TY  - JOUR
AU  - Sudimac, Budimir
AU  - Ilić, Bratislav
AU  - Munćan, Vladimir
AU  - Anđelković, Aleksandar .S.
PY  - 2019
UR  - https://raf.arh.bg.ac.rs/handle/123456789/342
AB  - Vegetation integration in architectural buildings is one of the sustainable approaches for the building's facade development. The vegetation walls in architecture are innovative concepts of green building. This paper deals with the experimental and theoretical examination of vertically greened walls in the process of facade envelope optimization. The objective is to determine the contribution of the vegetation walls to the improvement of the energy properties of the envelope through experiments and models. The research analyzed the energy specificity of the vegetation walls and their contribution to the improvement of the thermal properties of the facade coating in Belgrade climatic conditions. For the research purposes, an experimental model was developed on which the relevant temperature values and thermal conductivity coefficients were measured. Measurements have shown that vegetation affects the reduction of the surface temperature of the envelope and affects the value of the thermal conductivity coefficient of the facade envelope. The research has shown that the facade wall containing plants has a significant influence on the temperature balance in the facade of the building. The methodology presented in this paper is based on the analysis of the climate characteristics in the measuring area, measurement of temperature values in the experimental model and comparative analysis. During the experiment, the vegetation elements were treated as elements that influence the facade envelope overheating reduction. It has been concluded, from previous researches, that by using the vegetation walls, the south-oriented wall has a lower thermal absorption and a lesser value of heat flux. Data analysis enabled the assessment of the thermal insulation efficiency of the wall using vegetation during the summer period. The proposed methodology enables a quantitative analysis of the effects of vertical greenery.
PB  - Elsevier Ltd
T2  - Journal of cleaner production
T1  - Heat flux transmission assessment of a vegetation wall influence on the building envelope thermal conductivity in Belgrade climate
VL  - 223
SP  - 907
EP  - 916
DO  - 10.1016/j.jclepro.2019.02.087
ER  - 

@article{
author = "Sudimac, Budimir and Ilić, Bratislav and Munćan, Vladimir and Anđelković, Aleksandar .S.",
year = "2019",
abstract = "Vegetation integration in architectural buildings is one of the sustainable approaches for the building's facade development. The vegetation walls in architecture are innovative concepts of green building. This paper deals with the experimental and theoretical examination of vertically greened walls in the process of facade envelope optimization. The objective is to determine the contribution of the vegetation walls to the improvement of the energy properties of the envelope through experiments and models. The research analyzed the energy specificity of the vegetation walls and their contribution to the improvement of the thermal properties of the facade coating in Belgrade climatic conditions. For the research purposes, an experimental model was developed on which the relevant temperature values and thermal conductivity coefficients were measured. Measurements have shown that vegetation affects the reduction of the surface temperature of the envelope and affects the value of the thermal conductivity coefficient of the facade envelope. The research has shown that the facade wall containing plants has a significant influence on the temperature balance in the facade of the building. The methodology presented in this paper is based on the analysis of the climate characteristics in the measuring area, measurement of temperature values in the experimental model and comparative analysis. During the experiment, the vegetation elements were treated as elements that influence the facade envelope overheating reduction. It has been concluded, from previous researches, that by using the vegetation walls, the south-oriented wall has a lower thermal absorption and a lesser value of heat flux. Data analysis enabled the assessment of the thermal insulation efficiency of the wall using vegetation during the summer period. The proposed methodology enables a quantitative analysis of the effects of vertical greenery.",
publisher = "Elsevier Ltd",
journal = "Journal of cleaner production",
title = "Heat flux transmission assessment of a vegetation wall influence on the building envelope thermal conductivity in Belgrade climate",
volume = "223",
pages = "907-916",
doi = "10.1016/j.jclepro.2019.02.087"
}

Sudimac, B., Ilić, B., Munćan, V.,& Anđelković, A. .S.. (2019). Heat flux transmission assessment of a vegetation wall influence on the building envelope thermal conductivity in Belgrade climate. in Journal of cleaner production
Elsevier Ltd., 223, 907-916.
https://doi.org/10.1016/j.jclepro.2019.02.087

Sudimac B, Ilić B, Munćan V, Anđelković A.. Heat flux transmission assessment of a vegetation wall influence on the building envelope thermal conductivity in Belgrade climate. in Journal of cleaner production. 2019;223:907-916.
doi:10.1016/j.jclepro.2019.02.087 .

Sudimac, Budimir, Ilić, Bratislav, Munćan, Vladimir, Anđelković, Aleksandar .S., "Heat flux transmission assessment of a vegetation wall influence on the building envelope thermal conductivity in Belgrade climate" in Journal of cleaner production, 223 (2019):907-916,
https://doi.org/10.1016/j.jclepro.2019.02.087 . .

TY  - JOUR
AU  - Sudimac, Budimir
AU  - Ilić, Bratislav
AU  - Munćan, Vladimir
AU  - Anđelković, Aleksandar .S.
PY  - 2019
UR  - https://raf.arh.bg.ac.rs/handle/123456789/401
AB  - Vegetation integration in architectural buildings is one of the sustainable approaches for the building's facade development. The vegetation walls in architecture are innovative concepts of green building. This paper deals with the experimental and theoretical examination of vertically greened walls in the process of facade envelope optimization. The objective is to determine the contribution of the vegetation walls to the improvement of the energy properties of the envelope through experiments and models. The research analyzed the energy specificity of the vegetation walls and their contribution to the improvement of the thermal properties of the facade coating in Belgrade climatic conditions. For the research purposes, an experimental model was developed on which the relevant temperature values and thermal conductivity coefficients were measured. Measurements have shown that vegetation affects the reduction of the surface temperature of the envelope and affects the value of the thermal conductivity coefficient of the facade envelope. The research has shown that the facade wall containing plants has a significant influence on the temperature balance in the facade of the building. The methodology presented in this paper is based on the analysis of the climate characteristics in the measuring area, measurement of temperature values in the experimental model and comparative analysis. During the experiment, the vegetation elements were treated as elements that influence the facade envelope overheating reduction. It has been concluded, from previous researches, that by using the vegetation walls, the south-oriented wall has a lower thermal absorption and a lesser value of heat flux. Data analysis enabled the assessment of the thermal insulation efficiency of the wall using vegetation during the summer period. The proposed methodology enables a quantitative analysis of the effects of vertical greenery.
PB  - Elsevier Ltd
T2  - Journal of cleaner production
T1  - Heat flux transmission assessment of a vegetation wall influence on the building envelope thermal conductivity in Belgrade climate
VL  - 223
SP  - 907
EP  - 916
DO  - 10.1016/j.jclepro.2019.02.087
ER  - 

@article{
author = "Sudimac, Budimir and Ilić, Bratislav and Munćan, Vladimir and Anđelković, Aleksandar .S.",
year = "2019",
abstract = "Vegetation integration in architectural buildings is one of the sustainable approaches for the building's facade development. The vegetation walls in architecture are innovative concepts of green building. This paper deals with the experimental and theoretical examination of vertically greened walls in the process of facade envelope optimization. The objective is to determine the contribution of the vegetation walls to the improvement of the energy properties of the envelope through experiments and models. The research analyzed the energy specificity of the vegetation walls and their contribution to the improvement of the thermal properties of the facade coating in Belgrade climatic conditions. For the research purposes, an experimental model was developed on which the relevant temperature values and thermal conductivity coefficients were measured. Measurements have shown that vegetation affects the reduction of the surface temperature of the envelope and affects the value of the thermal conductivity coefficient of the facade envelope. The research has shown that the facade wall containing plants has a significant influence on the temperature balance in the facade of the building. The methodology presented in this paper is based on the analysis of the climate characteristics in the measuring area, measurement of temperature values in the experimental model and comparative analysis. During the experiment, the vegetation elements were treated as elements that influence the facade envelope overheating reduction. It has been concluded, from previous researches, that by using the vegetation walls, the south-oriented wall has a lower thermal absorption and a lesser value of heat flux. Data analysis enabled the assessment of the thermal insulation efficiency of the wall using vegetation during the summer period. The proposed methodology enables a quantitative analysis of the effects of vertical greenery.",
publisher = "Elsevier Ltd",
journal = "Journal of cleaner production",
title = "Heat flux transmission assessment of a vegetation wall influence on the building envelope thermal conductivity in Belgrade climate",
volume = "223",
pages = "907-916",
doi = "10.1016/j.jclepro.2019.02.087"
}

Sudimac, B., Ilić, B., Munćan, V.,& Anđelković, A. .S.. (2019). Heat flux transmission assessment of a vegetation wall influence on the building envelope thermal conductivity in Belgrade climate. in Journal of cleaner production
Elsevier Ltd., 223, 907-916.
https://doi.org/10.1016/j.jclepro.2019.02.087

Sudimac B, Ilić B, Munćan V, Anđelković A.. Heat flux transmission assessment of a vegetation wall influence on the building envelope thermal conductivity in Belgrade climate. in Journal of cleaner production. 2019;223:907-916.
doi:10.1016/j.jclepro.2019.02.087 .

Sudimac, Budimir, Ilić, Bratislav, Munćan, Vladimir, Anđelković, Aleksandar .S., "Heat flux transmission assessment of a vegetation wall influence on the building envelope thermal conductivity in Belgrade climate" in Journal of cleaner production, 223 (2019):907-916,
https://doi.org/10.1016/j.jclepro.2019.02.087 . .

TY  - JOUR
AU  - Ilić, Bratislav
AU  - Terzović, Jefto
PY  - 2010
UR  - https://raf.arh.bg.ac.rs/handle/123456789/81
AB  - Current trends in architecture are to a largely influenced by new developments in software design and its direct implementation in the production process of construction elements, by the construction industry. Research of the form and the structure of a morph shapes in architecture includes, alongside the usual methods, the iterative process - testing of mutually inter-dependant variety of solutions through alternating application of software for geometric modeling and structural analysis. Structural analysis is carried out with a software package based on the finite element method - FEM, where all relevant load behaviour cases are considered, thus forming their real combinations. Optimization of construction methods is carried out in the module for shaping of steel elements iteratively testing levels of stress and stability of individual rods, including the global structure.
AB  - Savremeni trendovi u arhitekturi u velikoj meri su posledica razvoja softvera i njihove direktne implementacije u proizvodnom procesu konstruktivnih elemenata u građevinarstvu. Istraživanje forme i strukture amorfnih arhitektonskih objekata podrazumeva, pored uobičajenih metoda, iterativni postupak - specifično ispitivanje međusobno zavisnih varijantnih rešenja kroz naizmeničnu primenu softvera za geometrijsko modelovanje i softvera za statičko-konstruktivnu analizu. Statičko - konstruktivna analiza se sprovodi pomoću softverskog paketa koji se bazira na metodi konačnih elemenata, pri čemu se uzimaju u obzir svi relevantni slučajevi opterećenja, od kojih se formiraju njihove realne kombinacije. Optimizacija konstrukcije se vrši u modulu za dimenzionisanje čeličnih elemenata iterativnim kontrolama napona i kontrolama stabilnosti pojedinačnih štapova, kao i globalne strukture.
PB  - Univerzitet u Nišu - Građevinsko-arhitektonski fakultet, Niš
T2  - Nauka + Praksa
T1  - Optimization of three-dimensional double-curved amorph shapes used in architecture
T1  - Optimizacija trodimenzionalnih dvostruko zakrivljenih amorfnih formi u arhitekturi
IS  - 13
SP  - 29
EP  - 32
UR  - https://hdl.handle.net/21.15107/rcub_raf_81
ER  - 

@article{
author = "Ilić, Bratislav and Terzović, Jefto",
year = "2010",
abstract = "Current trends in architecture are to a largely influenced by new developments in software design and its direct implementation in the production process of construction elements, by the construction industry. Research of the form and the structure of a morph shapes in architecture includes, alongside the usual methods, the iterative process - testing of mutually inter-dependant variety of solutions through alternating application of software for geometric modeling and structural analysis. Structural analysis is carried out with a software package based on the finite element method - FEM, where all relevant load behaviour cases are considered, thus forming their real combinations. Optimization of construction methods is carried out in the module for shaping of steel elements iteratively testing levels of stress and stability of individual rods, including the global structure., Savremeni trendovi u arhitekturi u velikoj meri su posledica razvoja softvera i njihove direktne implementacije u proizvodnom procesu konstruktivnih elemenata u građevinarstvu. Istraživanje forme i strukture amorfnih arhitektonskih objekata podrazumeva, pored uobičajenih metoda, iterativni postupak - specifično ispitivanje međusobno zavisnih varijantnih rešenja kroz naizmeničnu primenu softvera za geometrijsko modelovanje i softvera za statičko-konstruktivnu analizu. Statičko - konstruktivna analiza se sprovodi pomoću softverskog paketa koji se bazira na metodi konačnih elemenata, pri čemu se uzimaju u obzir svi relevantni slučajevi opterećenja, od kojih se formiraju njihove realne kombinacije. Optimizacija konstrukcije se vrši u modulu za dimenzionisanje čeličnih elemenata iterativnim kontrolama napona i kontrolama stabilnosti pojedinačnih štapova, kao i globalne strukture.",
publisher = "Univerzitet u Nišu - Građevinsko-arhitektonski fakultet, Niš",
journal = "Nauka + Praksa",
title = "Optimization of three-dimensional double-curved amorph shapes used in architecture, Optimizacija trodimenzionalnih dvostruko zakrivljenih amorfnih formi u arhitekturi",
number = "13",
pages = "29-32",
url = "https://hdl.handle.net/21.15107/rcub_raf_81"
}

Ilić, B.,& Terzović, J.. (2010). Optimization of three-dimensional double-curved amorph shapes used in architecture. in Nauka + Praksa
Univerzitet u Nišu - Građevinsko-arhitektonski fakultet, Niš.(13), 29-32.
https://hdl.handle.net/21.15107/rcub_raf_81

Ilić B, Terzović J. Optimization of three-dimensional double-curved amorph shapes used in architecture. in Nauka + Praksa. 2010;(13):29-32.
https://hdl.handle.net/21.15107/rcub_raf_81 .

Ilić, Bratislav, Terzović, Jefto, "Optimization of three-dimensional double-curved amorph shapes used in architecture" in Nauka + Praksa, no. 13 (2010):29-32,
https://hdl.handle.net/21.15107/rcub_raf_81 .