A statistical model for the prediction of wind-speed probabilities in the atmospheric surface layer

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Efthimiou, G. C., Hertwig, D. ORCID: https://orcid.org/0000-0002-2483-2675, Andronopoulos, S., Bartzis, J. G. and Coceal, O. ORCID: https://orcid.org/0000-0003-0705-6755 (2017) A statistical model for the prediction of wind-speed probabilities in the atmospheric surface layer. Boundary-Layer Meteorology, 163 (2). pp. 179-201. ISSN 0006-8314 doi: 10.1007/s10546-016-0221-2

Abstract/Summary

Wind fields in the atmospheric surface layer (ASL) are highly three-dimensional and characterized by strong spatial and temporal variability. For various applications such as wind comfort assessments and structural design, an understanding of potentially hazardous wind extremes is important. Statistical models are designed to facilitate conclusions about the occurrence probability of wind speeds based on the knowledge of low-order flow statistics. Being particularly interested in the upper tail regions we show that the statistical behavior of near-surface wind speeds is adequately represented by the Beta distribution. By using the properties of the Beta probability density function in combination with a model for estimating extreme values based on readily available turbulence statistics, it is demonstrated that this novel modelling approach reliably predicts the upper margins of encountered wind speeds. The model’s basic parameter is derived from three substantially different calibrating datasets of flow in the ASL originating from boundary-layer wind-tunnel measurements and direct numerical simulation. Evaluating the model based on independent field observations of near-surface wind speeds showed a high level of agreement between the statistically modelled horizontal wind speeds and measurements. The results show that, based on the knowledge of only a few simple flow statistics (mean wind speed, wind speed fluctuations and integral time scales), the occurrence probability of velocity magnitudes at arbitrary flow locations in the ASL can be estimated with a high degree of confidence.

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Item Type	Article
URI	https://reading-clone.eprints-hosting.org/id/eprint/68026
Item Type	Article
Refereed	Yes
Divisions	Interdisciplinary Research Centres (IDRCs) > Walker Institute Science > School of Mathematical, Physical and Computational Sciences > NCAS Science > School of Mathematical, Physical and Computational Sciences > Department of Meteorology
Publisher	Springer
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Funders:	Engineering and Physical Sciences Research Council Natural Environment Research Council	The sponsoring bodies who contributed funding for the creation of this item. Example: NERC Example: The Royal Society of Chemistry A pick list of funders may appear as you type in the funder's name in full or as an acronym. Select a correct match to complete the field or type in a new entry in full. For new entries, the full name is preferred.
Projects:	Dispersion of localised releases in a street network (DIPLOS) Funded by: Engineering and Physical Sciences Research Council (EP/K040707/1 - £359,271) Local Lead (PI): Omduth Coceal Project Lead: Omduth Coceal 10 February 2014 - 9 February 2017 NCAS Weather 2014/15 Funded by: Natural Environment Research Council (R8/H12/83/002 - £165,773) Local Lead (PI): Suzanne Gray Local Lead (PI): Stephen Belcher 1 April 2014 - 31 March 2015	Click Add to select your project (received at Reading) from an autocomplete list.

Deposit Details

Date Deposited:	17 Nov 2016 09:34	Date item deposited into CentAUR
Last Modified:	09 Jun 2024 05:56	Date item last modified

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