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1. 2. 3. 4. 5. 6. © Forced Convection From A Rotationally Oscillating Cylinder Placed In A Uniform Stream Mahfouz, FM; Badr, HM PERGAMON-ELSEVIER SCIENCE.

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Presentation on theme: "1. 2. 3. 4. 5. 6. © Forced Convection From A Rotationally Oscillating Cylinder Placed In A Uniform Stream Mahfouz, FM; Badr, HM PERGAMON-ELSEVIER SCIENCE."— Presentation transcript:

1 1. 2. 3. 4. 5. 6. © Forced Convection From A Rotationally Oscillating Cylinder Placed In A Uniform Stream Mahfouz, FM; Badr, HM PERGAMON-ELSEVIER SCIENCE LTD, INTERNATIONAL JOURNAL OF HEAT AND MASS TRANSFER; pp: 3093-3104; Vol: 43 King Fahd University of Petroleum & Minerals http://www.kfupm.edu.sa Summary Forced convection from a heated cylinder performing rotational oscillation about its own axis and placed in a uniform stream is investigated. The governing equations of motion and energy are solved numerically to determine the flow field characteristics and the heat transfer coefficients. The main dominating parameters are Reynolds numbers, Re, Prandtl number, Pr, amplitude of oscillation, Theta(A), and the frequency ratio, F-R, which represents the ratio between the frequency of oscillation, f, and the natural frequency of vortex shedding, f(0). The ranges considered for these parameters are 40 less than or equal to Re less than or equal to 200, 0 less than or equal to Theta(A)less than or equal to pi and 0 less than or equal to F(R)less than or equal to 2, while the Prandtl number is kept constant at 0.7. The lock-on phenomenon has been detected and its effect on the thermal field has been determined. The results show that the lock-on phenomenon occurs within a band of frequency near the natural frequency and the heat transfer coefficient has shown appreciable increase in the lock- on frequency range. (C) 2000 Elsevier Science Ltd. All rights reserved. References: BADR HM, 1985, J FLUID MECH, V158, P447 BISHOP RED, 1964, P ROY SOC LOND A MAT, P227 CHENG CH, 1997, INT J HEAT MASS TRAN, V40, P1825 CHILDS EP, 1984, INT J HEAT MASS TRAN, V27, P85 CHINHSIANG C, 1994, ASME HTD, V287, P25 CHOU MH, 1997, COMPUT FLUIDS, V26, P755 Copyright: King Fahd University of Petroleum & Minerals; http://www.kfupm.edu.sa

2 7. 8. 9. 10. 11. 12. 13. 14. 15. 16. 17. 18. 19. 20. 21. 22. 23. 24. 25. 26. 27. 28. 29. 30. 31. 32. 33. 34. © COLLINS WM, 1973, J FLUID MECH, V60, P105 ECKERT ERG, 1952, T AM SOC MECH ENG, V74, P343 FILLER JR, 1991, J FLUID MECH, V231, P481 GRAFFIN OM, 1976, J FLUID MECH, V75, P257 HORI E, 1962, B JSME, V5 HURLBUT SE, 1982, ASME, V104, P214 JAIN PC, 1976, J HEAT TRANSFER, V98, P303 KARANTH D, 1994, INT J HEAT MASS TRAN, V37, P1619 KEZIOS SP, 1966, T ASME KRAMERS H, 1946, PHYSICA, V12, P61 LEUNG CT, 1981, J SOUND VIBRATION, V75, P581 LU XY, 1996, J FLUID STRUCT, V10, P829 MORGAN VT, 1975, ADV HEAT TRANSFER, V11, P199 OKAJIMA A, 1975, I SPACE AERO SCI REP, V532, P311 RASHID AA, 1996, HET TRANSFER ENG, V17, P31 RICHARDSON PD, 1963, CHEM ENG SCI, V18, P149 ROSHKO A, 1954, 1191 NACA SAXENA UC, 1978, ASME, V100, P684 SREENIVASAN K, 1961, INT J HEAT MASS TRAN, V3, P60 STANSBY PK, 1976, J FLUID MECH, V74, P641 TAKAHASHI K, 1990, J CHEM ENG JPN, V23, P45 TANIDA S, 1978, J PHYS SOC JPN, V45, P1038 TANIDA Y, 1973, J FLUID MECH, V61, P769 TOKUMARU PT, 1991, J FLUID MECH, V224, P77 TOKUMARU PT, 1993, J FLUID MECH, V255, P1 WILLIAMSON CHK, 1989, J FLUID MECH, V206, P579 WU JM, 1989, AIAA891024 ZIJNEN BGV, 1958, APPL SCI RES A, V7, P205 For pre-prints please write to: abstracts@kfupm.edu.sa Copyright: King Fahd University of Petroleum & Minerals; http://www.kfupm.edu.sa

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