Moment-Based Load and Response Models With Wind Engineering Applications

Journal of Solar Energy Engineering, Transactions of the ASME - Tập 122 Số 3 - Trang 122-128 - 2000
Steven R. Winterstein1, Tina Kashef1
1Civil and Environmental Engineering Dept., Stanford University, Stanford, CA 94305-4020

Tóm tắt

A general method is shown here to model wind loads and responses for reliability applications. This method characterizes the short-term loads and responses by a few summary statistics: specifically, by a limited number of statistical moments. A suite of moment-based models are derived and applied here, illustrating how this statistical moment information can best be utilized. Two examples are shown: the fatigue analysis of a wind turbine component, and the vibration response of a fixed structure to nonlinear wind drag loads. [S0199-6231(00)00702-4]

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Tài liệu tham khảo

Kashef, T., and Winterstein, S. R., 1998, “Relating Turbulence to Wind Turbine Blade Loads: Parametric Study With Multiple Regression Analysis,” Proc., 1998 ASME Wind Energy Symposium, 36th AIAA Aero. Sci. Mtg., pp. 273–281.

Winterstein, S. R. , 1985, “Nonnormal Responses and Fatigue Damage.’' J. Eng. Mech., 111, No. 10, pp. 1291–1295.

Winterstein, S. R. , 1988, “Nonlinear Vibration Models for Extremes and Fatigue,” J. Eng. Mech., 114, No. 10, pp. 1772–1790.

Lutes, L. D., and Sarkani, S., 1997, Stochastic Analysis of Structural and Mechanical Vibrations, Prentice-Hall.

Madsen, P. H., Pierce, K., and Buhl, M., 1999, “Predicting Ultimate Loads for Wind Turbine Design,” Proc., 1999 ASME Wind Energy Symposium, 37th AIAA Aero. Sci. Mtg.

Winterstein, S. R., and Haver, S., 1991, “Statistical Uncertainties in Wave Heights and Combined Loads on Offshore Structures,” J. Offshore Mech. Arct. Eng., 114, No. 10, pp. 1772–1790.

Winterstein, S. R., Lange, C. H., and Kumar, S., 1995, FITTING: A Subroutine to Fit Four Moment Probability Distributions to Data, Rept. SAND94-3039, Sandia National Laboratories.

Winterstein, S. R., and Lange, C. H., 1996, “Load Models for Fatigue Reliability from Limited Data,” ASME J. Sol. Energy Eng., 118, No. 1, pp. 64–68.

Kashef, T., and Winterstein, S. R., 1998, “Moment-Based Probability Modelling and Extreme Response Estimation: The FITS Routine,” Rept. RMS-31, Reliability of Marine Structures Program, Dept. of Civ. & Environ. Eng., Stanford University.

Jha, A. K., and Winterstein, S. R., 1997, “Cycles 2.0: Fatigue Reliability Models and Results for Wave and Wind Applications,” Rept. RMS-27, Reliability of Marine Structures Program, Dept. of Civ. Eng., Stanford University.

Winterstein, S. R., Ude, T. C., and Marthinsen, T., 1994, “Volterra Models of Ocean Structures: Extreme and Fatigue Reliability,” J. Eng. Mech., 120, No. 6, pp. 1369–1385.

Kotulski, Z., and Sobczyk, K., 1981, “Relating Turbulence to Wind Turbine Blade Loads: Parametric Study with Multiple Regression Analysis,” J. Stat. Phys., 24, No. 2, pp. 359–373.

Grigoriu, M., and Ariaratnam, S. T., 1987, “Stationary Response of Linear Systems to Non-Gaussian Excitations,” Proc., ICASP-5, Lind, N. C., ed., Vancouver, B.C., II, pp. 718–724.

Winterstein, S. R., Ude, T. C., and Kleiven, G., 1994, Springing and Slow-Drift Responses: Predicted Extremes and Fatigue vs. Simulation, Proc., BOSS-94, Vol. 3, Massachusetts Institute of Technology, pp. 1–15.

Winterstein, S. R., and Ness, O. B., 1989, Hermite Moment Analysis of Nonlinear Random Vibration, Computational Mechanics of Probabilistic and Reliability Analysis, Liu, W. K., and Belytschko, T., eds., Elme Press, Lausanne, Switzerland, pp. 452–478.

Winterstein, S. R., and Lo̸set, R., 1990, “Jackup Structures: Nonlinear Forces and Dynamic Response,” Proc., 3rd IFIP Conf. on Reliability and Optimization of Structural Systems, Berkeley, CA.

Jaynes, E. T. , 1957, “Information Theory and Statistical Mechanics,” Phys. Rev., 106, pp. 620–630.

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Journal of Solar Energy Engineering, Transactions of the ASME

Tập 122 Số 3

122-128

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