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Influences of the dead end on the flow characteristics at the exhaust manifold of a marine diesel engine

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dc.contributor.author Benek, Gorkem
dc.contributor.author Ozsoysal, Osman Azmi
dc.date.accessioned 2023-01-06T11:04:25Z
dc.date.available 2023-01-06T11:04:25Z
dc.date.issued 2021
dc.identifier.citation Benek, G., Ozsoysal, OA. (2021). Influences of the dead end on the flow characteristics at the exhaust manifold of a marine diesel engine. Journal of the rmal Engineering, 7(6), 1519-1530.Doi:10.18186/thermal.991095 en_US
dc.identifier.isbn 2148-7847
dc.identifier.uri http://dx.doi.org/10.18186/thermal.991095
dc.identifier.uri https://www.webofscience.com/wos/woscc/full-record/WOS:000707092100017
dc.identifier.uri http://earsiv.odu.edu.tr:8080/xmlui/handle/11489/3452
dc.description WoS Categories : Thermodynamics Web of Science Index : Emerging Sources Citation Index (ESCI) Research Areas : Thermodynamics Open Access Designations : gold en_US
dc.description.abstract A 3D Computational Fluid Dynamics (CFD) model of an exhaust manifold with and without a dead end has been developed to investigate the impacts of its geometry on the flow structure and the pressure distribution within the manifold. The model differs from previously studied models principally for its ability to approach the realistic operating principle of an engine as the modelled exhaust valves of the investigated engine open and close according to the firing order. The experimental results of an exhaust manifold without a dead end has been used to validate the CFD model through the pressure distribution and the flow structure. The outcomes demonstrated that the developed CFD model concurred well with the experimental data. The effects of the dead end on the exhaust manifold were then investigated using the validated CFD model. The study has revealed that the addition of a dead end (i) provides a smoother pressure distribution inside the manifold and increase in the efficiency of the turbocharger and (ii) decreases the pressure inside of the interconnection pipes of cylinders while the exhaust gas discharges. Moreover, the results disclose a smoother discharge of exhaust gases leading to a more effective sweeping of the exhaust gas thorough the cylinder without causing any exhaust backpressure. Furthermore, the dead end reduces the turbulence kinetic energy at the blind end of the exhaust manifold resulting in a decrease of pressure loss within. The abovementioned findings regarding to the flow structure and the pressure distribution within the exhaust manifold improve the efficiency of the engine. en_US
dc.language.iso eng en_US
dc.publisher YILDIZ TECHNICAL UNIV ISTANBUL en_US
dc.relation.isversionof 10.18186/thermal.991095 en_US
dc.rights info:eu-repo/semantics/openAccess en_US
dc.subject Exhaust manifold; Dead end; Computational fluid dynamics; Pressure distribution en_US
dc.title Influences of the dead end on the flow characteristics at the exhaust manifold of a marine diesel engine en_US
dc.type article en_US
dc.relation.journal JOURNAL OF THERMAL ENGINEERING en_US
dc.contributor.department Ordu Üniversitesi en_US
dc.contributor.authorID 0000-0001-6358-6174 en_US
dc.identifier.volume 7 en_US
dc.identifier.issue 6 en_US
dc.identifier.startpage 1519 en_US
dc.identifier.endpage 1530 en_US


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