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dc.contributor.authorOlaiya, Kamorudeen A.-
dc.contributor.authorAlabi, Ismaila O.-
dc.contributor.authorFalana, Kafayat A.-
dc.descriptionThis work concerns heat transfer principles in four strokes ICE from modeling and simulation standpoint.en_US
dc.description.abstractHeat transfer is one of a number of indispensable tools in studying of ICEs, due to its influence on decisive parameters of operation like temperature and pressure inside the cylinder. It is safe to say that modeling of the engine heat transfer is among the most complex problems for engineers. Application of numerical methods to predict the heat transfer in a cylinder of reciprocating ICEs is a process of high importance, which was recognized from the earliest stages of their development. This is done to examine performance optimization and design improvement in order to meet nowadays demands exhibited on the engines. This present study focuses on a 3-D transient state temperature distribution analysis on a gasoline engine model via formulated of models, simulating using FEM in-built in the COMSOL Multiphysics software 4.3a to determine the temperature distribution and gradient of the engine cylinder head model. The number of degrees of freedom solved for were 32685 in 383 s (12 minutes, 20 seconds) in the mesh optimization. From the result obtained it was discovered that the heat transfer in the combustion chamber of the ICE varies with time. Thus, it took the engine 10 minutes to complete a cycle vis-a-vis transfer of heat after combustion and that the heat transfer starts after 30 seconds of combustion. In addition, the temperature of the cylinder dropped from 1273.2 K to 301 K over a period of 10 minute.en_US
dc.publisherInternational Journal of Advanced Engineering, Management and Science (IJAEMS)en_US
dc.subjectHeat transferen_US
dc.subject1D modelen_US
dc.titleNumerical Simulation and Modeling of UNSA91060 for Heat Transfer in Four-Stroke ICE Cylinder Headen_US
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