參考文獻 |
1. 熊萬銀 (1996) “結構震動與流場互制現象之風洞實驗研究”, 國立成功大學土木工程研究所碩士論文
2. 蔡益超、陳瑞華、項維邦 (1996) “建築物風力規範條文、解說及示範例之研訂”, 內政部建築研究所研究報告
3. 莊威男 (2000) “超高層建築在紊流邊界層中表面風壓分佈之風洞試驗研究”, 國立海洋大學河海工程研究所碩士論文
4. 卓勇志 (2001) “邊界層中雙棟並排矩形建築之表面風壓量測”, 國立中央大學土木工程研究所碩士論文
5. 中華民國內政部營建署 (2002) “建築技術規則(91年1月修正版)”, 內政部營建署法規
6. 李肇軒 (2002) “圓柱體形建築物表面風壓之實驗研究”, 國立中央大學土木工程研究所碩士論文
7. 陳若華、蔡明樹、傅仲麟 (2003) “大氣邊界層流場中矩柱體尖峰風壓特性研究”, 中華民國第二十七屆全國力學會議, 台南
8. 李有豐、黃皓君、張順益、黃鋼 (2004) “非韌性雙層跨含牆RC架構之擬動態試驗與結構反應之HHT分析”, 建築學報, 第47期,pp.53-75
9. Bearman, P.W. (1969) “On vortex shedding from a circular cylinder in the critical Reynolds number regime”, Journal of Fluid Mechanics, Vol.37, pp.577-585
10. Bendat, J.S. and Piersol, A.G. (1986) Random Data-Analysis and Measurement Procedures, 2nd edition
11. Cheung, J.C.K. and Melbourne, W.H. (1983) “Turbulence effects on some aerodynamic parameters of a circular cylinder at supercritical Reynolds numbers”, Journal Wind Engineering and Industrual Aerodynamics, Vol.14, pp.399-410
12. Cochran, L.S. and Cermak, J.E. (1992) “Full- and model-scale cladding pressure on the Texas Tech University experimental building”, Journal of Wind Engineering and Industrial Aerodynamics, Vol.41-44, pp.1589-1600
13. Hu, C.C., Miau, J.J. and Chou, J.H. (2002) “Instantaneous vortex-shedding behavior in periodically varying flow”, Proceedings of Royal Society of London, Series A 458, pp.911-932
14. Huang, N.E., Shen, Z., Long, S.R., Wu, M.C., Shin, H.H., Zheng, Q., Yen, N.C., Tung, C.C. and Liu, H.H. (1998) “The empirical mode decomposition and the Hilbert spectrum for nonlinear and nonstationary time series analysis”, Proceedings of Royal Society of London, Series A 454, pp.903-995
15. Huang, N.E., Shen, Z. and Long, S.R. (1999) “A new view of nonlinear water wave:the Hilbert spectrum”, Annu. Rev. Fluid Mech., Vol. 31, pp.417-457
16. Huang, N.E., Wu, M.C., Shen, S.S.P., Qu, W., Gloersen, P. and Fan, K.L. (2003) “A confidence limit for the empirical mode decomposition and Hilbert spectral analysis”, Proceedings of Royal Society of London, Series A 459, pp.2317-2345
17. Kareem, A. and Cermak, J.E. (1984) “Pressure fluctuations on a square building model in boundary-layer flows”, Journal of Wind Engineering and Industrial Aerodynamics, Vol.16, pp.17-41
18. Kobayashi, H., Hatanaka, A. and Ueda, T. (1994) “Active simulation of time histories of strong wind gust in a wind tunnel”, Journal of Wind Engineering and Industrial Aerodynamics, Vol.53, pp.315-330
19. Kiya, M., Sasaki, K. and Arie, M. (1981) “Discrete-vortex simulation of a turbulent separation bubble”, Journal of Fluid Mechanics, Vol.120, pp.219-244
20. Lee B.E. (1975) ”The effect of turbulence on the surface pressure field of a square prism”, J. of Fluid Mech., Vol.69, pp.263-282
21. Letchford, C.W., Iverson, R.E. and McDonald, J.R. (1993) “The application of the quasi-steady theory to full scale measurements on Texas Tech Building”, J. of Wind Eng. and Industrial Aerodyn., Vol.48, pp.111-132
22. Luo, S.C., Gan, T.L., and Chew, Y.T. (1996) “Uniform flow past one (or two in tandem) finite length circular cylinder(s)”, Journal of Wind Engineering and Industrial Aerodynamics, Vol.59, pp.69-93
23. Nakamura, Y. and Tomonari, Y. (1982) “The effects of surface roughness on the flow past circular cylinders at high Reynolds numbers”, J. Fluid Mech., Vol.123, pp.363-378
24. Naudascher, E. (1991) “Hydrodynamic Forces”, A.A. Balkema
25. Nishimura, H. and Taniike, Y. (2001) “Aerodynamic characteristics of fluactuating forces on a circular cylinder”, Journal of Wind Engineering and Industrial Aerodynamics, Vol.89, pp.713-723
26. Okajima A. (1982) “Strouhal numbers of rectangular cylinders”, J. of Fluid Mech., Vol.123, pp.379-398
27. Okamoto, S. and Sunabashiri, Y. (1992) “Vortex shedding from a circular cylinder of finite length placed on a flat plate”, Journal of Fluid Mechanics, Vol.114, pp.512-537
28. Parkinson, G.V. (1974) “Mathematical models of flow-induced vibrations of bluff bodies”, Flow-induced structural vibrations, E. Naudascher(ed). Springer, pp.81
29. Peterka, J.A. and Cermak, J.E. (1975) “Wind pressure on buildings-probability densities”, Journal of the Structural Division, ASCE Vol.101, pp.1255-1267
30. Rae, W.H.J., Barlow, J.B. and Pope, A. (1999) “Low-Speed Wind Tunnel testing”, Johns Wiley & Sons, Inc.
31. Roshko, A. (1960) “Experiments on the flow past a circular cylinder at very high Reynolds number”, Journal of Fluid Mechanics, Vol.10, pp.345-356
32. Sitheeq, M., Iyengar, A. and Farell, C. (1997) “Effect of turbulence and its scales on the pressure field on the surface of a three-dimensional square prism”, Journal of Wind Engineering and Industrial Aerodynamics, Vol.69-71, pp.461-471
33. Suzuki, M., Kondo, K., Sanada, S. and Minamide, K. (1993) “Prediction of the wind induced response of multi-story building-using simultaneous multi-channel measuring control system”, Journal of Wind Engineering and Industrial Aerodynamics, Vol.50, pp.341-350
34. Uematsu, Y. and Yamada, M. (1995) “Effects of aspect ratio and surface roughness on th time-averaged aerodynamic forces on cantilevered circular cylinders at high Reynolds number”, Journal of Wind Engineering and Industrial Aerodynamics, Vol.54-55, pp.301-312
35. Uematsu, Y. and Isyumov, N. (1999) “Wind pressure acting on low-rise buildings”, Journal of Wind Engineering and Industrial Aerodynamics, Vol.82, pp.1-25 |