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Author
dc.contributor.author
Gandhi, Arun 
Author
dc.contributor.author
Gyöngyösi, András Zénó 
Author
dc.contributor.author
Tordai, Ágoston Vilmos 
Author
dc.contributor.author
Torma, Péter 
Author
dc.contributor.author
Rehák, András 
Author
dc.contributor.author
Szilágyi, Mariann 
Author
dc.contributor.author
Horváth, Ákos 
Author
dc.contributor.author
Weidinger, Tamás 
Availability Date
dc.date.accessioned
2022-09-12T12:47:10Z
Availability Date
dc.date.available
2022-09-12T12:47:10Z
Release
dc.date.issued
2020
uri
dc.identifier.uri
http://hdl.handle.net/10831/77740
Language
dc.language.iso
angolhu_HU
Title
dc.title
Micrometeorological measurements of foggy situations in Siójut (November – December, 2018)hu_HU
Type
dc.type
könyvfejezethu_HU
Version
dc.description.version
megjelent változathu_HU
Language
dc.language.rfc3066
eng
Rights
dc.rights.holder
ELTE TTK Földrajz- és Földtudományi Intézet Meteorológiai Tanszékhu_HU
Abstract in English
dc.description.abstracteng
Fog is defined as a suspension of water droplets and ice particles that reduce the visibility to less than 1 km near the Earth's surface. It is also described as a formation of low status cloud that forms near the Earth's surface. Its depth and horizontal extent depends upon surface characteristics, micro- and mesoscale meteorological factors such as radiation and turbulent characteristics. Fog is a major weather hazard as it reduces visibility and can disrupt road, rail, and air transport. Therefore, reliable fog forecasting becomes essential to prevent interruptions in transportation (Michaelides et al., 2014; Vajda et al., 2014). Accurate fog forecasting relies on correct parameterizations of the radiative, turbulent and surface processes as poor parameterization lead to poor forecasting results (Westerhuis et al., 2020). Statistical investigations of fog formation and development are also important for the climatological background of secure aviation (Wantuch & Michaelides, 2005; Bottyán et al., 2010; Tuba & Bottyán, 2018). Therefore, it is essential to understand the physical, chemical, and meteorological features that lead to fog generation, preservation, and dissipation. As a result, ground-based fog experiments are being conducted in different cities worldwide to formulate better parameterizations for fog modelling. Ground-based fog experiments have been conducted for example in Paris, New Delhi or Wasatch Mountain Range (northern Utah, USA), to measure the fog events, associated thermodynamics, microphysics, and chemical composition of gases and aerosols (Haeffelin et al., 2010; Gultepe et al., 2016; Ghude et al., 2017). This study consists of two main parts. First, a comparison of fog climatology among New Delhi, Budapest, and Siófok is provided. It was done to assess the frequency and occurrence of fog in the three cities. The second part of the manuscript describes the micrometeorological measurement campaign in Siójut (Hungary) from 15th October 2018 till 13th December 2018. Measuring system, main goals of the experiment and few results are presented. The momentum () and sensible heat (H) fluxes were calculated based on eddy covariance methodology using Gill sonic anemometer. Necessary corrections were applied to the raw eddy fluxes as described in the TK3 software manual (Weidinger et al., 1999; Barcza, 2001; Mauder & Foken, 2015 and Horváth et al., 2018). We measured the surface and soil energy budget components together with the heat flux into the soil (G_Soil) and net radiation (Rn). Finally, case studies of fog events are presented to show the daily variation of meteorological variables, radiation, and surface energy budget components.hu_HU
Conference city
dc.description.city
Budapesthu_HU
Conference country
dc.description.country
Magyarországhu_HU
book author / editor
dc.identifier.bookauthors
Pongrácz Rita; Mészáros Róbert; Kis Annahu_HU
Address Book
dc.identifier.booktitle
Jelenlegi PhD-kutatások a 75 éves Meteorológiai Tanszékenhu_HU
Doi ID
dc.identifier.doi
10.31852/EMF.33.2020.040.047
MTMT ID
dc.identifier.mtmt
32081516
Last Page
dc.identifier.lpage
47hu_HU
First Page
dc.identifier.spage
40hu_HU
Place of publication
dc.publisher.place
Budapesthu_HU
access
dc.rights.access
hozzáférhetőhu_HU
Keyword English
dc.subject.en
micrometeorological measurementshu_HU
Series title, serial number
dc.title.series
Egyetemi Meteorológiai Füzetek;33
Class
dc.type.genre
publikáció/alkotáshu_HU
Type
dc.type.resrep
tudományoshu_HU
Author
dc.contributor.inst
ELTE Természettudományi Kar Földrajz- és Földtudományi Intézet Földtudományi Központ Meteorológiai Tanszékhu_HU
Keywords
dc.subject.hu
Egyetemi Meteorológiai Füzetekhu_HU
Rent
dc.publisher.name
ELTE TTK Földrajz- és Földtudományi Intézet Meteorológiai Tanszékhu_HU
Type
dc.type.type
könyvfejezethu_HU
Release Date
dc.description.issuedate
2020hu_HU


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Micrometeorological measurements of foggy situations in Siójut (November – December, 2018)
 

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