Accès libre

Adaptation of Public Spaces to Climate Change Case Study of Lodz

Anna BOCHENEK

Anna BOCHENEK

PhD; Lodz University of Technology, Faculty of Civil Engineering, Architecture and Environmental EngineeringLodz, Poland
Recherchez cet auteur sur
Sciendo|Google Scholar
BOCHENEK, Anna
, 
Katarzyna KLEMM

Katarzyna KLEMM

Assistant Prof.; Lodz University of Technology, Faculty of Civil Engineering, Architecture and Environmental EngineeringLodz, Poland
Recherchez cet auteur sur
Sciendo|Google Scholar
KLEMM, Katarzyna
 et 
Magdalena STEFAŃSKA

Magdalena STEFAŃSKA

MSc; Lodz University of Technology, Faculty of Civil Engineering, Architecture and Environmental EngineeringLodz, Poland
Recherchez cet auteur sur
Sciendo|Google Scholar
STEFAŃSKA, Magdalena
  
31 déc. 2024
Adaptation of Public Spaces to Climate Change Case Study of Lodz's Cover Image
À propos de cet article
Article précédent
Article suivant
Citez
Télécharger la couverture
Publié en ligne: 31 déc. 2024
Pages: 129 - 145
Reçu: 17 mai 2024
Accepté: 29 nov. 2024
DOI: https://doi.org/10.2478/acee-2024-0033
Mots clés
© 2024 Anna BOCHENEK et al., published by Sciendo
This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.

Figure 1.

The Old Market Square currently (OM-0), project 1 (OM-1) and project 2 (OM-2), source: [36, 38]
The Old Market Square currently (OM-0), project 1 (OM-1) and project 2 (OM-2), source: [36, 38]

Figure 2.

The Dabrowski Square currently (DS-0), project 1 (DS-1) and project 2 (DS-2), source: [41–42]
The Dabrowski Square currently (DS-0), project 1 (DS-1) and project 2 (DS-2), source: [41–42]

Figure 3.

3D and 2D models of the Old Market Square (OM) and the Dabrowski Square (DS) currently (0) and proposed modernizations (1, 2), source: own elaboration
3D and 2D models of the Old Market Square (OM) and the Dabrowski Square (DS) currently (0) and proposed modernizations (1, 2), source: own elaboration

Figure 4.

Air temperature in the Old Market Square currently (OM-0) and differences after the implementation of project 1 (OM-1) and project 2 (OM-2), source: own elaboration
Air temperature in the Old Market Square currently (OM-0) and differences after the implementation of project 1 (OM-1) and project 2 (OM-2), source: own elaboration

Figure 5.

Relative humidity in the OldMarket Square currently (OM-0) and differences after the implementation of project 1 (OM-1) and project 2 (OM-2), source: own elaboration
Relative humidity in the OldMarket Square currently (OM-0) and differences after the implementation of project 1 (OM-1) and project 2 (OM-2), source: own elaboration

Figure 6.

Air flow in the Old Market Square currently (OM-0) and differences after the implementation of project 1 (OM-1) and project 2 (OM-2), source: own elaboration
Air flow in the Old Market Square currently (OM-0) and differences after the implementation of project 1 (OM-1) and project 2 (OM-2), source: own elaboration

Figure 7.

PET index for a child in the Old Market Square currently (OM-0) and differences after the implementation of project 1 (OM-1) and project 2 (OM-2), source: own elaboration
PET index for a child in the Old Market Square currently (OM-0) and differences after the implementation of project 1 (OM-1) and project 2 (OM-2), source: own elaboration

Figure 8.

PET index for adult man in the Old Market Square currently (OM-0) and differences after the implementation of project 1 (OM-1) and project 2 (OM-2), source: own elaboration
PET index for adult man in the Old Market Square currently (OM-0) and differences after the implementation of project 1 (OM-1) and project 2 (OM-2), source: own elaboration

Figure 9.

PET index for adult woman in the Old Market Square currently (OM-0) and differences after the implementation of project 1 (OM-1) and project 2 (OM-2), source: own elaboration
PET index for adult woman in the Old Market Square currently (OM-0) and differences after the implementation of project 1 (OM-1) and project 2 (OM-2), source: own elaboration

Figure 10.

PET index for elderly person in the Old Market Square currently (OM-0) and differences after the implementation of project 1 (OM-1) and project 2 (OM-2), source: own elaboration
PET index for elderly person in the Old Market Square currently (OM-0) and differences after the implementation of project 1 (OM-1) and project 2 (OM-2), source: own elaboration

Figure 11.

Air temperature in the Dabrowski Square currently (DS-0) and differences after the implementation of project 1 (DS-1) and project 2 (DS-2), source: own elaboration
Air temperature in the Dabrowski Square currently (DS-0) and differences after the implementation of project 1 (DS-1) and project 2 (DS-2), source: own elaboration

Figure 12.

Relative humidity at the Dabrowski Square currently (DS-0) and differences after the implementation of project 1 (DS-1) and project 2 (DS-2), source: own elaboration
Relative humidity at the Dabrowski Square currently (DS-0) and differences after the implementation of project 1 (DS-1) and project 2 (DS-2), source: own elaboration

Figure 13.

Air flow in the Dabrowski Square currently (DS-0) and differences after the implementation of project 1 (DS-1) and project 2 (DS-2), source: own elaboration.
Air flow in the Dabrowski Square currently (DS-0) and differences after the implementation of project 1 (DS-1) and project 2 (DS-2), source: own elaboration.

Figure 14.

PET index for a child in the Dabrowski Square currently (DS-0) and differences after the implementation of project 1 (DS-1) and project 2 (DS-2), source: own elaboration
PET index for a child in the Dabrowski Square currently (DS-0) and differences after the implementation of project 1 (DS-1) and project 2 (DS-2), source: own elaboration

Figure 15.

PET index for adult man in the Dabrowski Square currently (DS-0) and differences after the implementation of project 1 (DS-1) and project 2 (DS-2), source: own elaboration
PET index for adult man in the Dabrowski Square currently (DS-0) and differences after the implementation of project 1 (DS-1) and project 2 (DS-2), source: own elaboration

Figure 16.

PET index for adult woman in the Dabrowski Square currently (DS-0) and differences after the implementation of project 1 (DS-1) and project 2 (DS-2), source: own elaboration
PET index for adult woman in the Dabrowski Square currently (DS-0) and differences after the implementation of project 1 (DS-1) and project 2 (DS-2), source: own elaboration

Figure 17.

PET index for elderly person in the Dabrowski Square currently (DS-0) and differences after the implementation of project 1 (DS-1) and project 2 (DS-2), source: own elaboration
PET index for elderly person in the Dabrowski Square currently (DS-0) and differences after the implementation of project 1 (DS-1) and project 2 (DS-2), source: own elaboration

Maximum and minimum changes occurring in the selected spaces after the introduction of projects, source: own elaboration

PARAMETER OM-1 OM-2 DS-1 DS-2
Min Max Min Max Min Max Min Max
Air temperature [°C] -0.8 0.6 -0.6 0.8 -1.4 0.5 -1.0 0.2
Relative humidity [%] -1.7 1.2 -1.1 2.0 -0.3 4.7 -0.01 4.3
Wind speed [m/s] -0.6 0.1 -0.1 0.1 -0.4 0.2 -0.4 0.1
PET [°C] child -5.4 3.4 -6.8 2.9 -10.8 0.5 -10.7 0.7
adult man -9.5 5.3 -10.4 7.2 -12.7 2.2 -12.5 3.4
adult woman -9.5 6.1 -10.4 7.2 -12.8 2.3 -12.4 3.6
elderly person -9.4 5.9 -10.4 7.2 -12.4 2.3 -12.2 3.6

Materials and components used in 3D models, source: own elaboration

Surface materials Construction materials Tree species
concrete pavement (dark grey,light grey, red),asphalt road,brick road,ardened soil,natural soil,grass,water. brick,plaster (cream, sand, light yellow,light green, light grey),roofing:– roofing felt (black, red),– clay tile,– aluminium sheet (red). Common Ash,Green Ash,Norway Maple,Silver Maple,Sycamore Maple,Swedish Whitebeam,Common Robinia,Red Oak,Common Hornbeam,Abies Alba.

PET index scale, source: [20]

PET [C] Thermal sensation Physiological stress level
< 4.1 very cold extreme cold stress
4.1 – 8.0 cold strong cold stress
8.1 – 13.0 cool moderate cold stress
13.1 – 18.0 slightly cool slight cold stress
18.1 – 23.0 comfortable no thermal stress
23.1 – 29.0 slightly warm slight heat stress
29.1 – 35.0 warm moderate heat stress
35.1 – 41.0 hot strong heat stress
> 41.0 very hot extreme heat stress

Parameters of public space users applied in the simulations, source: own elaboration

No. Gender Age [years] Height [m] Weight [kg] Metabolism [met] Other parameters
1. man 8 1.4 30 2.0 Clothing insulation [clo]:0.5 (light summer clothes)Movement speed [m/s]:1.2 (average walking speed)
2. woman 35 1.7 65 1.4
3. man 35 1.8 75 1.5
4. man 80 1.7 65 1.4

Simulation input parameters, source: own elaboration

Input parameters Data used in the models Input parameters Data used in the models
simulation day 5 July 2015 specific humidity 9.5 g/kg
simulation time 24 h temperature 14.6–34.2°C
wind speed 0.8 m/s relative humidity 20–85%
wind direction 270° (west) adjustment factor for radiation 0.8
air pressure 996.4 hPa surface roughness 1.0 m
Langue:
Anglais
Périodicité:
4 fois par an
Sujets de la revue:
Architecture et design, Architecture, Architectes, bâtiments
RSS Feed de la revue