Kinetic Study of Catalytic Partial Oxidation of Synthetic Diesel for Hydrogen Production

dc.contributor.advisorIdem, Raphael
dc.contributor.advisorIbrahim, Hussameldin
dc.contributor.authorKhan, Md. Faysal Ahamed
dc.contributor.committeememberTorabi, Farshid
dc.contributor.committeememberGu, Yongan
dc.contributor.externalexaminerZeng, Fanhua
dc.date.accessioned2012-08-30T15:00:11Z
dc.date.available2012-08-30T15:00:11Z
dc.date.issued2012-01
dc.descriptionA Thesis Submitted to the Faculty of Graduate Studies and Research In Partial Fulfillment of the Requirements for the Degree of Master of Applied Science in Process Systems Engineering, University of Regina. xix, 152 p.en_US
dc.description.abstractThe focus of this research is to study the kinetics of the catalytic partial oxidation (CPOX) of synthetic diesel (SD) for hydrogen production. The kinetic experiments were done in a packed bed tubular reactor (PBTR) over a 5wt.%Ni/Ce[subscript 0.5Z]r[subscript 0.33]Ca0.085Y[subscript 0.085] (5N/CZCaY) catalyst prepared by a surfactant-assisted route. The SD is composed of 75 vol.% saturated hydrocarbons and 25 vol.% aromatic hydrocarbons, with an average chemical formula resembling commercial diesel C[subscript 12.87]H[subscript 24.81]. The kinetic experiments were conducted at atmospheric pressure, in the temperature range of 1123-1223K (850- 950 degrees C), with oxygen/synthetic diesel (O2/SD) ratio in the range of 6.7-10.5 and W/FSD,0 weight-time) in the range of 19008-47556 kg[subscript catalyst]*s/kmol[subscript SD]. The experimental results were used to derive an empirical power law rate model. This model was of the form: r'SD = K0e(-E/RT)NmSDNn02. Activation energy was found to be 16kJ/mol and the order of reaction with respect to SD was 1.89 (≈2) and with respect to oxygen was found to be 0.41 (≈1/2). Estimation of the values of the model parameters was based on the minimization of the sum of the residual squares of the reaction rates by Gauss-Newton and Levenberg-Marquardt algorithm using non-linear regression (NLREG) software. Excellent agreement between the experimental and predicted rate was established with an absolute average deviation (AAD) of 8%. The 5N/CZCaY catalyst was tested for an extended time on stream (TOS) operation in order to establish and demonstrate that the catalyst is stable and also to ensure steady state performance. In addition, the effects of reaction parameters such as reaction temperature, feed ratio (O[subscript 2]/SD), and weight-time W/F[subscript SD,0]) on the resultant catalytic activity of the chosen catalyst were also investigated in order to obtain the optimal operating conditions for H[subscript 2] production from CPOX of SD. To the best of our knowledge, the current study is the first of its kind on the CPOX reforming of SD.en_US
dc.description.authorstatusStudenten
dc.description.peerreviewyesen
dc.identifier.tcnumberTC-SRU-3542
dc.identifier.thesisurlhttp://ourspace.uregina.ca/bitstream/handle/10294/3542/Khan_Md_Faysal_200289006_MASC_PSEN_Spring2012.pdf
dc.identifier.urihttps://hdl.handle.net/10294/3542
dc.language.isoenen_US
dc.publisherFaculty of Graduate Studies and Research, University of Reginaen_US
dc.subject.lcshHydrogen as fuel
dc.subject.lcshDiesel fuels
dc.subject.lcshSynthetic fuels
dc.subject.lcshOxidation
dc.titleKinetic Study of Catalytic Partial Oxidation of Synthetic Diesel for Hydrogen Productionen_US
dc.typeThesisen
thesis.degree.departmentFaculty of Engineering and Applied Scienceen_US
thesis.degree.disciplineEngineering - Process Systemsen_US
thesis.degree.grantorUniversity of Reginaen
thesis.degree.levelMaster'sen
thesis.degree.nameMaster of Applied Science (MASc)en_US

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