner equivalence ratio cases (휙 = 0.43), while thermal pathway slightly increases for 휙 = 0.50 with increase in H2 content from 0% to 40%en_US
dc.formatapplication/pdfen_US
dc.publisherThe American Society of Mechanical Engineersen_US
dc.relation.ispartofTurbo Expo: Power for Land, Sea and Airen_US
dc.subjectemissions, H2-enriched, lean premixed, reactor network, NOx pathwaysen_US
dc.titleCFD-CRN Study of NOx formation in a high-pressure combustor fired with lean premixed CH4 / H2 - air mixturesen_US
dc.typeinfo:eu-repo/semantics/conferenceObjecten_US
dc.conference.date2020-09-21
dc.conference.hostThe American Society of Mechanical Engineersen_US
dc.conference.locationOnlineen_US
dc.contributor.affiliationInstitute of Technology Carlowen_US
dc.contributor.affiliationSchool of Engineering, National University of Ireland, Galwayen_US
dc.contributor.affiliationSiemens CD-Adapco, Lebanonen_US
dc.contributor.affiliationSiemens Canada Ltd., Montrealen_US
dc.contributor.affiliationSiemens Canada Ltd., Montrealen_US
dc.contributor.affiliationSchool of Engineering, National University of Ireland, Galwayen_US
dc.contributor.sponsorSiemensen_US
dc.description.peerreviewyesen_US
dc.identifier.doidoi.org/10.1115/GT2020-14819en_US
dc.identifier.urlhttps://asmedigitalcollection.asme.org/GT/proceedings-abstract/GT2020/84126/V04AT04A043/1094715en_US
dc.rights.accessrightsinfo:eu-repo/semantics/openAccessen_US
dc.subject.departmentengCORE - IT Carlowen_US
dc.type.versioninfo:eu-repo/semantics/publishedVersionen_US


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