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UCF EML 3034C - Project Report

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Project Report Initial Draft (Abstract only) Page No. 1 Project Report EML 6131: Combustion Phenomena Title: Thermochemical analysis of Supercritical Carbon Dioxide Combustion and Power Cycle using Combustion Engine for Turbine Technology Prepared by: Emmanuel Gabriel-Ohanu 20 March, 2021Project Report Initial Draft (Abstract only) Page No. 2 1.0 Abstract Oxy fuel combustion has been studied over previous decades but the combustion chemical kinetic process for fuel combustion in presence of supercritical carbon dioxide (sCO2) can be a a suitable replacement option meeting the need for development in the turbine technology with the next generation of turbine using sCO2 as working fluid. This study serves to provide an understanding of implementation of Combustion Engines specifically Internal Combustion Engines (ICE) as a heat source for turbine, using experimental and computational methods and analysis to develop the chemical kinematic of sCO2 that can help resolve the challenges of oxy fuel combustion engines for sCO2 turbine power cycles. The study analyses the Pre-combustion, post-combustion and oxy-combustion of CO2 in turbine power cycles using the data from previous research to determine the most efficient parameter and design to maximize power generation and heat transfer in sCO2 turbine technology, the combination of the sCO2 cycle with single-stage reheating and recompression with oxy-fuel combustion measure for joined heat and power creation. The systems framework was then analyzed for its thermodynamic efficiency.Project Report Initial Draft (Abstract only) Page No. 3 2.0 Table of Content 1.0 Abstract 2 2.0 Table of Content 3 3.0 List of Figures and Equations 4 4.0 Nomenclature 5 5.0 Introduction 6 6.0 Materials and Methods 7 7.0 Results and Proposed Solutions 8 8.0 Discussion and Conclusion 9 9.0 References 10Project Report Initial Draft (Abstract only) Page No. 4 3.0 List of Figures and EquationsProject Report Initial Draft (Abstract only) Page No. 5 4.0 NomenclatureProject Report Initial Draft (Abstract only) Page No. 6 5.0 IntroductionProject Report Initial Draft (Abstract only) Page No. 7 6.0 Materials and MethodsProject Report Initial Draft (Abstract only) Page No. 8 7.0 Results and Proposed SolutionsProject Report Initial Draft (Abstract only) Page No. 9 8.0 Discussion and ConclusionProject Report Initial Draft (Abstract only) Page No. 10 9.0


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