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      수직 이착륙기의 고온 고속 배기열에 의한 함정 갑판의열유속 계산을 위한 수치모델 = Numerical Estimation of Heat flux on the Deck Exposed to the High Temperature Impinging Jet of VTOL Vehicle

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      https://www.riss.kr/link?id=A105081982

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      다국어 초록 (Multilingual Abstract)

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      This study has analyzed the convective heat transfer on the deck exposed to the high-temperature impingement exhausting from a VTOL vehicle. The heat flow of the impingement on the deck is modeled by the convection heat transfer. The convective heat flux generated by the hot impinging jet is investigated by using both convective heat transfer formulation and conjugate heat transfer formulation. Computational fluid dynamics(CFD) code was used to compute the heat flux distribution. The RANS equation and the k-e turbulence model were used to analyze the thermal flow of the impinging jet. The heat flux distribution near the stagnation zone obtained by the conjugate heat transfer analysis shows more reasonable than the convective heat transfer analysis.
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      This study has analyzed the convective heat transfer on the deck exposed to the high-temperature impingement exhausting from a VTOL vehicle. The heat flow of the impingement on the deck is modeled by the convection heat transfer. The convective heat f...

      This study has analyzed the convective heat transfer on the deck exposed to the high-temperature impingement exhausting from a VTOL vehicle. The heat flow of the impingement on the deck is modeled by the convection heat transfer. The convective heat flux generated by the hot impinging jet is investigated by using both convective heat transfer formulation and conjugate heat transfer formulation. Computational fluid dynamics(CFD) code was used to compute the heat flux distribution. The RANS equation and the k-e turbulence model were used to analyze the thermal flow of the impinging jet. The heat flux distribution near the stagnation zone obtained by the conjugate heat transfer analysis shows more reasonable than the convective heat transfer analysis.

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      참고문헌 (Reference)

      1 S. Ashforth-Frost, "Velocity and Turbulence Characteristics of a Semiconfined Orthogonally Impinging Slot Jet" 14 (14): 60-67, 1997

      2 X. Liu, "Stagnation-Point Heat Transfer During Impingement of Laminar Liquid Jets: Analysis Including Surface Tension" 115 (115): 99-105, 1993

      3 F. K. Lu, "Performance Analysis of Short Takeoff and Vertical Landing Aircraft Nozzle in Hover" 19 (19): 715-717, 2003

      4 Y. M. Chung, "Numerical Study of Momentum and Heat Transfer in Unsteady Impinging Jets" 23 (23): 592-600, 2002

      5 K. Ichimiya, "Movement of Impingement Heat Transfer by a Single Circular Jet with a Confined Wall" 44 (44): 3095-3102, 2001

      6 G. Cao, "Modelling and Simulation of the Near-Wall Velocity of a Turbulent Ceiling Attached Plane Jet After its Impingement with the Corner" 46 (46): 489-500, 2011

      7 F. Shum-Kivan, "Large-Eddy Simulation and Conjugate Heat Transfer in a Round Impinging Jet" V05AT11A001-V05AT11A001, 2014

      8 N. Zuckerman, "Jet Impingement Heat Transfer: Physics, Correlations, and Numerical Modeling" 2006

      9 S. Downs, "Jet Impingement Heat Transfer-A Literature Survey" 1 : 1987

      10 T. L. Bergman, "Introduction to Heat Transfer" John Wiley & Sons 2011

      1 S. Ashforth-Frost, "Velocity and Turbulence Characteristics of a Semiconfined Orthogonally Impinging Slot Jet" 14 (14): 60-67, 1997

      2 X. Liu, "Stagnation-Point Heat Transfer During Impingement of Laminar Liquid Jets: Analysis Including Surface Tension" 115 (115): 99-105, 1993

      3 F. K. Lu, "Performance Analysis of Short Takeoff and Vertical Landing Aircraft Nozzle in Hover" 19 (19): 715-717, 2003

      4 Y. M. Chung, "Numerical Study of Momentum and Heat Transfer in Unsteady Impinging Jets" 23 (23): 592-600, 2002

      5 K. Ichimiya, "Movement of Impingement Heat Transfer by a Single Circular Jet with a Confined Wall" 44 (44): 3095-3102, 2001

      6 G. Cao, "Modelling and Simulation of the Near-Wall Velocity of a Turbulent Ceiling Attached Plane Jet After its Impingement with the Corner" 46 (46): 489-500, 2011

      7 F. Shum-Kivan, "Large-Eddy Simulation and Conjugate Heat Transfer in a Round Impinging Jet" V05AT11A001-V05AT11A001, 2014

      8 N. Zuckerman, "Jet Impingement Heat Transfer: Physics, Correlations, and Numerical Modeling" 2006

      9 S. Downs, "Jet Impingement Heat Transfer-A Literature Survey" 1 : 1987

      10 T. L. Bergman, "Introduction to Heat Transfer" John Wiley & Sons 2011

      11 R. Matsumoto, "Impingement Heat Transfer Within Arrays of Circular Jets Including the Effect of Crossflow" 1999

      12 E. E. M. Olsson, "Heat Transfer from a Slot Air Jet Impinging on a Circular Cylinder" 63 (63): 393-401, 2004

      13 L. L. Dong, "Heat Transfer and Wall Pressure Characteristics of a Twin Premixed Butane/Air Flame Jets" 47 (47): 489-500, 2004

      14 F. Xu, "Heat Transfer Behavior in the Impingement Zone under Circular Water Jet" 49 (49): 3785-3799, 2006

      15 J. M. Barata, "Fountain Flows Produced by Multiple Impinging Jets in a Crossflow" 34 (34): 2523-2530, 1996

      16 S. Newman, "Foundations of Helicopter Flight" Elsevier 1994

      17 V. Katti, "Experimental Study and Theoretical Analysis of Local Heat Transfer Distribution between Smooth Flat Surface and Impinging Air Jet from a Circular Straight Pipe Nozzle" 51 (51): 4480-4495, 2008

      18 X. Liu, "Convective Heat Transfer by Impingement of Circular Liquid Jets" 113 (113): 571-582, 1991

      19 P. Caccavale, "Conjugate Heat and Mass Transfer in Drying: A Modeling Review" 176 : 28-35, 2016

      20 M. M. Rahman, "Conjugate Heat Transfer During Free Jet Impingement of a High Prandtl Number Fluid" 36 (36): 139-162, 1999

      21 M. Coussirat, "Computational Fluid Dynamics Modeling of Impinging Gas-Jet Systems: I. Assessment of Eddy Viscosity Models" 127 (127): 691-703, 2005

      22 A. Pattamatta, "Assessment of Turbulence Models for Free and Confined Impinging Jet Flows" 27-30, 2011

      23 A. V. Luikov, "Analytical Methods of Solution of Conjugated Problems in Convective Heat Transfer" 14 (14): 1047-1056, 1971

      24 J. Y. Koo, "Aero Propulsion Engine" Dong Myung Sa 211-293, 2013

      25 ANSYS Inc, "ANSYS Theory Reference" 2012

      26 K. Jambunathan, "A Review of Heat Transfer Data for Single Circular Jet Impingement" 13 (13): 106-115, 1992

      27 B. N. Hewakandamby, "A Numerical Study of Heat Transfer Performance of Oscillatory Impinging Jets" 52 (52): 396-406, 2009

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