Image Processing and CFD Simulation Method Comparison in Determining and Visualizing Fluid Flow of a Marine UAV

Sinung Widiyanto, Gde A Prabhawatya Poundra, Widyawasta Widyawasta, Sayuti Syamsuar

Abstract


An investigation of marine UAV performance with various designs have done successfully. The analysis was based on resistance criteria identification both aerodynamically and hydrodynamic. The calculations were conducted with the assistance of image processing as the experimental attempt and High-Fidelity Computational Fluid Dynamics (CFD) software code to simulate the fluid flow on the fuselage designs, pontoons, and image processing. Both methods compared to acquire the silver line in which way they can collaborate to create new way of testing. Furthermore, mathematical calculations and Image processing works refereeing were also performed as the attempt for validations and conclusion

Keywords


Computational fluid dynamics, Fluid flow, Image processing, Marine UAV

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References


S. Kyrimis, R. Raja, and L.-M. Armstrong, “Image processing of computed tomography scanned poly-dispersed beds for computational fluid dynamic studies,” Advanced Powder Technology, vol. 34, no. 11, p. 104199, 2023.

R. Aramesh, V. Akbari, A. Shamiri, M. A. Hussain, and N. Aghamohammadi, “Hydrodynamics and particle mixing/segregation measurements in an industrial gas phase olefin polymerization reactor using image processing technique and CFD-PBM model,” Measurement, vol. 83, pp. 106–122, 2016.

J. Yang, R. W. Breault, and S. L. Rowan, “Applying image processing methods to study hydrodynamic characteristics in a rectangular spouted bed,” Chem Eng Sci, vol. 188, pp. 238–251, 2018.

M. Ye, H.-C. Chen, and A. Koop, “High-fidelity CFD simulations for the wake characteristics of the NTNU BT1 wind turbine,” Energy, vol. 265, p. 126285, 2023.

D. Kim, T. Tezdogan, and A. Incecik, “A high-fidelity CFD-based model for the prediction of ship manoeuvrability in currents,” Ocean Engineering, vol. 256, p. 111492, 2022.

J. Wu, X. Wang, X. Pei, and T. Hou, “Design and simulation analysis of mantle cavity of jet thruster,” in 2023 International Conference on Frontiers of Robotics and Software Engineering (FRSE), IEEE, pp. 347–354, 2023.

F. Zhang, “DualSPHysics: a numerical tool to simulate real breakwaters,” Journal of Hydrodynamics, vol. 30, pp. 95–105, 2018.

T. Jin, Z. Chen, and P. Wang, “Performance assessment of wall-modeled large-eddy simulation for modeling aeolian two-phase flow,” European Journal of Mechanics-B/Fluids, vol. 100, pp. 291–301, 2023.

M. D. Mays, S. Lardeau, and S. Laizet, “Capturing the drag crisis in the flow around a smooth cylinder using a hybrid RANS-LES model on coarse meshes,” Int J Heat Fluid Flow, vol. 103, p. 109203, 2023.

L. von Berg, A. Anca-Couce, C. Hochenauer, and R. Scharler, “Multi-scale modelling of a fluidized bed biomass gasifier of industrial size (1 MW) using a detailed particle model coupled to CFD: Proof of feasibility and advantages over simplified approaches,” Energy Convers Manag, vol. 286, p. 117070, 2023.

S. Iousef, H. Montazeri, B. Blocken, and P. J. V van Wesemael, “Wall-resolved versus wall-modeled LES of the flow field and surface forced convective heat transfer for a low-rise building,” Build Environ, vol. 244, p. 110678, 2023.

F. De Vanna, G. Baldan, F. Picano, and E. Benini, “On the coupling between wall-modeled LES and immersed boundary method towards applicative compressible flow simulations,” Comput Fluids, vol. 266, p. 106058, 2023.

X. Ren, H. Su, H.-H. Yu, and Z. Yan, “Wall-modeled large eddy simulation and detached eddy simulation of wall-mounted separated flow via OpenFOAM,” Aerospace, vol. 9, no. 12, p. 759, 2022.




DOI: http://dx.doi.org/10.12962/j23378557.v9i3.a19215

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