Abstract The paper presents a 3D model of the processes taking place in the cylinder of a large 4-stroke marine engine. The model is based on CFD calculations performed on the moving mesh. The modelling range includes the full duty cycle (720° crankshaft position) and the complete geometry of the cylinder with inlet and exhaust ducts. The input data, boundary conditions and validation data were obtained by direct measurements on the real object. Fuel injection characteristics were obtained by Mie scattering measurements in a fixed-volume chamber. The modelling results have been validated in terms of the pressure characteristics of the engine’s cylinder within the entire range of its loads. The mean error did not exceed 1.42% for the maximum combustion pressure and 1.13% for the MIP (Mean Indicated Pressure). The model was also positively validated in terms of the $ O_{2} $ and NOx content of the exhaust gas. The mean error in this case was 1.2% for $ NO_{x} $ fractions in the exhaust gas and 0.4% for O2 fractions. The complete model data has been made available in the research data repository on an open access basis.
High Quality Multi-Zone and 3D CFD Model of Combustion in Marine Diesel Engine Cylinder
Polish Maritime Research ; 30 , 2
2023
Aufsatz (Zeitschrift)
Englisch
High Quality Multi-Zone and 3D CFD Model of Combustion in Marine Diesel Engine Cylinder
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