Iniciar sesión
Registrarse
Restablecer contraseña
Publicar y Distribuir
Soluciones de Publicación
Soluciones de Distribución
Temas
Arquitectura y diseño
Artes
Ciencias Sociales
Ciencias de la Información y Bibliotecas, Estudios del Libro
Ciencias de la vida
Ciencias de los materiales
Deporte y tiempo libre
Estudios clásicos y del Cercano Oriente antiguo
Estudios culturales
Estudios judíos
Farmacia
Filosofía
Física
Geociencias
Historia
Informática
Ingeniería
Interés general
Ley
Lingüística y semiótica
Literatura
Matemáticas
Medicina
Música
Negocios y Economía
Química
Química industrial
Teología y religión
Publicaciones
Revistas
Libros
Actas
Editoriales
Blog
Contacto
Buscar
EUR
USD
GBP
Español
English
Deutsch
Polski
Español
Français
Italiano
Carrito
Home
Revistas
Architecture, Civil Engineering, Environment
Volumen 12 (2019): Edición 4 (December 2019)
Acceso abierto
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
| 07 ene 2019
Architecture, Civil Engineering, Environment
Volumen 12 (2019): Edición 4 (December 2019)
Acerca de este artículo
Artículo anterior
Artículo siguiente
Resumen
Artículo
Figuras y tablas
Referencias
Autores
Artículos en este número
Vista previa
PDF
Cite
Compartir
Article Category:
research-article
Publicado en línea:
07 ene 2019
Páginas:
51 - 58
Recibido:
27 jul 2019
Aceptado:
15 nov 2019
DOI:
https://doi.org/10.21307/acee-2019-051
Palabras clave
Architectural design
,
Airflow around Buildings
,
Air Stagnation
,
Bioclimatic Architecture
,
Environmental Wind Engineering
,
Urban climate
,
Wind Comfort
© 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
Figure 2.
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
Figure 4.
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
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