Alternative classifications of mechanisms producing annual maximum wind gusts in Resistencia and Corrientes, Argentina

Assessment methods for wind loads on buildings and civil structures require the statistical processing of extreme wind speeds. If the wind climate is mixed, there is ample consensus that statistical models appropriate for mixed climate must be applied. This is not always possible because most of the...

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Published inJournal of wind engineering and industrial aerodynamics Vol. 236; p. 105362
Main Authors Palese, Claudia, Natalini, Bruno
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.05.2023
Subjects
Annual maximum wind gust
Mixed climate
Statistical modelling
Wind map
Annual maximum wind gust
Mixed climate
Statistical modelling
Wind map
Online AccessGet full text
ISSN0167-6105
DOI10.1016/j.jweia.2023.105362

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Abstract Assessment methods for wind loads on buildings and civil structures require the statistical processing of extreme wind speeds. If the wind climate is mixed, there is ample consensus that statistical models appropriate for mixed climate must be applied. This is not always possible because most of the models in use entail separating wind speeds according to the meteorological mechanism causing it. As classification of wind speed records is an expensive task, quantitative information on this subject is scarce. Here, annual maximum wind gusts recorded in the meteorological stations of the Resistencia and Corrientes airports, Argentina, are classified according to the mechanisms that produced them. Three alternative separation criteria were applied: (i) thunderstorm vs. other mechanism; (ii) synoptic vs. non-synoptic; and (iii) convective storms vs. those that were associated with the passage of a cold front. The available data sets were the Daily Registers of the stations from 1968 to 2016. The data series were conditioned to generate a single superstation series. The results show that the annual maximum gust produced by thunderstorms has an occurrence of 97.2% compared to other mechanisms; 93.1% correspond to non-synoptic wind; and 62.5% were classified as convection not associated with the passage of a cold front. It is concluded that Corrientes and Resistencia are not subject to mixed extreme wind climate, that is, the maximum annual gust is due to a simple wind climate corresponding to intense convective activity. •Classification of storms in two cities of Argentina is presented.•Three different classification criteria have been tried.•Results show that extreme wind climate in the area of study is not mixed.•It is dominated by convective storms of which roughly a third is associated with passing cold fronts.
AbstractList Assessment methods for wind loads on buildings and civil structures require the statistical processing of extreme wind speeds. If the wind climate is mixed, there is ample consensus that statistical models appropriate for mixed climate must be applied. This is not always possible because most of the models in use entail separating wind speeds according to the meteorological mechanism causing it. As classification of wind speed records is an expensive task, quantitative information on this subject is scarce. Here, annual maximum wind gusts recorded in the meteorological stations of the Resistencia and Corrientes airports, Argentina, are classified according to the mechanisms that produced them. Three alternative separation criteria were applied: (i) thunderstorm vs. other mechanism; (ii) synoptic vs. non-synoptic; and (iii) convective storms vs. those that were associated with the passage of a cold front. The available data sets were the Daily Registers of the stations from 1968 to 2016. The data series were conditioned to generate a single superstation series. The results show that the annual maximum gust produced by thunderstorms has an occurrence of 97.2% compared to other mechanisms; 93.1% correspond to non-synoptic wind; and 62.5% were classified as convection not associated with the passage of a cold front. It is concluded that Corrientes and Resistencia are not subject to mixed extreme wind climate, that is, the maximum annual gust is due to a simple wind climate corresponding to intense convective activity. •Classification of storms in two cities of Argentina is presented.•Three different classification criteria have been tried.•Results show that extreme wind climate in the area of study is not mixed.•It is dominated by convective storms of which roughly a third is associated with passing cold fronts.
ArticleNumber 105362
Author Palese, Claudia
Natalini, Bruno
Author_xml – sequence: 1
  givenname: Claudia
  orcidid: 0000-0001-9824-3921
  surname: Palese
  fullname: Palese, Claudia
  organization: Facultad de Ingeniería, Universidad Nacional del Comahue, Buenos Aires 1400, Q8300, Neuquén, Argentina
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  givenname: Bruno
  surname: Natalini
  fullname: Natalini, Bruno
  email: bruno.natalini@ing.unne.edu.ar
  organization: Facultad de Ingeniería, Universidad Nacional del Nordeste, Av. Las Heras 727, 3500, Resistencia, Argentina
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Keywords Annual maximum wind gust
Mixed climate
Statistical modelling
Wind map
Language English
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Snippet Assessment methods for wind loads on buildings and civil structures require the statistical processing of extreme wind speeds. If the wind climate is mixed,...
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StartPage 105362
SubjectTerms Annual maximum wind gust
Mixed climate
Statistical modelling
Wind map
Title Alternative classifications of mechanisms producing annual maximum wind gusts in Resistencia and Corrientes, Argentina
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