Search Results

1 - 10 of 458 items :

Clear All
CFD Analysis of Dry Cask Nuclear Fuel Storage

References [1] Jakubec J., Paulech J., Kutiš V., Gálik G. “Influence Bypass on Thermo-Hydraulics of VVER440 Fuel Assembly”, Strojnícky časopis – Journal of Mechanical Engineering 67 (1), pp. 69 – 76, 2017 . DOI: 10.1515/scjme-2017-0007 [2] Kutiš, V., Jakubec, J., Paulech, J., Gálik, G., Sedlár, T. “CFD Analysis of Downcomer of Nuclear Reactor VVER 440”, Strojnícky časopis – Journal of Mechanical Engineering 66 (2), pp. 55 – 62, 2016 . DOI: 10.1515/scjme-2016-0018 [3] ANSYS Design Modeler, Manual, 2015 . [4] ANSYS ICEM CFD, Manual, 2015

Open access
Windshield Defrost Simplified CFD Model

. University of Pardubice, Pardubice, Czechia. Thejeshwar Sadananda, 2016. Improving the Accuracy of CFD Method for Windscreen Deicing . Chalmers University of technology, Goteborg, Sweden. SAE J381, 2019. Windshield Defrosting Systems Test Procedure and Performance Requirements - Trucks, Buses, and Multipurpose Vehicles . SAE J902, 2011. Passenger Car Windshield Demisting and Defrosting Systems . Siemens STAR-CCM+ Theory Guide, release 13.04.010.

Open access
CFD Simulation Of Air-Flow Over A „Quarter-Circular” Object Valided By Experimental Measurement

REFERENCES [1] WILCOX, D.C. Turbulence Modeling for CFD . 3rd edition. La Canada CA: DCW Industries, Inc. 2006. DOI: 10.1017/S0022112095211388. [2] WILCOX, D.C. Multiscale model for turbulent flows. In: AIAA 24th Aerospace Sciences Meeting. American Institute of Aeronautics and Astronautics , 1986. ISBN: 978-1-84821-001-1. [3] WILCOX, D.C. Formulation of the k-omega Turbulence Model Revisited. In: AIAA Journal , Vol. 46, No. 11, pp. 2823-2838, 2008. DOI: 10.2514/1.36541. [4] MENTER, F.R. Zonal two-equation k-ω turbulence model for

Open access
CFD Simulation of a Natural Circulation Helium Loop

REFERENCES [1] Ye C., Zheng M. G., Wanga M. L., Zhang R. H., Xiong Z. Q.: The design and simulation of a new spent fuel pool passive cooling system, Annals of Nuclear Energy 58 (2013) 124–131 [2] Wang J. Y., Chuang T. J., Ferng Y. M.: CFD investigating flow and heat transfer characteristics in a natural circulation loop, Annals of Nuclear Energy 58 (2013) 65–71 [3] Misale M.: Overview on single-phase natural circulation loops, Proc. of the Intl. Conf. on Advances In Mechanical And Automation Engineering – MAE 2014. [4] Berka J., Hlincik T

Open access
Using CFD Techniques in Teaching Rectangular Settling Tank Hydrodynamics

REFERENCES Bourque D. R., & Carlson G. R. (1987). Hands-on versus computer simulation methods in chemistry. Journal of Chemical Education, 64 (3), 232-234. Cheremisinoff, N., (2001), Handbook of Water and Wastewater Treatment Technologies, 1st Edition Esping D., Shaposka H., Wahlberg E., Ifft J., ex McCorquodale J. A. (2012). Optimizing Primary Sedimentation and Wet Weather Flow Treatment Using CFD Modeling, WEFTEC 2012 , September 29 - October 3, New Orleans, LA Goula A. M., Kostoglou M., Karapantsios T. D., Zouboulis A.I. (2008). A

Open access
A multiscale methodology for CFD simulation of catalytic distillation bale packings

-S ® structures studied using CFD simulations. Chem. Eng. Sci. 57, 1531–1536. DOI: 10.1016/S0009-2509(02)00026-X. 19. van Baten, J.M. & Krishna, R. (2001). Liquid-phase mass transfer within KATAPAK-S ® structures studied using computational fluid dynamics simulations. Catal. Today. 69, 371–377. DOI: 10.1016/S0920-5861(01)00394-7. 20. van Baten, J.M., Ellenberger J., Krishna R. (2001). Radial and axial dispersion of the liquid phase within a KATAPAK-S ® structure: experiments vs. CFD simulations. Chem. Eng. Sci. 56, 813–821. DOI: 10.1016/S0009

Open access
CFD Approach to Modelling Hydrodynamic Characteristics of Underwater Glider

wings. IEEE, 978-1-4799-3646-5/14, 2014. [14] Singh Y., Bhattacharyya S.K., Idichandy V.G., CFD approach to steady state analysis of an underwater glider. IEEE, 978-1-4799-4918-2/14/, 2014. [15] Phillips A. B., Turnock S. R., Furlong M., Influence of turbulence closure models on the vortical flow field around a submarine body undergoing steady drift, J. Marine Sci. Techn., 2010, 15(3), 201-217. [16] Zhang J.T. Jordan A. M., Gerber,A. G., Gordon A., Holloway L., Watt, G.D., Simulation of the flow over axisymmetric submarine hulls in steady turning

Open access
OpenFOAM: Open source CFD in research and industry

of a generalized grid interface for turbomachinery simulations with OpenFOAM. In: open Source CFD International Conference. Berlin, Germany 4-5 December 2008.

Open access
CFD modeling of passive autocatalytic recombiners

–59. 8. Levine, R. D. (2005). Molecular reaction dynamics . Cambridge University Press. 9. Launder, B. E. (1978). Heat and mass transport. In P. Bradshaw (Ed.) Topics in applied physics: turbulence (Vol. 12). Berlin: Springer. 10. Kays, W. M., & Crawford, M. E. (1980). Convective heat and mass transfer . McGraw Hill. 11. Tominaga, Y., & Stathopoulos, T. (2007). Turbulent Schmidt numbers for CFD analysis with various types of flowfield. Atmos. Environ ., 41 (37), 8091–8099. 12. CHEMKIN. (2000). Reaction design: TRANSPORT, a software

Open access
Appropriate CFD Turbulence Model for Improving Indoor Air Quality of Ventilated Spaces

References [1] Hancock, T. (2002). Built Environment (Encyclopedia of Public Health). Retrieved June 19, 2014 from http://www.encyclopedia.com/doc/1G2-3404000130.html [2] Rota R., Canossa L. & Nano G. (2001). Ventilation design of industrial premises through CFD modelling. Canadian Journal of Chemical Engineering. 79(1), 80-86. [3] Kaji H., Akabayashi S.I. & Sakaguchi J. (2009). CFD analysis for detached house: Study on the ventilation efficiency on constantly ventilated house part 1. Journal of Environmental

Open access