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The Hydrodynamic Study of the Swimming Gliding: a Two-Dimensional Computational Fluid Dynamics (CFD) Analysis

References Bixler B, Pease D, Fairhurst, F. The accuracy of computational fluid dynamics analysis of the passive drag of a male swimmer. Sports Biomech, 2007; 6: 81-98. Callaway AJ, Cobb JE, Jones I. A comparison of video and accelerometer based approaches applied to performance monitoring in swimming. Int J Sports Sci Coaching, 2009; 4(1): 139-153. Clarys J. Human morphology and hydrodynamics. In: Terauds J (ed.), Swimming Science III. University Park Press, Baltimore, 1979; 3

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Shape optimization of an autonomous underwater vehicle with a ducted propeller using computational fluid dynamics analysis

Performance of an Underwater Vehicle Estimated by a CFD Method and Experiment, ISOPE '07, Lisbon, Spain. Phillips, A., Furlong, M. and Turnock, S.R., 2007. The Use of Computational Fluid Dynamics to Access the Hull Resistance of Concept Autonomous Underwater Vehicles, OCEAN '07 IEEE Aberdeen. Wilcox, D.C., 1998. Turbulence Modeling for CFD, DCW Industries

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Design and Simulation of an Air Conditioning Project in a Hospital Based on Computational Fluid Dynamics

”, Proocdia Engineering. 121:114-121,2015. 21. C. J. Keylock, G. Constantincscu, R. J. Hardy. "The application of computational fluid dynamics to natural river channels: Eddy resolving versus mean flow approaches”, Goo morphology, 179(2): 1-20,2012. 22. L. Xia. P. Zhang, R. Z. Wang. "Numerical heat transfer analysis of the packed bed latent heat storage system hasedon an effective packed bod model”. Energy, 3S(5):2022-2032,2010. 23. P. H. Yoon, T. Umeda. Nonlinear turbulence theory and simulation of Buncman instability

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Improvement performance of Al-Wathba settling tank by a computational fluid dynamics model

References ADAMS E. W., RODI W., 1990: Modeling flow and mixing in sedimentation tanks. J. Hydr. Engng., 116 , 7, pp. 895-913. APHA, 1992: Standard methods for the examination of water and wastewater. Eds. Clesceri L.S, Greenberg A. E. and Eaton A. D., 2 nd Ed. APHA, Washington DC, USA. BROUCKAERT C. J., BUCKLEY C. A., 1999: The use of computational fluid dynamics for improving the design and operation of water and wastewater treatment plants. Wat. Sci. Tech., 40 , 4-5, pp. 81

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Noninvasive Assessment of Coronary Artery Disease: Fractional Flow Reserved Derived from Coronary Computed Tomography Angiography (FFRCT)

relationship between CT angiography, computational fluid dynamics, and noninvasive fractional flow reserve. Clin Radiol . 2016;71(8):750-757. 13. Pijls NH, van Son JA, Kirkeeide RL, et al. Experimental basis of determining maximum coronary, myocardial and collateral blood flow by pressure measurements for assessing functional stenosis severity before and after percutaneous transluminal coronary angioplasty. Circulation . 1993;87(4):1354-1367. 14. Pijls NH, van Schaardenburgh, Manoharan G, et al. Percunateous coronary intervention of functionally nonsignificant

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Influence of the Symmetry Plane Boundary Condition on the Planing Multihull Calm Water Resistance Test. CFD to Towing Tank Comparison

REFERENCES Abramowski, T., and Sugalski, K. (2017). Energy saving procedures for fishing vessels by means of numerical optimization of hull resistance. Scientific Journals of the Maritime University of Szczecin 121, pp. 19-27. Blazek, J. (2005). Computational Fluid Dynamics: Principles and applications. Elsevier. Ferziger, J.H., and Perić, M. (2002). Computational Methods for Fluid Dynamics. Berlin: Springer-Verlag. Kim, G.H., and Park, S. (2017). Development of a numerical tool for efficient and robust prediction of ship resistance

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Reduction of Drag of SUV Similar to Tata Sumo Using Vortex Generator

Characteristics, 2011 International Conference on Physics Science and Technology (ICPST 2011). [4] K alyan , D. K., A. R. P aul . Computational Study of Flow Around a Simplified 2D Ahmed Body. IJESIT , 2 , 3, ISSN: 2319-5967. [5] A hmed , S. R., G. R amm , G. F altin . Some Salient Features of the Time-Averaged Ground Vehicle Wake. SAE-paper 840300, 1984. [6] H irsch , C., B. T artinville . Reynolds-Averaged Navier-Stokes Modelling for Industrial Applications and Some Challenging Issues. International Journal of Computational Fluid Dynamics , 23 , 4

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Computational Fluid Dynamics Methods and Their Applications in Medical Science

, W. (2007). An Introduction to Computational Fluid Dynamics: The Finite Volume Method (2nd Edition) . England: Pearson. Zhao, H., & Caflisch, A. (2015). Molecular dynamics in drug design. European Journal of Medicinal Chemistry , 91, 4–14.

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Numerical model to study the combustion process and emissions in the Wärtsilä 6L 46 four-stroke marine engine

.A.; Heywood, J.B.; Keck, J.C.: Experimental and theoretical investigation of nitric oxide formation in internal combustion engines . Combustion Science Technology 1, pp. 313-326, 1970. 15. Versteeg H.K., Malalasekera W.: An introduction to computational fluid dynamics: the finite volume method. 2nd Edition. Harlow: Pearson Education, 2007. 16. Taylor, C.F.: The internal combustion engine in theory and practice . 2nd Edition. MIT Press, 1985.

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Airflow inside the nasal cavity: visualization using computational fluid dynamics

; 161: 125-35. 7. Segal RA, Kepler GM, Kimbell JS. Effects of differences in nasal anatomy on airflow distribution: a comparison of four individuals at rest. Ann Biomed Eng. 2008; 36: 1870-82. 8. Mylavarapu G, Murugappan S, Mihaescu M, Kalra M, Khosla S, Gutmark E. Validation of computational fluid dynamics methodology used for human upper airway flow simulations. J Biomech. 2009; 42:1553-9. 9. Cheng YS. Yeh HC, Guilmette RA, Simpson SQ, Cheng KH, Swift DL. Nasal deposition of ultrafine particles in human volunteers and

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