Transient nozzle flow analysis and near field characterization of gasoline direct fuel injector using Large Eddy Simulation

2021 ◽  
pp. 103920
Author(s):  
Raúl Payri ◽  
Jaime Gimeno ◽  
Pedro Martí-Aldaraví ◽  
María Martínez
Keyword(s):  
Large Eddy Simulation ◽  
Near Field ◽  
Flow Analysis ◽  
Nozzle Flow ◽  
Fuel Injector ◽  
Eddy Simulation ◽  
Large Eddy

RANS and Large Eddy Simulation of Internal Combustion Engine Flows—A Comparative Study

2014 ◽  
Vol 136 (5) ◽  
Author(s):  
Xiaofeng Yang ◽  
Saurabh Gupta ◽  
Tang-Wei Kuo ◽  
Venkatesh Gopalakrishnan
Keyword(s):  
Large Eddy Simulation ◽  
High Speed ◽  
Combustion Engine ◽  
Flow Analysis ◽  
Partial Geometry ◽  
Computational Domain ◽  
Mean Flow ◽  
Eddy Simulation ◽  
Large Eddy ◽  
Rans Simulations

A comparative cold flow analysis between Reynolds-averaged Navier–Stokes (RANS) and large eddy simulation (LES) cycle-averaged velocity and turbulence predictions is carried out for a single cylinder engine with a transparent combustion chamber (TCC) under motored conditions using high-speed particle image velocimetry (PIV) measurements as the reference data. Simulations are done using a commercial computationally fluid dynamics (CFD) code CONVERGE with the implementation of standard k-ε and RNG k-ε turbulent models for RANS and a one-equation eddy viscosity model for LES. The following aspects are analyzed in this study: The effects of computational domain geometry (with or without intake and exhaust plenums) on mean flow and turbulence predictions for both LES and RANS simulations. And comparison of LES versus RANS simulations in terms of their capability to predict mean flow and turbulence. Both RANS and LES full and partial geometry simulations are able to capture the overall mean flow trends qualitatively; but the intake jet structure, velocity magnitudes, turbulence magnitudes, and its distribution are more accurately predicted by LES full geometry simulations. The guideline therefore for CFD engineers is that RANS partial geometry simulations (computationally least expensive) with a RNG k-ε turbulent model and one cycle or more are good enough for capturing overall qualitative flow trends for the engineering applications. However, if one is interested in getting reasonably accurate estimates of velocity magnitudes, flow structures, turbulence magnitudes, and its distribution, they must resort to LES simulations. Furthermore, to get the most accurate turbulence distributions, one must consider running LES full geometry simulations.

Large Eddy Simulation of GDI Single-Hole Flow and Near-Field Spray

2012 ◽  
Vol 5 (2) ◽  
pp. 620-636 ◽  
Author(s):  
Bizhan Befrui ◽  
Giovanni Corbinelli ◽  
Peter Spiekermann ◽  
Mark Shost ◽  
Ming-Chia Lai
Keyword(s):  
Large Eddy Simulation ◽  
Near Field ◽  
Single Hole ◽  
Eddy Simulation ◽  
Large Eddy

scholarly journals Characterization of the wake of a submarine propeller via Large-Eddy simulation

2019 ◽  
Vol 184 ◽  
pp. 138-152 ◽  
Author(s):  
Antonio Posa ◽  
Riccardo Broglia ◽  
Mario Felli ◽  
Massimo Falchi ◽  
Elias Balaras
Keyword(s):  
Large Eddy Simulation ◽  
Eddy Simulation ◽  
Large Eddy

Large eddy simulation and experimental measurements of the near-field of a large turbulent helium plume

2004 ◽  
Vol 16 (6) ◽  
pp. 1866-1883 ◽  
Author(s):  
Paul E. DesJardin ◽  
Timothy J. O’Hern ◽  
Sheldon R. Tieszen
Keyword(s):  
Large Eddy Simulation ◽  
Near Field ◽  
Experimental Measurements ◽  
Eddy Simulation ◽  
Large Eddy ◽  
Helium Plume

scholarly journals Entrained flow gasification. Part 3: Insight into the injector near-field by Large Eddy Simulation with detailed chemistry

Fuel ◽  
2018 ◽  
Vol 223 ◽  
pp. 164-178 ◽  
Author(s):  
Georg Eckel ◽  
Patrick Le Clercq ◽  
Trupti Kathrotia ◽  
Alexander Saenger ◽  
Sabine Fleck ◽  
...  
Keyword(s):  
Large Eddy Simulation ◽  
Near Field ◽  
Detailed Chemistry ◽  
Entrained Flow ◽  
Eddy Simulation ◽  
Large Eddy ◽  
Entrained Flow Gasification ◽  
Insight Into

Large-eddy simulation of wing tip vortex in the near field

2008 ◽  
Vol 22 (5) ◽  
pp. 289-330 ◽  
Author(s):  
Li Jiang ◽  
Jiangang Cai ◽  
Chaoqun Liu
Keyword(s):  
Large Eddy Simulation ◽  
Near Field ◽  
Tip Vortex ◽  
Eddy Simulation ◽  
Large Eddy ◽  
Wing Tip Vortex ◽  
Wing Tip
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