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ANALYSIS OF WIND CONDITIONS AROUND A BUILDING DEVELOPMENT AS A PART OF ITS FORM DESIGNING PROCESS, A CASE STUDY

Katarzyna ZIELONKO-JUNG

Katarzyna ZIELONKO-JUNG

Faculty of Architecture, Gdańsk University of TechnologyGdańsk, Poland
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ZIELONKO-JUNG, Katarzyna
  
07 janv. 2019
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Catégorie d'article: research-article
Publié en ligne: 07 janv. 2019
Pages: 51 - 58
Reçu: 27 juil. 2019
Accepté: 15 nov. 2019
DOI: https://doi.org/10.21307/acee-2019-051
Mots clés
© 2019 Katarzyna ZIELONKO-JUNG., published by Sciendo
This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.

Figure 1.

Situational plan (on the left) and axonometric view of the designed building (on the right), together with the surroundings. The designed building is marked in grey; author’s own study
Situational plan (on the left) and axonometric view of the designed building (on the right), together with the surroundings. The designed building is marked in grey; author’s own study

Figure 2.

The scheme for combining experimental research with the process of designing the body of the building; author’s own study
The scheme for combining experimental research with the process of designing the body of the building; author’s own study

Figure 3.

Photographs that present the visualization of air flow around the designed quarter of building development (initial situation) conducted in the wind tunnel with the use of the oil method; on the left – for the northern wind direction, on the right – for the western wind direction; arrows indicate directions of air movement and air movement turbulence that occurs between buildings, hatched areas indicate air stagnation zones; photo: P. Łuszczyński
Photographs that present the visualization of air flow around the designed quarter of building development (initial situation) conducted in the wind tunnel with the use of the oil method; on the left – for the northern wind direction, on the right – for the western wind direction; arrows indicate directions of air movement and air movement turbulence that occurs between buildings, hatched areas indicate air stagnation zones; photo: P. Łuszczyński

Figure 4.

The first modification to the shape of the building following the first series of tests (variant 1); author’s own study
The first modification to the shape of the building following the first series of tests (variant 1); author’s own study

Figure 5.

The second modification to the shape of the building following the second series of tests (variant 2); author’s own study
The second modification to the shape of the building following the second series of tests (variant 2); author’s own study

Figure 6.

Photographs presenting the visualization of airflow around the designed building development quarter (final situation) conducted in the wind tunnel using the oil method; on the left – for the northern wind direction, on the right – for the western wind direction; the arrows indicate directions of air movement and its turbulence in between buildings; photo: P. Łuszczyński
Photographs presenting the visualization of airflow around the designed building development quarter (final situation) conducted in the wind tunnel using the oil method; on the left – for the northern wind direction, on the right – for the western wind direction; the arrows indicate directions of air movement and its turbulence in between buildings; photo: P. Łuszczyński
Langue:
Anglais
Périodicité:
4 fois par an
Sujets de la revue:
Architecture et design, Architecture, Architectes, bâtiments
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