연구동향 분석
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거친 벽과 다공 배플이 설치된 사각 채널의 열전달과 마찰계수에 관한 연구

배성택 2015년

논문상세정보
인용/피인용
' 거친 벽과 다공 배플이 설치된 사각 채널의 열전달과 마찰계수에 관한 연구' 의 주제별 논문영향력
논문영향력 선정 방법
논문영향력 요약
주제
  • 마찰계수
  • 사각 채널
  • 열전달
동일주제 총논문수 논문피인용 총횟수 주제별 논문영향력의 평균
164 0

0.0%

' 거친 벽과 다공 배플이 설치된 사각 채널의 열전달과 마찰계수에 관한 연구' 의 참고문헌

  • 전산열유체공학. 문운당
    명현국 개정3판 : 232 ? 239 [2005]
  • 연비향상을 위한 자동차용 열교환기 최신 기술 동향. Trans
    원종필 KSME, 54(5) : 40 - 44 [2014]
  • 엇갈린 V-형 리브가 부착된 냉각유로에서의 열유동 수치해석
    김광용 명현국 한국전산유체공학회지, 13(4) : 107 - 113 [2008]
  • 상설유체역학
    손병진 희중당 : 523 ? 527 [1997]
  • 사각채널에서 거친벽면이 압력강하와 열전달에 미치는 효과
    배성택 경 상대학교 대학원 기관공학과 석사논문집 [2004]
  • 사각덕트에서 거칠기 형상이 마찰계수와 열전달에 미 치는 효과
    손강필 안수환 설비공학 논문집, 13(5) : 341 - 347 [2001]
  • 비정렬격자계를 사용하는 열/유체 유동해석 방법에 관한 연구. 과학기술부, 범용 열/유체 유동해석 프로그램의 개발
    명현국 공학용 해석 S/W 개발 사업 : 137 ? 149 [2004]
  • 배역충돌제트에서 횡방향유동성분에 따른 열/ 물질전달 특성고찰
    윤필현 이동호 조형희 대한기계확회논문집, 24(2) : 195 - 203 [2000]
  • Ziolkowska, I., Dolata, M., and Ziolkowski, D. 1999. Heat and momentum transfer in fluids heated in tubes with turbulence generators at moderate Prandtl and Reynolds numbers. Int. J. Heat Mass Transfer, 42(4) : 613 - 627.
  • Zhang, Y. M., Azad, G. M., Han, J. C. and Lee, C. P. 2000. Turbulent heat transfer enhancement and surface heating effect in square channels with wavy and twisted tape inserts with interrupted ribs. Enhanced Heat Transfer, 7 : 35 - 47.
  • Zang, Y. M., Han, J. C., Parsons, J. A. and Lee, C. P. 1993. Surface heating effect on local heat transfer in a rotating two-pass square channel with 60 angled rib turbulators. ASME J. Turomachinery : 1 - 9.
  • Yilmaz, M. 2003. The effect of inlet flow baffles on heat transfer. Int. Comm. Heat Mass Transfer, 30(8) : 1169 - 1178.
  • Yang, Y. T., and Hwang, C. Z. 2003. Calculation of turbulence flow and heat transfer in a porous-baffled channel. Int. J. Heat and Mass Transfer, 46(5) : 771 - 780.
  • Yan, X. and Saniei, N. 1997. Heat transfer from an oblique impinging air jet to a flat plate. Int. J. Heat Fluid Flow, 8(6) : 591 - 599.
  • Yakhot, V., Orszag, S.A., Thangam, S., Gatski, T.B. & Speziale, C.G. 1992. Development of turbulence models for shear flows by a double expansion technique. Physics of Fluids A, 4(7) : 1510 - 1520.
  • Wu, S. J., Lee, S. Y., Choi. C., and Cho, H. H. 2001. Heat/mass transfer augmentation in a square duct roughened with angled discrete ribs having narrow gaps. KSME(B), 26 : 150 - 158.
  • Wilcox, D.C. 1986. Multiscale model for turbulent flows. In AIAA 24th Aerospace Sciences Meeting. American Institute of Aeronautics and Astronautics.
  • Webb, R. L., Eckert, E. R. G., Goldstein, R. J. 1971. Heat transfer and friction in tubes with repeated-rib roughness. Int. J. Heat and Mass Transfer, 14 : 601 - 617.
  • User Guide Ⅰ, STAR-CD Version 3.10 : 1-6 - 1-9.
  • Tutorials, CFX Version 5.6 : 261-451.
  • Tsay, Y. L., Cheng, J. C. and Chang, T. S. 2003. Enhancement of heat transfer from surface-mounted block heat sources in a duct with baffles. Nume. Heat Transfer, Part A, 43(8) : 827 - 841.
  • Tsay, Y. L., Chang, T. S., and Cheng, J. C. 2005. Heat transfer enhancement of backward-facing step flow in a channel by using baffle installed on the channel wall. Acta Mech., 174(1-2) : 63 - 76.
  • Tennekes, H. and Lumley, J. L. 1994. A First Course in Turbulence. MIT Publishing Company.
  • Stephen, B. P. 2002. Turbulent Flows. Cambridge University Press.
  • Sieder, E. N. and Tate, C. E. 1936. Heat transfer and pressure drop of liquids in tubes. Ind. Eng. Chem., 28 : 1429 - 1936.
  • Sara, O. N., Pekdemir, T., Yapici, S., and Yilmaz, M. 2001. Heat transfer enhancement in a channel flow with perforated rectangular blocks. Int. J. Heat and Fluid Flow, 22(5) : 509 - 518.
  • Royal, J. 1975. Augmentation of horizontal in-tube condensation of steam. Ph. D. dissertation, Iowa State University, Ames, Iowa.
  • Raw, M. J. 1996. Robustness of coupled algebraic multigrid for the Navier-Stokes equations. 34th Aerospace and Sciences Meeting & Exhibit, Reno, NV. January 15 - 18, AIAA96 - 0297.
  • Raw, M. J. 1994. A coupled algebraic multigrid method for the 3D Navier Stokes equations. 10th GAMM Seminar, Kiel.
  • RNG ?? ? 난류모델을 이용한 유동박 리 및 선회를 가지는 난류유동의 예측
    김성구 김용모 오군섭 이창식 한국자동차공학논문집, 4(5) : 119 - 129 [1996]
  • Ooi, A., Iaccarino, G., Durbin, P.A. and Behnia, M. 2002. Reynolds averaged simulation of flow and heat transfer in ribbed ducts. Int. J. Heat and Fluid Flow, 23(6) : 750 ? 757.
  • Nikuradse, J. 1950. Laws for flow in rough pipes. NACA TM. 1292.
  • Nikuradse, J. 1933. Laws of flow in rough pipe. VDI Forsch, 361.
  • Mochizuki, S., Murata, A. and Fukunaga, M. 1997. Effects of rib arrangements on pressure drop and heat transfer in a rib-roughened channel with a sharp 180 deg turn. ASME J. Turomachinery, 119 : 610 - 616.
  • Methodology, STAR-CD Version 3.10 : 6-1 - 6-8.
  • Menter, F.R. 1993. Multiscale model for turbulent flows. In 24th Fluid Dynamics Conference. American Institute of Aeronautics and Astronautics.
  • Menter, F. R. 1994. Two-equation eddy-viscosity turbulence models for engineering applications. AIAA-Journal, 32(8) : 1598 - 1605.
  • McMurray, D. C., Myers, P. S. and Uyehara, O. A. 1996. Influence of impinging jet variables on local heat transfer coefficients along a flat surface with constant heat flux. Proceeding of Third International Heat Transfer Conference, Chicago, IL.2 : 292 - 299.
  • Liu, T. S. and Sullivan, J. P. 1996. Heat transfer and flow structures in an excited circular impinging jet. Int. J. Heat Mass Transf., 39 (17) : 3695 - 3706.
  • Lin, Z. H., Chou Y. J. and Hung Y. H. 1997. Heat transfer behavior of a confined slot jet impingement. Int. J. Heat Mass Transf., 40(5) : 1095 - 1107.
  • Lee, S. Y., Choi, C., Rhee, D. H., and Cho, H. H. 2001. Heat/mass transfer and friction characteristic in a square duct with various discrete ribs. KSME(B), 25 : 1640 -1649.
  • Launder, B.E., Reece, G.J. and Rodi, W. 1975. Progress in the developments of a Reynolds-stress turbulence closure. J. Fluid Mechanics, 68 : 537 - 566.
  • Launder, B.E. and Spalding, D.B. 1974. The numerical computation of turbulent flows. Comp. Meth. Appl. Mech. Eng., 3 : 269 - 289.
  • Launder, B. E. and Spalding, D. B. 1974. The numerical computation of turbulent flow. Comp. Meth. in Appl. Mech. & Eng., 3 : 269 - 289.
  • Lau, S. C., McMillin, R. D. and Han, J. C. 1991. Turbulent heat transfer and friction in a square channel with discrete rib turbulators. J. Turbomachinery, 113 : 360 - 366.
  • Lau, S. C., McMillin, R. D. and Han, J. C. 1991. Heat transfer characteristics of turbulent flow in a square channel with angled discrete ribs. J. Turbomachinery, 113 : 367 - 374.
  • Kukreja, R. T., Lau, S. C., McMillin, R. D. and Chandra, P. R. 1991. Effects of length and configuration of transverse discrete ribs on heat transfer and friction for turbulent flow in a square channel. ASME/JSME Thermal Engineering Joint Conference, 3 : 213 - 218, Reno, Nevada.
  • Ko, K. H., and Anand, N. K. 2003. Use of porous baffles to enhance heat transfer in a rectangular channel. Int. J. Heat and Mass Transfer, 46(22) : 4191 - 4199.
  • Kline, S. J. and McClintock, F. A. 1953. Describing uncertainty in single sample experiments. Mechanical Engineering, 75 : 3 ? 8.
  • Kim, W. C., Ary, B. K. P., Kang, H. K. and Ahn, S. W. 2007. Characteristics of heat transfer in the ribbed rectangular channel with varying heating condition. Int. J. Air-Conditioning and Refrigeration, 15 : 10 - 16.
  • Khan, J. A., Hinton, J. and Baxter, S. C. 2002. Enhancement of Heat Transfer with Inclined Baffles and Ribs Combined. J. Enhanced Heat Transfer, 9(3-4) : 137 - 151.
  • Kelkar, K. M. and Patankar, S. V. 1987. Numerical prediction of flow and heat transfer in parallel plate channel with staggered fins. ASME J. Heat Transfer, 109 : 25 - 30.
  • Kays, W. M. and Crawford, M. E. 1990. Convective heat and mass transfer. 2nd ed. McGraw-Hill. New York.
  • Kang, H. K., Ahn, S. W., Bae, S. T. and Lee, D. H. 2007. Analysis of the heat transfer and friction in a ribbed square channel using numerical and experimental methods. J. Process Mechanical Engineering, Proc. ImechE Part E, 221 : 151 - 159.
  • Kang, H. K., Ahn, S. W. and Ary, B. K. P. 2007. Experimental and numerical analysis for effects of two inclined baffles on heat transfer augmentation in a rectangular channel. SAREK, 11 : 751 - 760.
  • Jayatilleke. C. L. V. 1969. The influence of prandtl number and surface roughness on the resistance of the laminar sublayer to momentum and heat transfer. Prog. Heat Mass Transfer, 1 : 193 - 321.
  • Hong, S. K., Lee D. H., Cho, H. H. and Rhee, D. H. 2010. Local heat/mass transfer measurements on effusion plates in impingement/effusion cooling with rotation. Int. J. Heat Mass Transfer, 53 : 1373 - 1379.
  • Han, J. C., Zhang, P. 1989. Pressure loss distribution in three-pass rectangular channel with rib turbulators. J. Turbomachinery, 111 : 515 - 521.
  • Han, J. C., Park, J. S. and Lei, C. K. 1985. Heat transfer enhancement in channels with turbulence promoters. J. Eng. Gas Turbines Power, 107(3) : 628 - 635.
  • Han, J. C., Park, J. S. and Lei, C. K. 1985. Heat transfer enhancement in channels with turbulence promoter. ASME J. Engineering for Gas Turbines and Power, 107 : 628 - 635.
  • Han, J. C., Ou, S., Park, J. S. and Lei, C. K. 1989. Augmented heat transfer in rectangular channels of narrow aspect ratios with rib turbulators. Int. J. Heat and Mass Transfer, 32(9) : 1619 - 1630.
  • Han, J. C., Glicksman, L. R., Rohsenow, W. M. 1978. An investigation of heat transfer and friction for rib-roughened surfaces. Int. J. Heat and Mass Transfer, 21 : 1143 - 1156.
  • Han, J. C., Dutta, S. and Ekkad, S. V. 2000. Gas turbine heat transfer and cooling technology. Tylor & Francis, Inc. New York, : 1 - 781.
  • Han, J. C., Chandra, P. R., Lau, S. C. 1988. Local heat/mass transfer distributions around sharp 180 turns in two-pass smooth and rib-roughened channel. Int. J. Heat Mass Transfer, 110 : 91-98.
  • Han, J. C. and Park, J. S. 1988. Developing heat transfer in rectangular channels with rib turbulators. Int. J. Heat and Mass Transfer, 31(1) : 183 - 195.
  • Han, J. C. 1988. Heat transfer and friction characteristics in rectangular channels with rib turbulators. J. Heat Transfer, 110(2), : 321 - 328.
  • Han, J. C. 1988. Heat transfer and friction characteristics in rectangular channels with rib turbulators. J. Heat Transfer, 110 : 321 - 328.
  • Han, J. C. 1984. Heat transfer and friction in channels with two opposite rib-roughened walls. J. Heat Transfer, 106 : 774 - 781.
  • Habib, M. A., Mobarak, A. M., Sallak, M. A., Abdel Hadi, E. A. and Affify, R. I. 1994. Experimental investigation of heat transfer and flow over baffles of different heights. ASME J. Heat Transfer, 116 : 363
  • Goldstein, R. J. and Seol, W. S. 1991. Heat transfer to a row of impinging circular air-jets including the effect of entrainment. Int. J. Heat Mass Transf., 34(8) : 2133 - 2147.
  • Dutta, S., Dutta, P., Jones, R. E. and Khan, J. A. 1997. Experimental study of heat transfer coefficient enhancement with inclined solid and perforated baffles. Int. Mech. Engineering Congress and Exposistion, ASME Paper No. 97-WA/HT-4, November 16 - 21, Dallas, Texas.
  • Dutta, P. and Dutta, S. 1998. Effect of baffle size, perforation and orientation on internal heat transfer enhancement. Int. J. Heat Mass Transfer, 41(19) : 3005 - 3013.
  • Dutta P. and Hossain, A. 2005. Internal cooling augmentation in rectangular channel using two inclined baffles. Int. J. Heat Fluid Flow, 26 : 223 - 232.
  • Dittus, F. W. and Borlter, L. M. K. 1930. Heat transfer in automobile radiators of the tubal type. University of California Publications in Engineering, 2 : 443 - 461.
  • Dipprey, D. F., and Sabersky, R. H. 1963. Heat and momentum transfer in smooth and rough tubes in various prandtl number. Int. J. Heat and Mass Transfer, 6 : 329 - 353.
  • Choi, C., Rhee, D. H. and Cho, H. H. 2002. Heat/mass transfer and pressure drop in a square duct with V-shaped ribs. Trans. KSME(B) : 1542 ? 1551.
  • Chen, Z. D., and Chen, J. J. J. 1998. Local heat transfer for oscillatory flow in the presence of a single baffle within a channel. Chemical Engineering Science, 53(17) : 3177 - 3180.
  • Chapra, S. C. and Canale, R. P. 1999. Numerical Methods for Engineers. 3rd Edition, McGraw-Hill Companies.
  • Chandra, P. R., Alexander, C. R., Han, J. C. 2003. Heat transfer and friction behaviors in rectangular channels with varying number of ribbed walls. Int. J. Heat Mass Transfer, 46 : 481 - 495.
  • Chandra, P. R. Fontenot, M. L., Han. J. C. 1998. Effect of rib profiles on turbulent channel flow heat transfer. J. Thermophysics and Heat Transfer, 2(1) : 116-118.
  • Boussinesq, J. 1877. Essai sur la th orie des eaux courantes. M moires pr sent s par divers savants l'Acad mie des Sciences, 23 (1) : 1 - 680.
  • Berner, C., Durst, F. and McEligot, D. M. 1984. Flow around baffles. ASME J. Heat Transfer, 106 : 743 - 749.
  • Beltaos, S. 1976. Oblique impingement of circular turbulent jets. J. Hydraulic Res., 14 : 17 - 36.
  • Beitelmal, A. H., Saad, M. A. and Patel, C. D. 2000. The effect of inclination on the heat transfer between a flat surface and an impinging two-dimensional air jet. Int. J. Heat Fluid Flow, 21(2) : 156 - 163.
  • Bardian, J. E., Huang, P. G. and Coakley, T. 1997. Turbulence Modeling Validation. AIAA : 97 - 2121.
  • Ahn, S. W., Kang, H. K., Putra, A. B. K. and Lee, D. H. 2007. An experimental investigation of heat transfer and friction in a ribbed square channel. J. Process Mechanical Engineering, Proc. ImechE Part E, 221 : 219 - 223.
  • Ahn, S. W., Kang, H. K., Bae, S. T. and Lee, D. H. 2008. Heat transfer and friction factor in a square channel with one, two, or four inclined ribbed walls. ASME Journal of Turbomachinery, 130 : 1 - 5.
  • Ahn, S. W., Kang, H. K. and Ary, B. K. P. 2009. A numerical study on heat transfer and friction in rectangular channel with inclined perforated baffles. The Canadian J. of Chem. Eng., 87 : 415 - 421.
  • Ahn, S. W. and Kang, H. K. 2007. Characteristics of heat transfer in the channel with twisted tape. Int. J. Air-Conditioning and Refrigeration, 15 : 122 - 128.
  • Ahmet, T. 2006. Effect of flow geometry parameters on transient heat transfer for turbulent flow in a circular tube with baffle inserts. Int. J. Heat Mass Transf., 49 : 1559 - 1567.
  • ANSYS Inc. 2010. ANSYS CFX-Solver Theory Guide. Release 13.0 : 77 - 139.