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2022 | OriginalPaper | Buchkapitel

5. Offshore-Winde

verfasst von : Stefan Emeis

Erschienen in: Windenergie Meteorologie

Verlag: Springer International Publishing

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Zusammenfassung

Dieses Kapitel beschäftigt sich mit der marinen atmosphärischen Grenze (MABL). Die Besonderheiten der Wind- und Turbulenzprofile über dem Meer sind sehr wichtig, da in Zukunft ein immer größerer Anteil der Windenergie in Offshore-Windparks erzeugt werden wird. Obwohl die Meeresoberfläche vollkommen flach ist, unterscheiden sich diese Windeigenschaften teilweise von den in Kap. 3 vorgestellten Profilen über homogenem Land.

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Vorheriges Kapitel Winde in komplexem Terrain
Nächstes Kapitel Physik der Windparks
Literatur
Abild, J., B. Nielsen: Extreme values of wind speeds in Denmark. Risoe-M-2842, 106 pp. (1991)
Anderson, R.: A study of wind stress and heat flux over the open ocean by the inertial-dissipation method. J. Phys. Oceanogr. 23, 2153–2161 (1993)CrossRef
Andreas, E.L., L. Mahrt, D. Vickers: A New Drag Relation for Aerodynamically Rough Flow over the Ocean. J. Atmos. Sci., 69, 2520–2537 (2012)CrossRef
Atkinson B.W.: Meso-scale Atmospheric Circulations. Academic Press, London etc., 495 pp. (1981)
Barthelmie, R.J., A.M. Sempreviva, S.C. Pryor: The influence of humidity fluxes on offshore wind speed profiles. Ann. Geophys. 28, 1043–1052 (2010)CrossRef
Barthelmie R.J.: Monitoring Offshore Wind and Turbulence Characteristics in Denmark, Proceedings of the BWEA Wind Energy Conference (1999)
Bilstein, M., S. Emeis: The Annual Variation of Vertical Profiles of Weibull Parameters and their Applicability for Wind Energy Potential Estimation. DEWI Mag. 36, 44–50 (2010)
Black, P., and Coauthors: Air–sea exchange in hurricanes: Synthesis of observations from the Coupled Boundary Layer Air–Sea Transfer experiment. Bull. Amer. Meteor. Soc. 88, 357–374 (2007)
Brooks, I., D. Rogers: Aircraft observations of the mean and turbulent structure of a shallow boundary layer over the Persian Gulf. Bound.-Lay. Meteorol. 95, 189–210 (2000)CrossRef
Bye, J.A.T., Wolff, J.-O.: Charnock dynamics: a model for the velocity structure in the wave boundary layer of the air–sea interface. Ocean Dyn. 58, 31–42 (2008)CrossRef
Bye, J.A., J.-O. Wolff, K.A. Lettmann: On the variability of the Charnock constant and the functional dependence of the drag coefficient on wind speed: Part II-Observations. Ocean Dyn., 64, 969–974 (2014)CrossRef
Charnock, H.: Wind stress on a water surface. Quart. J. Roy. Meteor. Soc. 81, 639–640 (1955)CrossRef
Coelingh, J., van Wijk, A., Holtslag, A.: Analysis of wind speed observations over the North Sea. J. Wind Eng. Ind. Aerodyn. 61, 51–69 (1996)CrossRef
Cook, N.J.: Towards better estimation of extreme winds, J. Wind Eng. Ind. Aerodyn. 9, 295–323 (1982)CrossRef
Davidson, K. L.: Observational Results on the Influence of Stability and Wind-Wave Coupling on Momentum Transfer Fluctuations over Ocean Waves. Bound.-Lay. Meteorol. 6, 305–331 (1974)CrossRef
Donelan, M. A.: Air–sea interaction. The Sea. Ocean Eng. Sci. 9, 239–292 (1990)
Dörenkämper, M., M. Optis, A. Monahan, G. Steinfeld: On the Offshore Advection of Boundary-Layer Structures and the Influence on Offshore Wind Conditions. Bound.-Lay. Meteorol., 155, 459–482 (2015)CrossRef
Emeis, S., M. Türk: Wind-driven wave heights in the German Bight. Ocean Dyn. 59, 463–475. (2009)CrossRef
Emeis, S.: Vertical variation of frequency distributions of wind speed in and above the surface layer observed by sodar. Meteorol. Z. 10, 141–149 (2001)CrossRef
Fairall, C. W., E. F. Bradley, D. P. Rogers, J. B. Edson, G. S. Young: Bulk parameterization of air-sea fluxes for Tropical Ocean-Global Atmosphere Coupled-Ocean Atmosphere Response Experiment. J. Geophys. Res. 101, 3747–3764 (1996)CrossRef
Fairall, C. W., E. F. Bradley, J. E. Hare, A. A. Grachev, J. B. Edson: Bulk parameterization of air–sea fluxes: Updates and verification for the COARE algorithm. J. Climate, 16, 571–591 (2003)CrossRef
Foreman, R., S. Emeis: Revisiting the Definition of the Drag Coefficient in the Marine Atmospheric Boundary Layer. J. Phys. Oceanogr. 40, 2325–2332 (2010)CrossRef
Foreman, R. J., B. Cañadillas, T. Neumann, S. Emeis: Measurements of heat and humidity fluxes in the wake of offshore wind turbines. J. Renew. Sustain. Energy. 9 (5), 053304 (2017)
Garratt, J.R.: Review of Drag Coefficients over Oceans and Continents, Mon. Wea. Rev. 105, 915–929 (1977)CrossRef
Garratt, J.R.: The stably stratified internal boundary layer for steady and diurnally varying offshore flow. Bound.-Lay. Meteorol. 38, 369–394 (1987)CrossRef
Geernaert, G.: Bulk parameterizations for the wind stress and heat fluxes. Surface Waves and Fluxes, KluwerAcademic, 91–172 (1990)
Hart, N. C., Gray, S. L., Clark, P. A.: Sting-jet windstorms over the North Atlantic: Climatology and contribution to extreme wind risk. J. Clim., 30, 5455–5471 (2017)CrossRef
Hedde, T., Durand, P.: Turbulence Intensities and Bulk Coefficients in the Surface Layer above the Sea. Bound.-Lay. Meteorol. 71, 415–432 (1994)CrossRef
Hersbach, H., Janssen, P.A.E.M.: Improvement of the short-fetch behavior in the wave ocean model (WAM). J. Atmos. Ocean Technol. 16, 884–892 (1999)CrossRef
Hsu, S.: A dynamic roughness equation and its application to wind stress determination at the air-sea interface. J. Phys. Oceanogr. 4, 116–120 (1974)CrossRef
Janssen, J.A.M.: Does the wind stress depend on sea-state or not? A statistical error analysis of HEXMAX data. Bound.-Lay. Meteor. 83, 479–503 (1997)CrossRef
Jensen, N.O., L. Kristensen: Gust statistics for the Great Belt Region. Risoe-M-2828, 21 pp. (1989)
Kumar, V.S., Deo, M.C., Anand, N.M., Chandramohan, P.: Estimation of wave directional spreading in shallow water. Ocean Eng. 26, 23–98 (1999)
Large, W.G., Pond, S.: Open Ocean Momentum Flux Measurements in Moderate to Strong Winds. J. Phys. Ocean. 11, 324–336 (1981)CrossRef
Larsén, X.G., S.E. Larsen, E.L. Petersen: Full-Scale Spectrum of Boundary-Layer Winds. Bound.-Lay. Meteorol., 159, 349–371 (2016)CrossRef
Maat, N., C. Kraan, W. Oost: The roughness of wind waves. Bound.-Layer Meteor. 54, 89–103 (1991)
Mulhearn, P.: On the formation of a stably stratified internal boundary layer by advection of warm air over a colder sea. Bound.-Lay. Meteorol. 21, 247–254 (1981)CrossRef
Neumann, G.: On ocean wave spectra and a new method of forecasting wind-generated sea. Beach Erosion Board, Washington. Tech. Mem. no. 43 (Dec) (1953)
Oost, W.A., C.M.J. Jacobs, C. van Oort: Stability effects on heat and moisture fluxes at sea. Bound.-Lay. Meteorol. 95, 271–302 (2000)CrossRef
Oost, W.A., Komen, G.J., Jacobs, C.M.J., Van Oort, C.: New evidence for a relation between wind stress and wave age from measurements during ASGAMAGE. Bound.-Lay. Meteorol. 103, 409–438 (2002)CrossRef
Palutikof, J.P., B.B. Brabson, D. H. Lister, S.T. Adcock: A review of methods to calculate extreme wind speeds. Meteorological Applications, 6, 119–132 (1999)CrossRef
Rogers, D.P., D.W. Johnson, C.A. Friehe: The Stable Internal Boundary Layer over a Coastal Sea. Part I: Airborne Measurements of the Mean and Turbulent Structure. J. Atmos. Sci. 52, 667–683 (1995)CrossRef
Roll, H.U.: Über Größenunterschiede der Meereswellen bei Warm-und Kaltluft. Dtsch Hydrogr. Z. 5, 111–114. (1952)CrossRef
Schultz, D. M.: Reexamining the cold conveyor belt. Mon. Wea. Rev., 129, 2205–2225 (2001)CrossRef
Sempreviva, A.M., S.-E. Gryning: Humidity fluctuations in the marine boundary layer measured at a coastal site with an infrared humidity sensor. Bound.-Lay. Meteorol. 77, 331–352 (1996)CrossRef
Simpson, J.E.: Sea breeze and local wind. Cambridge University Press, Cambridge (UK), 239 pp. (1994)
Sjöblom, A., Smedman, A.-S.: Vertical structure in the marine atmospheric boundary layer and its implication for the internal dissipation method. Bound.-Lay. Meteorol. 109, 1–25 (2003)CrossRef
Smedman, A.-S., H. Bergström, U. Högström: Spectra, Variances and Length Scales in a Marine Stable Boundary Layer Dominated by a Low Level Jet. Bound.- Lay. Meteorol. 76, 211–232 (1995)
Smedman A.S., Högström U., Bergström H.: Low level jets–a decisive factor for off-shore wind energy siting in the Baltic Sea. Wind Eng. 20, 137–147 (1996)
Smith, S., and Coauthors: Sea surface wind stress and drag coefficients: The HEXOS results. Bound.-Layer Meteor. 60, 109–142 (1992)
Smith, S.D.: Wind Stress and Heat Flux over the Ocean in Gale Force Winds. J. Phys. Ocean. 10, 709–726 (1980)CrossRef
Sullivan, P., J. McWilliams: Dynamics of winds and currents coupled to surface waves. Annu. Rev. Fluid Mech. 42, 19–42 (2010)MATHCrossRef
Sverdrup, H.U., Munk, W.H.: Wind, sea and swell: Theory of relations for forecasting. Hydrogr. Off. Publ., No. 601 (1947)
Toba, Y.: Stochastic form of the growth of wind waves in a single parameter representation with physical implications. J. Phys. Oceanogr. 8, 494–507 (1978)CrossRef
Türk, M., S. Emeis: The dependence of offshore turbulence intensity on wind speed. J. Wind Eng. Ind. Aerodyn. 98, 466–471 (2010)CrossRef
van der Hoven, I.: Power spectrum of horizontal wind speed in the frequency range from 0.0007 to 900 cycles per hour. J. Meteorol., 14, 160–164 (1957)
Vickers, D., Mahrt, L.: Fetch limited Dr ag Coefficients. Bound.-Lay. Meteorol. 85, 53–79 (1997)CrossRef
Wu, J.: Wind-Stress Coefficients over Sea Surface near Neutral Conditions–A Revisit. J. Phys. Oceanogr. 10, 727–740 (1980)CrossRef
Yelland, M.J., B. Moat, P. Taylor, R. Pascal, J. Hutchings, V. Cornell: Wind stress measurements from the open ocean corrected for airflow distortion by the ship. J. Phys. Oceanogr. 28, 1511–1526 (1998)CrossRef
Metadaten
Titel
Offshore-Winde
verfasst von
Stefan Emeis
Copyright-Jahr
2022
Buch
Windenergie Meteorologie

Print ISBN: 978-3-031-22445-4

Electronic ISBN: 978-3-031-22446-1

Copyright-Jahr: 2022

DOI
https://doi.org/10.1007/978-3-031-22446-1_5