Impact of microphysics and planetary boundary layer parameterizations in the simulation of intense meteorological events in Santa Catarina using the WRF model

Bibliographic Details
Main Author: Camillo, Gerson
Publication Date: 2021
Other Authors: Herdies, Dirceu
Format: Article
Language: por
Source: Estrabão
Download full: https://revista.estrabao.press/index.php/estrabao/article/view/54
Summary: Backgroud: Extreme events associated with meteorological phenomena are occurrences that cause material damage and different socioeconomic impacts. These events have a short lifecycle, typically up to two hours, but can span up to six and 12 hours. There are several approaches to predictability and one of them makes use of numerical weather prediction models. In this work, we want to investigate the set of boundary layer and microphysics parameterizations that best respond to the prediction of intense atmospheric events. Methods: The Weather and Research Forecasting (WRF) open source model will be used to perform the experiments and the methodology will be through a case study of an extreme event that occurred in western Santa Catarina on August 14, 2020. Results:  In the end, it is expected to find one WRF configuration that can be used operationally to predict and monitor intense atmospheric events.
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spelling Impact of microphysics and planetary boundary layer parameterizations in the simulation of intense meteorological events in Santa Catarina using the WRF modelImpacto de la parametrización de microfísica y capa límite planetaria en la simulación de eventos meteorológicos intensos en Santa Catarina utilizando el modelo WRFImpacto das parametrizações de microfísica e de camada limite planetária na simulação de eventos meteorológicos intensos em Santa Catarina usando o modelo WRFEventos. Extremos. WRF.Events. Extremes. WRF.Backgroud: Extreme events associated with meteorological phenomena are occurrences that cause material damage and different socioeconomic impacts. These events have a short lifecycle, typically up to two hours, but can span up to six and 12 hours. There are several approaches to predictability and one of them makes use of numerical weather prediction models. In this work, we want to investigate the set of boundary layer and microphysics parameterizations that best respond to the prediction of intense atmospheric events. Methods: The Weather and Research Forecasting (WRF) open source model will be used to perform the experiments and the methodology will be through a case study of an extreme event that occurred in western Santa Catarina on August 14, 2020. Results:  In the end, it is expected to find one WRF configuration that can be used operationally to predict and monitor intense atmospheric events.Contextos: Los eventos extremos asociados a fenómenos meteorológicos son sucesos que provocan daños materiales y diferentes impactos socioeconómicos. Estos eventos tienen un ciclo de vida corto, por lo general hasta dos horas, pero pueden extenderse hasta seis y 12 horas. Hay varios enfoques para la predictibilidad y uno de ellos hace uso de modelos numéricos de pronóstico del tiempo. En este trabajo, queremos investigar el conjunto de parametrizaciones de capa límite y microfísica que mejor responden a la predicción de eventos atmosféricos intensos. Método: Para realizar los experimentos se utilizará el modelo de código abierto Weather and Research Forecasting (WRF) y la metodología será a través de un estudio de caso de un evento extremo ocurrido en el oeste de Santa Catarina el 14 de agosto de 2020. Resultados: Al final, se espera para encontrar una configuración de WRF que pueda usarse operativamente para predecir y monitorear eventos atmosféricos intensos.Contexto: Eventos extremos associados a fenômenos meteorológicos são ocorrências que causam estragos materiais e impactos socioeconômicos diversos. Esses eventos têm ciclo de vida curto, em geral, até duas horas, mas que podem se estender por até seis e 12 horas. Existem diversas abordagens para previsibilidade e uma delas faz uso de modelos numéricos de previsão de tempo. Neste trabalho se quer investigar o conjunto de parametrizações de camada limite e de microfísica que melhor respondem à previsão de eventos atmosféricos intensos. Métodos: Será usado o modelo de código livre Weather and Research Forecasting (WRF) para fazer os experimentos e a metodologia será por meio de estudo de caso de evento extremo ocorrido no oeste catarinense em 14 de agosto de 2020. Resultados: Ao final, espera-se encontrar uma configuração do WRF que possa ser usada operacionalmente para predizer e monitorar eventos atmosféricos intensos.Casa de Hiram 2021-12-16info:eu-repo/semantics/articleinfo:eu-repo/semantics/publishedVersionapplication/pdftext/htmlhttps://revista.estrabao.press/index.php/estrabao/article/view/5410.53455/re.v2i.54Estrabão; Vol. 2 (2021); 200 - 204Estrabão; Vol. 2 (2021); 200 - 204Estrabão; v. 2 (2021); 200 - 2042763-7824reponame:Estrabãoinstname:Casa de Hiraminstacron:CASAHIRANporhttps://revista.estrabao.press/index.php/estrabao/article/view/54/51https://revista.estrabao.press/index.php/estrabao/article/view/54/52Copyright (c) 2021 Gerson Camilloinfo:eu-repo/semantics/openAccessCamillo, Gerson Herdies, Dirceu2024-02-12T19:16:53Zoai:ojs2.estrabao.press:article/54Revistahttps://revista.estrabao.press/index.php/estrabao/indexONGhttps://revista.estrabao.press/index.php/estrabao/oairevista@estrabao.presshttps://doi.org/10.53455/2763-78242763-7824opendoar:2024-02-12T19:16:53Estrabão - Casa de Hiramfalse
dc.title.none.fl_str_mv Impact of microphysics and planetary boundary layer parameterizations in the simulation of intense meteorological events in Santa Catarina using the WRF model
Impacto de la parametrización de microfísica y capa límite planetaria en la simulación de eventos meteorológicos intensos en Santa Catarina utilizando el modelo WRF
Impacto das parametrizações de microfísica e de camada limite planetária na simulação de eventos meteorológicos intensos em Santa Catarina usando o modelo WRF
title Impact of microphysics and planetary boundary layer parameterizations in the simulation of intense meteorological events in Santa Catarina using the WRF model
spellingShingle Impact of microphysics and planetary boundary layer parameterizations in the simulation of intense meteorological events in Santa Catarina using the WRF model
Camillo, Gerson
Eventos. Extremos. WRF.
Events. Extremes. WRF.
title_short Impact of microphysics and planetary boundary layer parameterizations in the simulation of intense meteorological events in Santa Catarina using the WRF model
title_full Impact of microphysics and planetary boundary layer parameterizations in the simulation of intense meteorological events in Santa Catarina using the WRF model
title_fullStr Impact of microphysics and planetary boundary layer parameterizations in the simulation of intense meteorological events in Santa Catarina using the WRF model
title_full_unstemmed Impact of microphysics and planetary boundary layer parameterizations in the simulation of intense meteorological events in Santa Catarina using the WRF model
title_sort Impact of microphysics and planetary boundary layer parameterizations in the simulation of intense meteorological events in Santa Catarina using the WRF model
author Camillo, Gerson
author_facet Camillo, Gerson
Herdies, Dirceu
author_role author
author2 Herdies, Dirceu
author2_role author
dc.contributor.author.fl_str_mv Camillo, Gerson
Herdies, Dirceu
dc.subject.por.fl_str_mv Eventos. Extremos. WRF.
Events. Extremes. WRF.
topic Eventos. Extremos. WRF.
Events. Extremes. WRF.
description Backgroud: Extreme events associated with meteorological phenomena are occurrences that cause material damage and different socioeconomic impacts. These events have a short lifecycle, typically up to two hours, but can span up to six and 12 hours. There are several approaches to predictability and one of them makes use of numerical weather prediction models. In this work, we want to investigate the set of boundary layer and microphysics parameterizations that best respond to the prediction of intense atmospheric events. Methods: The Weather and Research Forecasting (WRF) open source model will be used to perform the experiments and the methodology will be through a case study of an extreme event that occurred in western Santa Catarina on August 14, 2020. Results:  In the end, it is expected to find one WRF configuration that can be used operationally to predict and monitor intense atmospheric events.
publishDate 2021
dc.date.none.fl_str_mv 2021-12-16
dc.type.driver.fl_str_mv info:eu-repo/semantics/article
info:eu-repo/semantics/publishedVersion
format article
status_str publishedVersion
dc.identifier.uri.fl_str_mv https://revista.estrabao.press/index.php/estrabao/article/view/54
10.53455/re.v2i.54
url https://revista.estrabao.press/index.php/estrabao/article/view/54
identifier_str_mv 10.53455/re.v2i.54
dc.language.iso.fl_str_mv por
language por
dc.relation.none.fl_str_mv https://revista.estrabao.press/index.php/estrabao/article/view/54/51
https://revista.estrabao.press/index.php/estrabao/article/view/54/52
dc.rights.driver.fl_str_mv Copyright (c) 2021 Gerson Camillo
info:eu-repo/semantics/openAccess
rights_invalid_str_mv Copyright (c) 2021 Gerson Camillo
eu_rights_str_mv openAccess
dc.format.none.fl_str_mv application/pdf
text/html
dc.publisher.none.fl_str_mv Casa de Hiram
publisher.none.fl_str_mv Casa de Hiram
dc.source.none.fl_str_mv Estrabão; Vol. 2 (2021); 200 - 204
Estrabão; Vol. 2 (2021); 200 - 204
Estrabão; v. 2 (2021); 200 - 204
2763-7824
reponame:Estrabão
instname:Casa de Hiram
instacron:CASAHIRAN
instname_str Casa de Hiram
instacron_str CASAHIRAN
institution CASAHIRAN
reponame_str Estrabão
collection Estrabão
repository.name.fl_str_mv Estrabão - Casa de Hiram
repository.mail.fl_str_mv revista@estrabao.press
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