Understanding the Behavior of Bi-functional Catalyst in Selective Catalytic Oxidation of Ammonia to Nitrogen

dc.contributor.advisorHarold, Michael P.
dc.contributor.committeeMemberLuss, Dan
dc.contributor.committeeMemberEpling, William S.
dc.contributor.committeeMemberJacobson, Allan J.
dc.contributor.committeeMemberKamasamudram, Krishna
dc.creatorShrestha, Sachi
dc.date.accessioned2018-12-05T21:49:19Z
dc.date.available2018-12-05T21:49:19Z
dc.date.createdAugust 2015
dc.date.issued2015-08
dc.date.submittedAugust 2015
dc.date.updated2018-12-05T21:49:19Z
dc.description.abstractComprehensive steady-state experimental and modeling study of the selective oxidation of ammonia on washcoated multi-functional Pt/γ-Al2O3+metal-exchanged zeolite monolith is reported. The catalysts are compared in terms of their activity and selectivity for a range of temperature, catalyst architecture, catalyst composition, space velocity, and feed compositions (NH3 + O2; NH3 + NO+ O2) in the presence and absence of H2O and CO2. SCR functions used in this thesis are Cu-ZSM-5, Fe-ZSM-5 and Cu-SSZ-13. The Pt loading of the monolith used are in the range of 0.7 – 10 g/ft3 of monolith. A single component Pt/Al2O3 catalyst, at the lower space velocity (66k hr-1) light-off was characterized by decrease in the light-off temperature of ammonia oxidation with increase in Pt loading from 0.7 to 10 g Pt/ft3 monolith and, in general, the selectivity to N2 decreased while that of N2O and NOx increased. In absence of feed NO, a dual-layer ASC resulted in higher selectivity to N2, due to selective reaction in the Fe-zeolite layer between NH3 from the bulk and counter-diffusing NOx formed in the underlying Pt/Al2O3. Even with feed NO, the dual layer catalyst showed low NOx yield and high N2 yield due to SCR of NO by NH3. When Fe-ZSM-5 and Pt/Al2O3 particles were mixed and washcoated as a single layer, this led to an increase in NH3 conversion at high space velocity due to a decrease in the diffusion barrier, however, the N2 yield was lower due to Pt-catalyzed NH3 oxidation, compared to the dual-layer ASC. The mixed catalyst out-performed the dual-layer catalyst at low temperature by exhibiting lower N2O and higher N2 yield which was attributed to NO migration and reduction on the SCR. Most of the trends were predicted by a 1+1 D reactor model that includes the Pt/Al2O3 ammonia oxidation and Fe-ZSM-5 kinetics and the relevant transport processes. Kinetic parameters are estimated from single catalytic component experiments while the reacting species effective diffusivity in the alumina and zeolite layers are estimated from the simulation of multi-layer experiments in which inert top layers of γ-Al2O3 and Na-exchanged ZSM-5 were added to an underlying Pt/γ-Al2O3 layer. ASC comprising Cu-SSZ-13+Pt/Al2O3 showed conversion and selectivity trends similar to that of Fe-ZSM-5+Pt/Al2O3. In absence of feed NO, NH3 conversion decreased while N2 selectivity increased as Cu-SSZ-13 loading was increased. In presence of feed NO, both NH3 and NOx conversion of the dual-layer catalyst increased with an increase in the Cu-SSZ-13 washcoat loading (thickness). We also demonstrated that a hybrid catalyst having dual-layer and mixed catalyst attributes exhibits good performance by exploiting the beneficial effects of both catalyst types. Finally, experimental and modeling study of CO oxidation on a Pt/Al2O3 revealed a shift from kinetic to mixed washcoat diffusion with increasing temperature. Experiments conducted on the Pt/Al2O3 layer coated with γ-Al2O3 layer of different thicknesses were used to estimate the effective diffusivity of CO in the γ-Al2O3.
dc.description.departmentChemical and Biomolecular Engineering, Department of
dc.format.digitalOriginborn digital
dc.format.mimetypeapplication/pdf
dc.identifier.citationPortions of this document appear in: Shrestha, Sachi, Michael P. Harold, Krishna Kamasamudram, and Aleksey Yezerets. "Ammonia oxidation on structured composite catalysts." Topics in Catalysis 56, no. 1-8 (2013): 182-186. DOI: 10.1007/s11244-013-9949-9. And in: Shrestha, Sachi, Michael P. Harold, Krishna Kamasamudram, and Aleksey Yezerets. "Selective oxidation of ammonia on mixed and dual-layer Fe-ZSM-5+ Pt/Al2O3 monolithic catalysts." Catalysis Today 231 (2014): 105-115. DOI: 10.1016/j.cattod.2014.01.024. And in: Shrestha, Sachi, Michael P. Harold, and Krishna Kamasamudram. "Experimental and modeling study of selective ammonia oxidation on multi-functional washcoated monolith catalysts." Chemical Engineering Journal 278 (2015): 24-35. DOI: 10.1016/j.cej.2015.01.015.
dc.identifier.urihttp://hdl.handle.net/10657/3667
dc.language.isoeng
dc.rightsThe author of this work is the copyright owner. UH Libraries and the Texas Digital Library have their permission to store and provide access to this work. UH Libraries has secured permission to reproduce any and all previously published materials contained in the work. Further transmission, reproduction, or presentation of this work is prohibited except with permission of the author(s).
dc.subjectAmmonia Slip Catalyst
dc.subjectAmmonia Oxidation
dc.subjectSelective catalytic reduction (SCR)
dc.subjectDual-layer catalysts
dc.titleUnderstanding the Behavior of Bi-functional Catalyst in Selective Catalytic Oxidation of Ammonia to Nitrogen
dc.type.dcmiText
dc.type.genreThesis
thesis.degree.collegeCullen College of Engineering
thesis.degree.departmentChemical and Biomolecular Engineering, Department of
thesis.degree.disciplineChemical Engineering
thesis.degree.grantorUniversity of Houston
thesis.degree.levelDoctoral
thesis.degree.nameDoctor of Philosophy

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