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      헬리컬 코일 튜브에서의 층류, 천이, 난류 영역의마찰계수에 대한 실험적 연구 = Experimental Study of Friction Factors for Laminar, Transition, and Turbulent Flow Regimes in Helical Coil Tubes

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      https://www.riss.kr/link?id=A105153401

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      다국어 초록 (Multilingual Abstract)

      The friction factors according to the flow regimes in helical coil tubes depend on the coil diameter, the tube diameter, and the coil pitch. In previous studies, correlations for the laminar flow regime in helical coil tubes have been proposed. Howeve...

      The friction factors according to the flow regimes in helical coil tubes depend on the coil diameter, the tube diameter, and the coil pitch. In previous studies, correlations for the laminar flow regime in helical coil tubes have been proposed. However, studies on the transition flow regime and the turbulent flow regime are insufficient and further researches are necessary. In this study, characteristics of the friction factors for the laminar, transition and turbulent flow regimes in helical coil tubes were experimentally investigated. The helical coil tubes used in the experiments were made of copper. The curvature ratios of the helical coil tubes, which means the ratio of helical coil diameter to inner diameter of the helical coil tube are 24.5 and 90.9. Experiments were carried out in the range of 529≤Re≤39,406 to observe the flows from the laminar to the turbulent regime. The friction factors were obtained by measuring the differential pressures according to the flow rates in the helical coil tubes while varying the curvature ratios of the helical coil tubes. Experimental data show that the friction factors for the helical coil tube with 24.5 in the curvature ratio of the helical coil tube were larger than those in the straight tube in all flow regimes. As the curvature ratio of the helical coil tube increases, the friction factor in turbulent flow regime tends to be equal to that of the straight tube. In addition, it was confirmed that the transition flow regimes in the helical coil tubes were much wider than those in the straight tube, also the critical Reynolds numbers were larger than those in the straight tube. The results obtained in this experimental study can be used as basic data for studies on the water hammer phenomenon in helical coil tubes.

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      참고문헌 (Reference)

      1 이선곤, "에어챔버 설치에 따른 펌프관로계의 수격현상" 한국안전학회 26 (26): 1-7, 2011

      2 D. F. Schmidt, "Warmeubarang and Druckverlust in Rohrshlangen" 13 : 781-789, 1967

      3 G. H. Yoo, "Vibration Analysis on the Variable Configurations of Tube Conveying Fluid" 16 (16): 25-30, 2001

      4 M.R.H. Nobari, "Torsion and Curvature Effects on Fluid Flow in a Helical Annulus" 57 : 90-101, 2013

      5 W. M. Collins, "The Steady Motion of a Viscous Fluid in a Curved Tube" 28 : 133-156, 1975

      6 D. Hasson, "Streamline Flow Resistance in Coils" 1 (1): S1-, 1955

      7 H. Ito, "Pressure Losses in Curved Ducts: Coils, Engineering Science Data Unit" 1977

      8 V. Kubair, "Pressure Drop for Liquid Flow in Helical Coils" 14 : 93-97, 1962

      9 P. S. Srinivasan, "Pressure Drop and Heat Transfer in Coils" 218 : CE113-CE119, 1968

      10 S. N. Barua, "On Secondary Flow in Stationary Curved Pipes" 6 : 61-77, 1963

      1 이선곤, "에어챔버 설치에 따른 펌프관로계의 수격현상" 한국안전학회 26 (26): 1-7, 2011

      2 D. F. Schmidt, "Warmeubarang and Druckverlust in Rohrshlangen" 13 : 781-789, 1967

      3 G. H. Yoo, "Vibration Analysis on the Variable Configurations of Tube Conveying Fluid" 16 (16): 25-30, 2001

      4 M.R.H. Nobari, "Torsion and Curvature Effects on Fluid Flow in a Helical Annulus" 57 : 90-101, 2013

      5 W. M. Collins, "The Steady Motion of a Viscous Fluid in a Curved Tube" 28 : 133-156, 1975

      6 D. Hasson, "Streamline Flow Resistance in Coils" 1 (1): S1-, 1955

      7 H. Ito, "Pressure Losses in Curved Ducts: Coils, Engineering Science Data Unit" 1977

      8 V. Kubair, "Pressure Drop for Liquid Flow in Helical Coils" 14 : 93-97, 1962

      9 P. S. Srinivasan, "Pressure Drop and Heat Transfer in Coils" 218 : CE113-CE119, 1968

      10 S. N. Barua, "On Secondary Flow in Stationary Curved Pipes" 6 : 61-77, 1963

      11 P. Mishra, "Momentum Transfer in Curved Pipes 1. Newtonian Fluids; 2. Non-Newtonian Fluids" 18 : 130-142, 1979

      12 "JCGM 100:2008, Evaluation of Measurement Data Guide to the Expression of Uncertainty in Measurement (GUM 1995 with minor corrections)" 1-27, 2008

      13 J. Huaiming, "Hydraulic Performance of Small Bending Radius Helical Coil-pipe" 18 : 826-831, 2001

      14 R. L. Manlapaz, "Fully Developed Laminar Flow in Helically Coiled of Finite Pitch" 7 : 57-78, 1980

      15 H. Ito, "Friction Factors for Turbulent Flow in Curved Pipes" 81 : 123-132, 1959

      16 P. S. Srinivasan, "Friction Factors for Coils" 48 : T156-T161, 1970

      17 F. M. White, "Fluid Mechanics" MCGraw-Hill Education Korea 366-392, 2012

      18 C. M. White, "Fluid Friction and Its Relation to Heat Transfer" 10 : 66-86, 1929

      19 M. Adler, "Flow in Curved Tubes" 14 : 1659-1675, 1934

      20 H. Ito, "Flow in Curved Pipes" 49 : 653-662, 1969

      21 M. Van Dyke, "Extended Stokes Series: Laminar Flow Through a Loosely Coiled Pipes" 86 : 129-145, 1978

      22 L. Prandtl, "Erzeugung von Zirkulationen beim Schutteln von Gefahren" 29 (29): 8-9, 1949

      23 S. Yanase, "Dual Solution of the Flow Through a Curved Tube" 5 : 191-201, 1989

      24 S. W. Churchill, "Comprehensive Correlating Equations for Heat, Mass and Momentum Transfer in Fully Developed Flow in Smooth Tubes" 16 : 109-116, 1977

      25 S. C. R. Dennis, "Calculation of the Steady Flow Through a Curved Tube Using a New Finite-Difference Scheme" 99 : 449-467, 1980

      26 C. Andrea, "An Experimental Investigation Regarding the Laminar to Turbulent Flow Transition in Helically Coiled Pipes" 30 (30): 367-380, 2006

      27 M. Ghobadi, "A Review of Heat Transfer and Pressure Drop Correlations for Laminar Flow in Curved Circular Ducts" 37 (37): 815-839, 2016

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      2027 평가예정 재인증평가 신청대상 (재인증)
      2021-01-01 평가 등재학술지 유지 (재인증) KCI등재
      2018-01-01 평가 등재학술지 유지 (등재유지) KCI등재
      2015-01-01 평가 등재학술지 유지 (등재유지) KCI등재
      2011-01-01 평가 등재학술지 유지 (등재유지) KCI등재
      2009-01-01 평가 등재학술지 유지 (등재유지) KCI등재
      2007-01-01 평가 등재학술지 유지 (등재유지) KCI등재
      2005-10-26 학술지명변경 한글명 : 산업안전학회지 -> 한국안전학회지 KCI등재
      2005-02-28 학회명변경 한글명 : 한국산업안전학회 -> 한국안전학회
      영문명 : The Korean Institute Of Industrial Safety -> The Korean Society of Safety      		 KCI등재
      2004-01-01 평가 등재학술지 선정 (등재후보2차) KCI등재
      2003-01-01 평가 등재후보 1차 PASS (등재후보1차) KCI등재후보
      2001-07-01 평가 등재후보학술지 선정 (신규평가) KCI등재후보
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      기준연도 WOS-KCI 통합IF(2년) KCIF(2년) KCIF(3년)
      2016 0.3 0.3 0.31
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