Numerical Investigation of NOx and CO Formation in a 200 kW Swirl Burner / Abdallah Abdelaty Zaki Ahmed ; Supervised Essam E. Khalil Hassan , Mohamed Mahmoud Ali
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TextLanguage: English Publication details: Cairo : Abdallah Abdelaty Zaki Ahmed , 2014Description: 100 P. : charts , facsimiles ; 30cmOther title: - دراسة عددية لتركيزات أكاسيد النيتروجين و أول أكسيد الكربون المتكونة من حارق دوامي 200 كيلو وات [Added title page title]
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قاعة الرسائل الجامعية - الدور الاول | المكتبة المركزبة الجديدة - جامعة القاهرة | Cai01.13.11.M.Sc.2014.Ab.N (Browse shelf(Opens below)) | Not for loan | 01010110065712000 | ||
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مخـــزن الرســائل الجـــامعية - البدروم | المكتبة المركزبة الجديدة - جامعة القاهرة | Cai01.13.11.M.Sc.2014.Ab.N (Browse shelf(Opens below)) | 65712.CD | Not for loan | 01020110065712000 |
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| Cai01.13.11.M.Sc.2013.Za.M Modeling and simulation of a packed bed for cool latent heat storage systems / | Cai01.13.11.M.Sc.2014.Ab.F Flow regimes and combustion characteristics of swirling turbulent flames in furnaces / | Cai01.13.11.M.Sc.2014.Ab.F Flow regimes and combustion characteristics of swirling turbulent flames in furnaces / | Cai01.13.11.M.Sc.2014.Ab.N Numerical Investigation of NOx and CO Formation in a 200 kW Swirl Burner / | Cai01.13.11.M.Sc.2014.Ab.N Numerical Investigation of NOx and CO Formation in a 200 kW Swirl Burner / | Cai01.13.11.M.Sc.2014.Ab.T Thermal hydraulic modeling of loss of flow transient without SCRAM in a typical MTR reactor / | Cai01.13.11.M.Sc.2014.Ab.T Thermal hydraulic modeling of loss of flow transient without SCRAM in a typical MTR reactor / |
Thesis (M.Sc.) - Cairo University - Faculty of Engineering - Department of Mechanical Power Engineering
A CFD model of the Swirl Burner has been tested and evaluated using FLUENT. The Swirl Burner was modelled using a 2D structured grid consisting of about 45,000 cells with an average skewness of 0.04. Three turbulence models were tested on a cold flow with a flow rate equivalent to 200 kW. These were the k-f model, the Realizable k-f model and the Reynolds Stress Model (RSM). Based on an evaluation of the models ability to predict a central toroidal recirculation zone of this strong swirling flow (S>0.6) and recommendations from literature, the RSM was chosen for further modelling of the reacting flow. With the RSM turbulence model, three different combustion models were tested. These models were the Eddy Dissipation model, the PDF-based Equilibrium model and the PDF-based Flamelet model. For the reaction models, the Eddy Dissipation model predicted peak flame temperatures higher than the adiabatic flame temperature for a propane-air mixture and was therefore dismissed. The Flamelet PDF model was chosen for the modelling of the swirl burner due to its ability to account for non-equilibrium chemistry. The decision of choosing the Flamelet PDF model was also based on recommendations found in literature.
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