Sudimac, B.. (2023). Urbana oaza. 
Beograd : Univerzitet u Beogradu, Arhitektonski fakultet..
https://hdl.handle.net/21.15107/rcub_raf_1936

Sudimac B. Urbana oaza. 2023;.
https://hdl.handle.net/21.15107/rcub_raf_1936 .

Sudimac, Budimir, "Urbana oaza" (2023),
https://hdl.handle.net/21.15107/rcub_raf_1936 .

TY  - CONF
AU  - Gajić, Darija
AU  - Sudimac, Budimir
AU  - Rajčić, Aleksandar
AU  - Peulić, Slobodan
AU  - Rašović, Jelena
PY  - 2023
UR  - https://raf.arh.bg.ac.rs/handle/123456789/1778
AB  - In the light of the development of new construction systems and envelopes based on renewable and natural materials, that is recently obligatory for the EU member countries through New renovation Wave strategy, authors present research on the topic of energy renovation of buildings using renewable materials in modular systems and its possibilities in two developing countries. This paper presents energy savings, through case study of deep renovation of buildings, using timber modular systems for enveloping the characteristic example of residential building. Paper focuses on the period between 1971 and 1980, due to the considerable number of modular buildings designed during the peak of the construction progress and promotion of prefabricated buildings. Total potential energy savings for such building types is considered according to national typologies of residential buildings in Bosnia and Herzegovina and Serbia. Through a comparative analysis of these countries, the paper presents following parameters of buildings built in period 1971-1980: total number of buildings, total number of apartments, average energy need for heating - Qh,nd, and total energy need for heating before and after the renovation of the envelope applying standard measures from national typologies and applying timber modular envelope systems, which have the potential for deep renovation of buildings.
PB  - University of Belgrade, Faculty of Architecture
C3  - Keeping up with technologies to imagine and build together sustainable. inclusive, and beautiful cities : book of abstracts / 8th International Academic Conference on Places and Technologies, Belgrade
T1  - Energy savings potential in modular envelope renovations of prefabricated residential buildings in Bosnia-Herzegovina and Serbia
SP  - 76
EP  - 76
UR  - https://hdl.handle.net/21.15107/rcub_raf_1778
ER  - 

@conference{
author = "Gajić, Darija and Sudimac, Budimir and Rajčić, Aleksandar and Peulić, Slobodan and Rašović, Jelena",
year = "2023",
abstract = "In the light of the development of new construction systems and envelopes based on renewable and natural materials, that is recently obligatory for the EU member countries through New renovation Wave strategy, authors present research on the topic of energy renovation of buildings using renewable materials in modular systems and its possibilities in two developing countries. This paper presents energy savings, through case study of deep renovation of buildings, using timber modular systems for enveloping the characteristic example of residential building. Paper focuses on the period between 1971 and 1980, due to the considerable number of modular buildings designed during the peak of the construction progress and promotion of prefabricated buildings. Total potential energy savings for such building types is considered according to national typologies of residential buildings in Bosnia and Herzegovina and Serbia. Through a comparative analysis of these countries, the paper presents following parameters of buildings built in period 1971-1980: total number of buildings, total number of apartments, average energy need for heating - Qh,nd, and total energy need for heating before and after the renovation of the envelope applying standard measures from national typologies and applying timber modular envelope systems, which have the potential for deep renovation of buildings.",
publisher = "University of Belgrade, Faculty of Architecture",
journal = "Keeping up with technologies to imagine and build together sustainable. inclusive, and beautiful cities : book of abstracts / 8th International Academic Conference on Places and Technologies, Belgrade",
title = "Energy savings potential in modular envelope renovations of prefabricated residential buildings in Bosnia-Herzegovina and Serbia",
pages = "76-76",
url = "https://hdl.handle.net/21.15107/rcub_raf_1778"
}

Gajić, D., Sudimac, B., Rajčić, A., Peulić, S.,& Rašović, J.. (2023). Energy savings potential in modular envelope renovations of prefabricated residential buildings in Bosnia-Herzegovina and Serbia. in Keeping up with technologies to imagine and build together sustainable. inclusive, and beautiful cities : book of abstracts / 8th International Academic Conference on Places and Technologies, Belgrade
University of Belgrade, Faculty of Architecture., 76-76.
https://hdl.handle.net/21.15107/rcub_raf_1778

Gajić D, Sudimac B, Rajčić A, Peulić S, Rašović J. Energy savings potential in modular envelope renovations of prefabricated residential buildings in Bosnia-Herzegovina and Serbia. in Keeping up with technologies to imagine and build together sustainable. inclusive, and beautiful cities : book of abstracts / 8th International Academic Conference on Places and Technologies, Belgrade. 2023;:76-76.
https://hdl.handle.net/21.15107/rcub_raf_1778 .

Gajić, Darija, Sudimac, Budimir, Rajčić, Aleksandar, Peulić, Slobodan, Rašović, Jelena, "Energy savings potential in modular envelope renovations of prefabricated residential buildings in Bosnia-Herzegovina and Serbia" in Keeping up with technologies to imagine and build together sustainable. inclusive, and beautiful cities : book of abstracts / 8th International Academic Conference on Places and Technologies, Belgrade (2023):76-76,
https://hdl.handle.net/21.15107/rcub_raf_1778 .

TY  - CONF
AU  - Sudimac, Budimir
AU  - Slavković, Branko
AU  - Obradović, Radojko
PY  - 2023
UR  - https://raf.arh.bg.ac.rs/handle/123456789/1753
AB  - Cilj ovog istraživanja je optimizacija fasadnog omotača, arhitektonskog objekta, integracijom vegetacionih modularnih elemenata. U radu se istražuju potencijali vegetacionih zidova u smanjenja utroška  energije potrebne za hlađenje objekta u letnjem periodu. Istraživanje je obuhvatilo analizu energetskih specifičnosti vegetacionih zidova i njihovu programsku integrakciju u urbanim gradskim ambijentima. Korišćenje elemenata vegetacionih zidova u arhitekturi otvorilo je nove projektantske mogućnosti i stvorilo izazove za projektante sa ciljem povećanja energetske efikasnosti objekata. U radu se vegetacioni zidovi tretiraju kao elementi zaštite arhitektonskih objekata od toplotnog pregrevanja. Analize su pokazale da vegetacija smanjuje kontaktnu temperaturu površina strukturalnih zidova objekta, dok isparavanje obezbeđuje pasivno hlađenje. Cilj istraživanja je da se ispitaju metode i tehnike, kojima se obezbeđuje široka primena vegetacionih zidova u arhitekturi postojećih i novih objekata kroz ispitivanja i pronalaženja preporuka za unapređenjem termičkih karakteristika fasadnih omotača objekta.
PB  - Banja Luka:Arhitektonsko-građevinsko-geodetski fakultet Univerziteta u Banjoj Luci
C3  - Zbornik radova / V Naučno-stručni simpozijum Energetska efikasnost ENEF, Banja Luka, 26 - 27. april
T1  - Утицај вегетационих модуларних елемената за зидове омотача на енергетски биланс зграде
SP  - 61
EP  - 66
UR  - https://hdl.handle.net/21.15107/rcub_raf_1753
ER  - 

@conference{
author = "Sudimac, Budimir and Slavković, Branko and Obradović, Radojko",
year = "2023",
abstract = "Cilj ovog istraživanja je optimizacija fasadnog omotača, arhitektonskog objekta, integracijom vegetacionih modularnih elemenata. U radu se istražuju potencijali vegetacionih zidova u smanjenja utroška  energije potrebne za hlađenje objekta u letnjem periodu. Istraživanje je obuhvatilo analizu energetskih specifičnosti vegetacionih zidova i njihovu programsku integrakciju u urbanim gradskim ambijentima. Korišćenje elemenata vegetacionih zidova u arhitekturi otvorilo je nove projektantske mogućnosti i stvorilo izazove za projektante sa ciljem povećanja energetske efikasnosti objekata. U radu se vegetacioni zidovi tretiraju kao elementi zaštite arhitektonskih objekata od toplotnog pregrevanja. Analize su pokazale da vegetacija smanjuje kontaktnu temperaturu površina strukturalnih zidova objekta, dok isparavanje obezbeđuje pasivno hlađenje. Cilj istraživanja je da se ispitaju metode i tehnike, kojima se obezbeđuje široka primena vegetacionih zidova u arhitekturi postojećih i novih objekata kroz ispitivanja i pronalaženja preporuka za unapređenjem termičkih karakteristika fasadnih omotača objekta.",
publisher = "Banja Luka:Arhitektonsko-građevinsko-geodetski fakultet Univerziteta u Banjoj Luci",
journal = "Zbornik radova / V Naučno-stručni simpozijum Energetska efikasnost ENEF, Banja Luka, 26 - 27. april",
title = "Утицај вегетационих модуларних елемената за зидове омотача на енергетски биланс зграде",
pages = "61-66",
url = "https://hdl.handle.net/21.15107/rcub_raf_1753"
}

Sudimac, B., Slavković, B.,& Obradović, R.. (2023). Утицај вегетационих модуларних елемената за зидове омотача на енергетски биланс зграде. in Zbornik radova / V Naučno-stručni simpozijum Energetska efikasnost ENEF, Banja Luka, 26 - 27. april
Banja Luka:Arhitektonsko-građevinsko-geodetski fakultet Univerziteta u Banjoj Luci., 61-66.
https://hdl.handle.net/21.15107/rcub_raf_1753

Sudimac B, Slavković B, Obradović R. Утицај вегетационих модуларних елемената за зидове омотача на енергетски биланс зграде. in Zbornik radova / V Naučno-stručni simpozijum Energetska efikasnost ENEF, Banja Luka, 26 - 27. april. 2023;:61-66.
https://hdl.handle.net/21.15107/rcub_raf_1753 .

Sudimac, Budimir, Slavković, Branko, Obradović, Radojko, "Утицај вегетационих модуларних елемената за зидове омотача на енергетски биланс зграде" in Zbornik radova / V Naučno-stručni simpozijum Energetska efikasnost ENEF, Banja Luka, 26 - 27. april (2023):61-66,
https://hdl.handle.net/21.15107/rcub_raf_1753 .

TY  - CONF
AU  - Ristić Trajković, Jelena
AU  - Nikezić, Ana
AU  - Sudimac, Budimir
AU  - Djokić, Vladan
AU  - Milovanović, Aleksandra
AU  - Đorđević, Aleksandra
AU  - Pešić, Mladen
PY  - 2022
UR  - https://raf.arh.bg.ac.rs/handle/123456789/1702
AB  - This event was realized as a joint event of the COST Action CA17133 “Circular City: Implementing nature-based solutions for creating a resourceful circular city” and a 6-year project on climate change adaptation “Coast to Coast Climate Challenge”. Posters on significant European and global scientific projects dealing with a broad spectrum of problems related to climate change were exhibited in parallel with the conference “Done. What’s Next?” More than 320 participants – including professionals in climate adaptation, international researchers, students and 21 stand holders from companies and organizations- participated in this event. In accordance with the thematic importance of the event and the presence of key stakeholders in relation to the topic of the ECOBUILT project, it was of great importance to present it to wither international public. The ECOBUILT project was presented as a significant initiative within the field of education, especially from the aspect of enhancing socially responsible action and approach in architectural education.

https://ecobuilt-project.org/ecobuilt-project-presented-at-final-event-of-the-cost-action-ca17133-circular-city/
PB  - Aarhus: VIA University College
C3  - Poster presented at COST Action CA17133 Circular City Implementing nature-based solutions for creating a resourceful circular city Final event 18+19 September 2022, VIA University College, Aarhus, Denmark
T1  - Enhancing Socially Responsible action and Approach to Nature-Based Solutions in Architectural Education within the framework of the Project: Eco-friendly Built Environment [poster]
SP  - 10
EP  - 10
UR  - https://hdl.handle.net/21.15107/rcub_raf_1702
ER  - 

@conference{
author = "Ristić Trajković, Jelena and Nikezić, Ana and Sudimac, Budimir and Djokić, Vladan and Milovanović, Aleksandra and Đorđević, Aleksandra and Pešić, Mladen",
year = "2022",
abstract = "This event was realized as a joint event of the COST Action CA17133 “Circular City: Implementing nature-based solutions for creating a resourceful circular city” and a 6-year project on climate change adaptation “Coast to Coast Climate Challenge”. Posters on significant European and global scientific projects dealing with a broad spectrum of problems related to climate change were exhibited in parallel with the conference “Done. What’s Next?” More than 320 participants – including professionals in climate adaptation, international researchers, students and 21 stand holders from companies and organizations- participated in this event. In accordance with the thematic importance of the event and the presence of key stakeholders in relation to the topic of the ECOBUILT project, it was of great importance to present it to wither international public. The ECOBUILT project was presented as a significant initiative within the field of education, especially from the aspect of enhancing socially responsible action and approach in architectural education.

https://ecobuilt-project.org/ecobuilt-project-presented-at-final-event-of-the-cost-action-ca17133-circular-city/",
publisher = "Aarhus: VIA University College",
journal = "Poster presented at COST Action CA17133 Circular City Implementing nature-based solutions for creating a resourceful circular city Final event 18+19 September 2022, VIA University College, Aarhus, Denmark",
title = "Enhancing Socially Responsible action and Approach to Nature-Based Solutions in Architectural Education within the framework of the Project: Eco-friendly Built Environment [poster]",
pages = "10-10",
url = "https://hdl.handle.net/21.15107/rcub_raf_1702"
}

Ristić Trajković, J., Nikezić, A., Sudimac, B., Djokić, V., Milovanović, A., Đorđević, A.,& Pešić, M.. (2022). Enhancing Socially Responsible action and Approach to Nature-Based Solutions in Architectural Education within the framework of the Project: Eco-friendly Built Environment [poster]. in Poster presented at COST Action CA17133 Circular City Implementing nature-based solutions for creating a resourceful circular city Final event 18+19 September 2022, VIA University College, Aarhus, Denmark
Aarhus: VIA University College., 10-10.
https://hdl.handle.net/21.15107/rcub_raf_1702

Ristić Trajković J, Nikezić A, Sudimac B, Djokić V, Milovanović A, Đorđević A, Pešić M. Enhancing Socially Responsible action and Approach to Nature-Based Solutions in Architectural Education within the framework of the Project: Eco-friendly Built Environment [poster]. in Poster presented at COST Action CA17133 Circular City Implementing nature-based solutions for creating a resourceful circular city Final event 18+19 September 2022, VIA University College, Aarhus, Denmark. 2022;:10-10.
https://hdl.handle.net/21.15107/rcub_raf_1702 .

Ristić Trajković, Jelena, Nikezić, Ana, Sudimac, Budimir, Djokić, Vladan, Milovanović, Aleksandra, Đorđević, Aleksandra, Pešić, Mladen, "Enhancing Socially Responsible action and Approach to Nature-Based Solutions in Architectural Education within the framework of the Project: Eco-friendly Built Environment [poster]" in Poster presented at COST Action CA17133 Circular City Implementing nature-based solutions for creating a resourceful circular city Final event 18+19 September 2022, VIA University College, Aarhus, Denmark (2022):10-10,
https://hdl.handle.net/21.15107/rcub_raf_1702 .

TY  - CONF
AU  - Sudimac, Budimir
AU  - Gajić, Darija
AU  - Peulić, Slobodan
PY  - 2022
UR  - https://raf.arh.bg.ac.rs/handle/123456789/1801
AB  - Towards building renovation strategies, the research is led by a very deep renovation of residential buildings, which would reduce the energy need for heating below 40 kWh/m2 or create energy savings 60%. The renovation of the building envelope, guided by organic materials (such as wood), which is in the one of key principles in the New Renovation Wave Strategy of the European Union from October 2020, is presented in the paper. Energy saving made by renovating building envelopes using wooden modular systems, are shown through characteristic building on which their application is adequate. Case study from Bosnia and Herzegovina indicate possible energy savings of 81% for residential type Multi-family houses – MFH from period 1961-1970.
AB  - У сусрет стратегијама обнове зграда, истраживање се води веома дубоком обновом стамбених зграда, којом би се смањила вриједност потребне енергије за гријање испод 40 kWh/m2 или створити уштеду енергије за 60%. Представљена је обнова омотача стамбених зграда која се води органским материјалима, као што је дрво, што представља један од кључних принципа Нове стратегије обнове зграда европске уније из октобра 2020. године. Енергетска уштеда, обновом омотача зграда, кориштењем дрвених модуларних система, приказана је на карактеристичној типској згради. Студија случаја из Босне и Херцеговине указује на потенцијал енергетске уштеде од 81% за стамбени тип зграде – MFH из 1961-1970.
PB  - Banja Luka : University of Banja Luka Faculty of Architecture, Civil Engineering and Geodesy = Универзитет у Бањој Луци, Архитектонско-грађевинскогеодетски факултет
C3  - Proceedings [Електронски извор] = Зборник радова / International Conference on Contemporary Theory and Practice in Construction XV Stepgrad XV, Banja Luka, June 16-17. 2022 = Међународна конференција Савремена теорија и пракса у градитељству XV Степград XV, Бања Лука, 16-17.06.2022
T1  - Energy renovation of residential building envelope using organic materials for the level of cost-optimal improvement/ upgrade in Bosnia-Herzegovina and Serbia
T1  - Енергетска обнова омотача стамбених зграда коришћењем органских материјала за ниво трошковно-оптималног унапређења у БиХ и Србији
SP  - 380
EP  - 392
DO  - 10.7251/STP2215380S
ER  - 

@conference{
author = "Sudimac, Budimir and Gajić, Darija and Peulić, Slobodan",
year = "2022",
abstract = "Towards building renovation strategies, the research is led by a very deep renovation of residential buildings, which would reduce the energy need for heating below 40 kWh/m2 or create energy savings 60%. The renovation of the building envelope, guided by organic materials (such as wood), which is in the one of key principles in the New Renovation Wave Strategy of the European Union from October 2020, is presented in the paper. Energy saving made by renovating building envelopes using wooden modular systems, are shown through characteristic building on which their application is adequate. Case study from Bosnia and Herzegovina indicate possible energy savings of 81% for residential type Multi-family houses – MFH from period 1961-1970., У сусрет стратегијама обнове зграда, истраживање се води веома дубоком обновом стамбених зграда, којом би се смањила вриједност потребне енергије за гријање испод 40 kWh/m2 или створити уштеду енергије за 60%. Представљена је обнова омотача стамбених зграда која се води органским материјалима, као што је дрво, што представља један од кључних принципа Нове стратегије обнове зграда европске уније из октобра 2020. године. Енергетска уштеда, обновом омотача зграда, кориштењем дрвених модуларних система, приказана је на карактеристичној типској згради. Студија случаја из Босне и Херцеговине указује на потенцијал енергетске уштеде од 81% за стамбени тип зграде – MFH из 1961-1970.",
publisher = "Banja Luka : University of Banja Luka Faculty of Architecture, Civil Engineering and Geodesy = Универзитет у Бањој Луци, Архитектонско-грађевинскогеодетски факултет",
journal = "Proceedings [Електронски извор] = Зборник радова / International Conference on Contemporary Theory and Practice in Construction XV Stepgrad XV, Banja Luka, June 16-17. 2022 = Међународна конференција Савремена теорија и пракса у градитељству XV Степград XV, Бања Лука, 16-17.06.2022",
title = "Energy renovation of residential building envelope using organic materials for the level of cost-optimal improvement/ upgrade in Bosnia-Herzegovina and Serbia, Енергетска обнова омотача стамбених зграда коришћењем органских материјала за ниво трошковно-оптималног унапређења у БиХ и Србији",
pages = "380-392",
doi = "10.7251/STP2215380S"
}

Sudimac, B., Gajić, D.,& Peulić, S.. (2022). Energy renovation of residential building envelope using organic materials for the level of cost-optimal improvement/ upgrade in Bosnia-Herzegovina and Serbia. in Proceedings [Електронски извор] = Зборник радова / International Conference on Contemporary Theory and Practice in Construction XV Stepgrad XV, Banja Luka, June 16-17. 2022 = Међународна конференција Савремена теорија и пракса у градитељству XV Степград XV, Бања Лука, 16-17.06.2022
Banja Luka : University of Banja Luka Faculty of Architecture, Civil Engineering and Geodesy = Универзитет у Бањој Луци, Архитектонско-грађевинскогеодетски факултет., 380-392.
https://doi.org/10.7251/STP2215380S

Sudimac B, Gajić D, Peulić S. Energy renovation of residential building envelope using organic materials for the level of cost-optimal improvement/ upgrade in Bosnia-Herzegovina and Serbia. in Proceedings [Електронски извор] = Зборник радова / International Conference on Contemporary Theory and Practice in Construction XV Stepgrad XV, Banja Luka, June 16-17. 2022 = Међународна конференција Савремена теорија и пракса у градитељству XV Степград XV, Бања Лука, 16-17.06.2022. 2022;:380-392.
doi:10.7251/STP2215380S .

Sudimac, Budimir, Gajić, Darija, Peulić, Slobodan, "Energy renovation of residential building envelope using organic materials for the level of cost-optimal improvement/ upgrade in Bosnia-Herzegovina and Serbia" in Proceedings [Електронски извор] = Зборник радова / International Conference on Contemporary Theory and Practice in Construction XV Stepgrad XV, Banja Luka, June 16-17. 2022 = Међународна конференција Савремена теорија и пракса у градитељству XV Степград XV, Бања Лука, 16-17.06.2022 (2022):380-392,
https://doi.org/10.7251/STP2215380S . .

TY  - JOUR
AU  - Slavković, Branko
AU  - Sudimac, Budimir
AU  - Kovačević, Ljubica
PY  - 2022
UR  - https://raf.arh.bg.ac.rs/handle/123456789/1780
AB  - Ovaj rad ima za cilj da ukaže na potencijal braunfild investicija Republike Srbije. Napuštena industrijska postrojenja i ruinirani kompleksi, obično smešteni u delovima grada koji su u vreme industrijske revolucije bili jezgra razvoja, u razvijenim zemljama ne predstavljaju rugla kao kod nas, već veoma atraktivna mesta kojima je udahnut novi život. Takozvane braunfild investicije, koje pored oživljavanja starih objekata, podrazumevaju i revitalizaciju zagađenog građevinskog zemljišta, u svetu su aktuelne već oko dve decenije. Ovim radom su ispitane mogućnosti adaptacije i prenamene industrijske zgrade u Novom Pazaru u zgradu poslovne namene, sa primenom pasivnih solarnih sistema, sa ciljem smanjenja emisije CO2 i posledica po životnu sredinu. Energetske karakteristike zgrade su dobijene korišćenjem softvera DesignBuilder i simulacione platforme EnergyPlus, uzimajući u obzir parametre potrebnih unutrašnjih temperaturnih i klimatskih podataka za Republiku Srbiju. Metodološki pristup u ovom istraživanju podrazumeva izradu scenarija sanacije konkretnog industrijskog objekata prema čijim svojstvima su numeričkom simulacijom istraživane mogućnosti energetske sanacije i izvršena komparativna analiza dobijenih rezultata potrebne energije grejanja i hlađenja i smanjenje emisije CO2.
AB  - This paper aims to point out the potential of Brownfield investments of the Republic of Serbia. Abandoned industrial plants and ruined complexes, usually located in parts of the city that were the core of development during the Industrial Revolution, in developed countries are not a mockery like ours, but very attractive places that breathe new life. The so-called Brownfield investments, which, in addition to reviving old buildings, also include the revitalization of polluted construction land, have been current in the world for about two decades. This paper examines the possibilities of adapting and reuse an industrial building in Novi Pazar into an office building, with the use of passive solar systems, with the aim of reducing CO2 emissions and environmental consequences. The energy characteristics of the building were obtained using the DesignBuilder software and the EnergyPlus simulation platform, taking into account the parameters of the required internal temperature and climate data for the Republic of Serbia. The methodological approach in this research implies the development of a scenario for the rehabilitation of a specific industrial facility according to whose properties the possibilities of energy rehabilitation were investigated by numerical simulation and a comparative analysis of the obtained results of required heating and cooling energy and CO2 reduction.
PB  - Beograd : Naučno-stručno društvo za zaštitu životne sredine Srbije – Ecologica
T2  - Ecologica
T1  - Braunfild investicije u Srbiji sa ciljem smanjenja emisije CO2 i očuvanja životne sredine: studija slučaja
T1  - Brownfield investments in Serbia with the aim of reducing CO2 emissions and preserving the environment: case study
VL  - 29
IS  - 108
SP  - 523
EP  - 530
DO  - 10.18485/ecologica.2022.29.108.8
ER  - 

@article{
author = "Slavković, Branko and Sudimac, Budimir and Kovačević, Ljubica",
year = "2022",
abstract = "Ovaj rad ima za cilj da ukaže na potencijal braunfild investicija Republike Srbije. Napuštena industrijska postrojenja i ruinirani kompleksi, obično smešteni u delovima grada koji su u vreme industrijske revolucije bili jezgra razvoja, u razvijenim zemljama ne predstavljaju rugla kao kod nas, već veoma atraktivna mesta kojima je udahnut novi život. Takozvane braunfild investicije, koje pored oživljavanja starih objekata, podrazumevaju i revitalizaciju zagađenog građevinskog zemljišta, u svetu su aktuelne već oko dve decenije. Ovim radom su ispitane mogućnosti adaptacije i prenamene industrijske zgrade u Novom Pazaru u zgradu poslovne namene, sa primenom pasivnih solarnih sistema, sa ciljem smanjenja emisije CO2 i posledica po životnu sredinu. Energetske karakteristike zgrade su dobijene korišćenjem softvera DesignBuilder i simulacione platforme EnergyPlus, uzimajući u obzir parametre potrebnih unutrašnjih temperaturnih i klimatskih podataka za Republiku Srbiju. Metodološki pristup u ovom istraživanju podrazumeva izradu scenarija sanacije konkretnog industrijskog objekata prema čijim svojstvima su numeričkom simulacijom istraživane mogućnosti energetske sanacije i izvršena komparativna analiza dobijenih rezultata potrebne energije grejanja i hlađenja i smanjenje emisije CO2., This paper aims to point out the potential of Brownfield investments of the Republic of Serbia. Abandoned industrial plants and ruined complexes, usually located in parts of the city that were the core of development during the Industrial Revolution, in developed countries are not a mockery like ours, but very attractive places that breathe new life. The so-called Brownfield investments, which, in addition to reviving old buildings, also include the revitalization of polluted construction land, have been current in the world for about two decades. This paper examines the possibilities of adapting and reuse an industrial building in Novi Pazar into an office building, with the use of passive solar systems, with the aim of reducing CO2 emissions and environmental consequences. The energy characteristics of the building were obtained using the DesignBuilder software and the EnergyPlus simulation platform, taking into account the parameters of the required internal temperature and climate data for the Republic of Serbia. The methodological approach in this research implies the development of a scenario for the rehabilitation of a specific industrial facility according to whose properties the possibilities of energy rehabilitation were investigated by numerical simulation and a comparative analysis of the obtained results of required heating and cooling energy and CO2 reduction.",
publisher = "Beograd : Naučno-stručno društvo za zaštitu životne sredine Srbije – Ecologica",
journal = "Ecologica",
title = "Braunfild investicije u Srbiji sa ciljem smanjenja emisije CO2 i očuvanja životne sredine: studija slučaja, Brownfield investments in Serbia with the aim of reducing CO2 emissions and preserving the environment: case study",
volume = "29",
number = "108",
pages = "523-530",
doi = "10.18485/ecologica.2022.29.108.8"
}

Slavković, B., Sudimac, B.,& Kovačević, L.. (2022). Braunfild investicije u Srbiji sa ciljem smanjenja emisije CO2 i očuvanja životne sredine: studija slučaja. in Ecologica
Beograd : Naučno-stručno društvo za zaštitu životne sredine Srbije – Ecologica., 29(108), 523-530.
https://doi.org/10.18485/ecologica.2022.29.108.8

Slavković B, Sudimac B, Kovačević L. Braunfild investicije u Srbiji sa ciljem smanjenja emisije CO2 i očuvanja životne sredine: studija slučaja. in Ecologica. 2022;29(108):523-530.
doi:10.18485/ecologica.2022.29.108.8 .

Slavković, Branko, Sudimac, Budimir, Kovačević, Ljubica, "Braunfild investicije u Srbiji sa ciljem smanjenja emisije CO2 i očuvanja životne sredine: studija slučaja" in Ecologica, 29, no. 108 (2022):523-530,
https://doi.org/10.18485/ecologica.2022.29.108.8 . .

TY  - JOUR
AU  - Ugrinović, Aleksandra
AU  - Sudimac, Budimir
AU  - Savković, Željko
PY  - 2021
UR  - https://raf.arh.bg.ac.rs/handle/123456789/1201
AB  - When an archaeological site is roofed over for the better display of the finds and more comfortable experience of the audience, the intervention undoubtedly changes the microclimatic conditions in the site. Although sudden changes in microclimatic factors are known to damage and/or destroy archaeological finds, their impact and its analysis are neglected in Serbia. There is no continuous monitoring and control of microclimatic conditions or their impact on architectural remains in archaeological sites. Accordingly, the values of microclimatic parameters of temperature and relative humidity and their daily oscillations are examined in this paper through microclimatic monitoring in the Visitor Center of the Archaeological Site 1a Imperial Palace Sirmium, which is a cultural asset of exceptional importance. Moreover, microbiological analyses determine the degree of contamination of architectural findings. The aim of this paper is to determine whether the microclimatic regime in the Visitor Center of the Archaeological Site 1a Imperial Palace Sirmium is in accordance with European standards and recommendations on optimal micro-climatic conditions for the presentation and preservation of cultural heritage collections. The findings showed that during the phase of microclimatic monitoring (February–April 2021), air humidity was almost constantly above the levels set by standards and recommendations for mu-seum collections (>60%). The highest levels of air humidity, amounting to 93%, were recorded in February, with daily oscillations of up to 30%; the lowest recorded temperature was 0.3 °C, with the maximum daily oscillations of 6 °C. Microbiological analysis revealed great diversity in the deterioration level of the finds, which can be attributed to the time lapse between the last conservation and the present. The comparative analysis of the results of microclimatic monitoring and microbiological analysis identified high levels of relative air humidity as the dominant factor in the increased microbiological contamination of the finds. It is also concluded that the continuous monitoring of the microclimatic parameters of temperature and relative humidity during the usage of the facility is necessary so as to enable sustainable presentation and preservation of findings.
PB  - Basel: MDPI
T2  - Sustainability
T1  - Microclimatic Effects on the Preservation of Finds in the Visitor Centre of the Archaeological Site 1a Imperial Palace Sirmium
VL  - 13
IS  - 19
SP  - 11083
DO  - 10.3390/su131911083
ER  - 

@article{
author = "Ugrinović, Aleksandra and Sudimac, Budimir and Savković, Željko",
year = "2021",
abstract = "When an archaeological site is roofed over for the better display of the finds and more comfortable experience of the audience, the intervention undoubtedly changes the microclimatic conditions in the site. Although sudden changes in microclimatic factors are known to damage and/or destroy archaeological finds, their impact and its analysis are neglected in Serbia. There is no continuous monitoring and control of microclimatic conditions or their impact on architectural remains in archaeological sites. Accordingly, the values of microclimatic parameters of temperature and relative humidity and their daily oscillations are examined in this paper through microclimatic monitoring in the Visitor Center of the Archaeological Site 1a Imperial Palace Sirmium, which is a cultural asset of exceptional importance. Moreover, microbiological analyses determine the degree of contamination of architectural findings. The aim of this paper is to determine whether the microclimatic regime in the Visitor Center of the Archaeological Site 1a Imperial Palace Sirmium is in accordance with European standards and recommendations on optimal micro-climatic conditions for the presentation and preservation of cultural heritage collections. The findings showed that during the phase of microclimatic monitoring (February–April 2021), air humidity was almost constantly above the levels set by standards and recommendations for mu-seum collections (>60%). The highest levels of air humidity, amounting to 93%, were recorded in February, with daily oscillations of up to 30%; the lowest recorded temperature was 0.3 °C, with the maximum daily oscillations of 6 °C. Microbiological analysis revealed great diversity in the deterioration level of the finds, which can be attributed to the time lapse between the last conservation and the present. The comparative analysis of the results of microclimatic monitoring and microbiological analysis identified high levels of relative air humidity as the dominant factor in the increased microbiological contamination of the finds. It is also concluded that the continuous monitoring of the microclimatic parameters of temperature and relative humidity during the usage of the facility is necessary so as to enable sustainable presentation and preservation of findings.",
publisher = "Basel: MDPI",
journal = "Sustainability",
title = "Microclimatic Effects on the Preservation of Finds in the Visitor Centre of the Archaeological Site 1a Imperial Palace Sirmium",
volume = "13",
number = "19",
pages = "11083",
doi = "10.3390/su131911083"
}

Ugrinović, A., Sudimac, B.,& Savković, Ž.. (2021). Microclimatic Effects on the Preservation of Finds in the Visitor Centre of the Archaeological Site 1a Imperial Palace Sirmium. in Sustainability
Basel: MDPI., 13(19), 11083.
https://doi.org/10.3390/su131911083

Ugrinović A, Sudimac B, Savković Ž. Microclimatic Effects on the Preservation of Finds in the Visitor Centre of the Archaeological Site 1a Imperial Palace Sirmium. in Sustainability. 2021;13(19):11083.
doi:10.3390/su131911083 .

Ugrinović, Aleksandra, Sudimac, Budimir, Savković, Željko, "Microclimatic Effects on the Preservation of Finds in the Visitor Centre of the Archaeological Site 1a Imperial Palace Sirmium" in Sustainability, 13, no. 19 (2021):11083,
https://doi.org/10.3390/su131911083 . .

TY  - CONF
AU  - Судимац, Будимир
AU  - Гајић, Дарија
PY  - 2021
UR  - https://raf.arh.bg.ac.rs/handle/123456789/1756
AB  - Овај рад показује потенцијале зеленог зида у смањењу температура фасадних
површина зграда током лета. Смањење ових температура утиче на коефицијент топ-
лотне проводљивости фасадних елемената. Коришћење зидова вегетације у архи-
тектури отворило је нове могућности за смањење енергије потребне за хлађења у
летњем периоду када је експеримент обављен. Истраживање показује дизајн бетонског
префабрикованог, модуларног модела зеленог зида који садржи биљке и његов утицај
на температурну равнотежу у омотачу зграде. Приметно је да вегетативни зидови који
имају зелене површине покривени биљним омотачима играју важну улогу у
хармонизацији параметара микроклиме у односу на локално окружење. Методологија
представљена у раду заснована је на анализи климатских карактеристика београдског
климатског подручја, експерименталним мерењима тест модела и компаративном ана-
лизом са референтним зидом. Током експеримента, подаци о спољашњим климатским
параметрима и коефицијенту проласка топлоте кроз зид били су континуирано мерени.
Поред ових параметара, како би се испитао утицај биљних врста на температурне
параметре зида, мерена је температура зида у односу на различите биљне врсте. Ана-
лиза података омогућила је процену ефикасности топлотне изолације зида вегетације
у летњем периоду. Расподела вредности температуре, виђена на термограмима екс-
перименталног модела, показала је пад температуре у односу на референтни зид, што
доводи до смањења укупне енергије потребне за хлађење унутар зграде. Предложена
методологија омогућава квантитативну анализу ефеката вертикалног зеленила.
AB  - The goal of this research is to show potentials of vegetation walls in order to
decrease temperature of facade surfaces of buildings during summer. Decreasing these
temperatures directly affects coefficient of thermal conductivity of façade elements. The use
of vegetation walls in architecture has opened up new possibilities for reducing energy
needed for cooling during summer months when the experiment was performed. The research shows the design of a concrete prefabricated, modular model of a vegetation wall which
contains plants and its impact on the temperature balance in the building envelope. It is
noticeable that vegetative walls covered by plants play an important role in the harmonization
of the parameters of the microclimate in relation to the local environment. Methodology
presented in this paper was based on analysis of climate characteristics of Belgrade climate
zone, experimental measurements of the test model and comparative analysis with the
reference wall. During the experiment, the data about external climate parameters and the
coefficient of heat transfer through the wall were continuously measured. Also, in order to
examine the effect of plant species on the temperature parameters of the green wall,
temperature of the wall with different plant species was measured. Data analysis enabled the
assessment of the efficiency of thermal insulation of the vegetation wall in the summer
period. The distribution of temperature values seen on thermograms of the experimental
model showed a fall in temperature in regard to the reference wall, which leads to a decrease
in the total energy required for cooling inside the building. Methodology presented in this
paper allows quantitative analysis of the effects of vertical greenery.
PB  - Београд : Савез инжењера и техничара Србије
C3  - Зборник радова / Научна конференција Енергетска ефикасност и четврта индустријска револуција, Београд, 24. децембар
T1  - Термичко понашање вегетационог модуларног система у фасадном омотачу објекта
T1  - Тhermal behavior of the vegetation modular system in the facade cover of the building
SP  - 60
EP  - 68
UR  - https://hdl.handle.net/21.15107/rcub_raf_1756
ER  - 

@conference{
author = "Судимац, Будимир and Гајић, Дарија",
year = "2021",
abstract = "Овај рад показује потенцијале зеленог зида у смањењу температура фасадних
површина зграда током лета. Смањење ових температура утиче на коефицијент топ-
лотне проводљивости фасадних елемената. Коришћење зидова вегетације у архи-
тектури отворило је нове могућности за смањење енергије потребне за хлађења у
летњем периоду када је експеримент обављен. Истраживање показује дизајн бетонског
префабрикованог, модуларног модела зеленог зида који садржи биљке и његов утицај
на температурну равнотежу у омотачу зграде. Приметно је да вегетативни зидови који
имају зелене површине покривени биљним омотачима играју важну улогу у
хармонизацији параметара микроклиме у односу на локално окружење. Методологија
представљена у раду заснована је на анализи климатских карактеристика београдског
климатског подручја, експерименталним мерењима тест модела и компаративном ана-
лизом са референтним зидом. Током експеримента, подаци о спољашњим климатским
параметрима и коефицијенту проласка топлоте кроз зид били су континуирано мерени.
Поред ових параметара, како би се испитао утицај биљних врста на температурне
параметре зида, мерена је температура зида у односу на различите биљне врсте. Ана-
лиза података омогућила је процену ефикасности топлотне изолације зида вегетације
у летњем периоду. Расподела вредности температуре, виђена на термограмима екс-
перименталног модела, показала је пад температуре у односу на референтни зид, што
доводи до смањења укупне енергије потребне за хлађење унутар зграде. Предложена
методологија омогућава квантитативну анализу ефеката вертикалног зеленила., The goal of this research is to show potentials of vegetation walls in order to
decrease temperature of facade surfaces of buildings during summer. Decreasing these
temperatures directly affects coefficient of thermal conductivity of façade elements. The use
of vegetation walls in architecture has opened up new possibilities for reducing energy
needed for cooling during summer months when the experiment was performed. The research shows the design of a concrete prefabricated, modular model of a vegetation wall which
contains plants and its impact on the temperature balance in the building envelope. It is
noticeable that vegetative walls covered by plants play an important role in the harmonization
of the parameters of the microclimate in relation to the local environment. Methodology
presented in this paper was based on analysis of climate characteristics of Belgrade climate
zone, experimental measurements of the test model and comparative analysis with the
reference wall. During the experiment, the data about external climate parameters and the
coefficient of heat transfer through the wall were continuously measured. Also, in order to
examine the effect of plant species on the temperature parameters of the green wall,
temperature of the wall with different plant species was measured. Data analysis enabled the
assessment of the efficiency of thermal insulation of the vegetation wall in the summer
period. The distribution of temperature values seen on thermograms of the experimental
model showed a fall in temperature in regard to the reference wall, which leads to a decrease
in the total energy required for cooling inside the building. Methodology presented in this
paper allows quantitative analysis of the effects of vertical greenery.",
publisher = "Београд : Савез инжењера и техничара Србије",
journal = "Зборник радова / Научна конференција Енергетска ефикасност и четврта индустријска револуција, Београд, 24. децембар",
title = "Термичко понашање вегетационог модуларног система у фасадном омотачу објекта, Тhermal behavior of the vegetation modular system in the facade cover of the building",
pages = "60-68",
url = "https://hdl.handle.net/21.15107/rcub_raf_1756"
}

Судимац, Б.,& Гајић, Д.. (2021). Термичко понашање вегетационог модуларног система у фасадном омотачу објекта. in Зборник радова / Научна конференција Енергетска ефикасност и четврта индустријска револуција, Београд, 24. децембар
Београд : Савез инжењера и техничара Србије., 60-68.
https://hdl.handle.net/21.15107/rcub_raf_1756

Судимац Б, Гајић Д. Термичко понашање вегетационог модуларног система у фасадном омотачу објекта. in Зборник радова / Научна конференција Енергетска ефикасност и четврта индустријска револуција, Београд, 24. децембар. 2021;:60-68.
https://hdl.handle.net/21.15107/rcub_raf_1756 .

Судимац, Будимир, Гајић, Дарија, "Термичко понашање вегетационог модуларног система у фасадном омотачу објекта" in Зборник радова / Научна конференција Енергетска ефикасност и четврта индустријска револуција, Београд, 24. децембар (2021):60-68,
https://hdl.handle.net/21.15107/rcub_raf_1756 .

TY  - CONF
AU  - Sudimac, Budimir
AU  - Ugrinović, Aleksandra
AU  - Obradović, Radojko
PY  - 2020
UR  - https://raf.arh.bg.ac.rs/handle/123456789/1774
AB  - The use of green walls (also commonly referred to as living walls or vertical gardens) is not a new concept in building envelopes. Integrating vegetation in architectural structures may be a sustainable approach to the construction of façades of the new and existing structures. Green walls belong to the highly innovative and the fastest developing concepts of green building technology. This fact is supported by the examples of structures originally built with green walls which greatly add to the total visual appeal of buildings and are an important factor in the improvement of their thermal characteris- tics. Green walls have their own aesthetic values which are in direct correlation with human interaction aimed at creating visual diversity within urban spaces. Artistic perception of green walls of the recent era has radically changed, along with the new technological possibilities, their further development and application in the designing effort to formulate shape and materialization as a spatial structure with the already known aspects of traditional modelling. Green walls appear in space as elements car- rying artistic application and sculptural creation in spatial architectural form of structures. Greening and preserving urban spaces have become important issues in considering conditions for designing architectural structures and redefining the relation between technology, energy and shaping, with the possibility of applying green walls in the architectural transformation process of the urban space. Green walls have raised new aesthetic issues, which are in direct correlation with technical solutions.
PB  - Belgrade : University of Belgrade, Faculty of Architecture
C3  - Keeping up with technologies to act responsively in urban environment [Elektronski izvor] : conference proceedings / 7th international Academic Conference on Places and Technologies
T1  - Sustainable urban development by means of green walls
SP  - 223
EP  - 231
DO  - 10.18485/arh_pt.2020.7
ER  - 

@conference{
author = "Sudimac, Budimir and Ugrinović, Aleksandra and Obradović, Radojko",
year = "2020",
abstract = "The use of green walls (also commonly referred to as living walls or vertical gardens) is not a new concept in building envelopes. Integrating vegetation in architectural structures may be a sustainable approach to the construction of façades of the new and existing structures. Green walls belong to the highly innovative and the fastest developing concepts of green building technology. This fact is supported by the examples of structures originally built with green walls which greatly add to the total visual appeal of buildings and are an important factor in the improvement of their thermal characteris- tics. Green walls have their own aesthetic values which are in direct correlation with human interaction aimed at creating visual diversity within urban spaces. Artistic perception of green walls of the recent era has radically changed, along with the new technological possibilities, their further development and application in the designing effort to formulate shape and materialization as a spatial structure with the already known aspects of traditional modelling. Green walls appear in space as elements car- rying artistic application and sculptural creation in spatial architectural form of structures. Greening and preserving urban spaces have become important issues in considering conditions for designing architectural structures and redefining the relation between technology, energy and shaping, with the possibility of applying green walls in the architectural transformation process of the urban space. Green walls have raised new aesthetic issues, which are in direct correlation with technical solutions.",
publisher = "Belgrade : University of Belgrade, Faculty of Architecture",
journal = "Keeping up with technologies to act responsively in urban environment [Elektronski izvor] : conference proceedings / 7th international Academic Conference on Places and Technologies",
title = "Sustainable urban development by means of green walls",
pages = "223-231",
doi = "10.18485/arh_pt.2020.7"
}

Sudimac, B., Ugrinović, A.,& Obradović, R.. (2020). Sustainable urban development by means of green walls. in Keeping up with technologies to act responsively in urban environment [Elektronski izvor] : conference proceedings / 7th international Academic Conference on Places and Technologies
Belgrade : University of Belgrade, Faculty of Architecture., 223-231.
https://doi.org/10.18485/arh_pt.2020.7

Sudimac B, Ugrinović A, Obradović R. Sustainable urban development by means of green walls. in Keeping up with technologies to act responsively in urban environment [Elektronski izvor] : conference proceedings / 7th international Academic Conference on Places and Technologies. 2020;:223-231.
doi:10.18485/arh_pt.2020.7 .

Sudimac, Budimir, Ugrinović, Aleksandra, Obradović, Radojko, "Sustainable urban development by means of green walls" in Keeping up with technologies to act responsively in urban environment [Elektronski izvor] : conference proceedings / 7th international Academic Conference on Places and Technologies (2020):223-231,
https://doi.org/10.18485/arh_pt.2020.7 . .

TY  - JOUR
AU  - Sudimac, Budimir
AU  - Ugrinović, Aleksandra
AU  - Mišo, Jurčević
PY  - 2020
UR  - https://raf.arh.bg.ac.rs/handle/123456789/483
AB  - In light of climate changes, technological development and the use of renewable energy
sources are considered very important nowadays, both in newly designed structures and reconstructed
historic buildings, resulting in the reduction in the commercial energy consumption and CO2
environmental emissions. This paper explores the possibilities of improving the energy efficiency of
sacred heritage buildings by utilizing photovoltaic systems. As an exceptionally significant cultural
good, the Cathedral of St. Michael the Archangel in Belgrade shall serve as a case study, with the aim
of examining the methods of mounting photovoltaic (PV) panels, taking into account the fact that the
authenticity and the aesthetic value of this cultural monument must remain intact. A comparative
analysis of the two options for installing PV panels on the southwestern roof of the church was
performed using simulations in PVgis and PVsist V6.84 software, with the aim of establishing the
most efficient option in terms of power generation. The simulation results show that photovoltaic
panels can produce 151,650 kWh (Option 1) and 150,894 kWh (Option 2) per year, while the required
amount of energy is 42,726 kWh. The electricity produced exceeds the electricity requirements for the
decorative lighting of the Cathedral Church, so it can be used for other purposes in the sacred complex.
PB  - Basel: MDPI
T2  - Sustainability (Switzerland), 2020, 12(4), 1408
T1  - The Application of Photovoltaic Systems in Sacred Buildings for the Purpose of Electric Power Production: The Case Study of the Cathedral of St. Michael the Archangel in Belgrade
VL  - 12
IS  - 4
SP  - 1408
DO  - 10.3390/su12041408
ER  - 

@article{
author = "Sudimac, Budimir and Ugrinović, Aleksandra and Mišo, Jurčević",
year = "2020",
abstract = "In light of climate changes, technological development and the use of renewable energy
sources are considered very important nowadays, both in newly designed structures and reconstructed
historic buildings, resulting in the reduction in the commercial energy consumption and CO2
environmental emissions. This paper explores the possibilities of improving the energy efficiency of
sacred heritage buildings by utilizing photovoltaic systems. As an exceptionally significant cultural
good, the Cathedral of St. Michael the Archangel in Belgrade shall serve as a case study, with the aim
of examining the methods of mounting photovoltaic (PV) panels, taking into account the fact that the
authenticity and the aesthetic value of this cultural monument must remain intact. A comparative
analysis of the two options for installing PV panels on the southwestern roof of the church was
performed using simulations in PVgis and PVsist V6.84 software, with the aim of establishing the
most efficient option in terms of power generation. The simulation results show that photovoltaic
panels can produce 151,650 kWh (Option 1) and 150,894 kWh (Option 2) per year, while the required
amount of energy is 42,726 kWh. The electricity produced exceeds the electricity requirements for the
decorative lighting of the Cathedral Church, so it can be used for other purposes in the sacred complex.",
publisher = "Basel: MDPI",
journal = "Sustainability (Switzerland), 2020, 12(4), 1408",
title = "The Application of Photovoltaic Systems in Sacred Buildings for the Purpose of Electric Power Production: The Case Study of the Cathedral of St. Michael the Archangel in Belgrade",
volume = "12",
number = "4",
pages = "1408",
doi = "10.3390/su12041408"
}

Sudimac, B., Ugrinović, A.,& Mišo, J.. (2020). The Application of Photovoltaic Systems in Sacred Buildings for the Purpose of Electric Power Production: The Case Study of the Cathedral of St. Michael the Archangel in Belgrade. in Sustainability (Switzerland), 2020, 12(4), 1408
Basel: MDPI., 12(4), 1408.
https://doi.org/10.3390/su12041408

Sudimac B, Ugrinović A, Mišo J. The Application of Photovoltaic Systems in Sacred Buildings for the Purpose of Electric Power Production: The Case Study of the Cathedral of St. Michael the Archangel in Belgrade. in Sustainability (Switzerland), 2020, 12(4), 1408. 2020;12(4):1408.
doi:10.3390/su12041408 .

Sudimac, Budimir, Ugrinović, Aleksandra, Mišo, Jurčević, "The Application of Photovoltaic Systems in Sacred Buildings for the Purpose of Electric Power Production: The Case Study of the Cathedral of St. Michael the Archangel in Belgrade" in Sustainability (Switzerland), 2020, 12(4), 1408, 12, no. 4 (2020):1408,
https://doi.org/10.3390/su12041408 . .

TY  - JOUR
AU  - Krstić – Furundžić, Aleksandra
AU  - Scognamiglio, Alessandra
AU  - Devetakovic, Mirjana
AU  - Frontini, Francesco
AU  - Sudimac, Budimir
PY  - 2020
UR  - https://raf.arh.bg.ac.rs/handle/123456789/1138
AB  - Purpose – The purpose of this paper is to present a critical review of the key trends in the integration of
photovoltaic (PV) facilities into the built environment in cities. This is regarded as part of a series of measures
towards wider use of renewable energy sources.
Design/methodology/approach – The problem has been approached from the point that cities are
consumers of large amounts of energy. They require uninterrupted energy supply but with dynamic power
profile. Mainly consumption of energy generated from fossil fuels is present nowadays with significant
pollution of the environment as a consequence. The sustainable energy transition in cities means increasing
the supply of energy from renewable sources.
Findings – The paper points to the integration of PV renewable systems in the built environment,
opportunities and constraints, design conditions and tools. The consideration of the constraints which creates
urban environment is carried out to understand the complexity of selecting locations in the cities. The paper
gives an overview of the possibilities of PV systems integration in the built environment and discusses
physical limitations in the urban environment and simulation tools as well as challenges and research and
development issues.
Research limitations/implications – The paper offers a critical review of the PV applications which
have been illustrated with examples from developed countries. However, examples from developing markets
have not been considered. Future work would address this limitation and enable the discussion from a
comparative perspective.
Social implications – The study gives a comprehensive overview of PV integrations in contemporary
cities, stimulating architects’ practitioners to acquire the PV technology and aesthetics, and to apply it in
future developments.
Originality/value – Observing the use of PV applications from the perspective of architects and designers
the discussion and examples covered in this paper offers an original review, which provides the base future indepth studies on PV applications in various contexts.
PB  - Emerald Publishing Limited
T2  - Open House International
T1  - Trends in the integration of photovoltaic facilities into the built environment
VL  - 45
IS  - 1/2
SP  - 195
EP  - 207
DO  - 10.1108/OHI-04-2020-0015
ER  - 

@article{
author = "Krstić – Furundžić, Aleksandra and Scognamiglio, Alessandra and Devetakovic, Mirjana and Frontini, Francesco and Sudimac, Budimir",
year = "2020",
abstract = "Purpose – The purpose of this paper is to present a critical review of the key trends in the integration of
photovoltaic (PV) facilities into the built environment in cities. This is regarded as part of a series of measures
towards wider use of renewable energy sources.
Design/methodology/approach – The problem has been approached from the point that cities are
consumers of large amounts of energy. They require uninterrupted energy supply but with dynamic power
profile. Mainly consumption of energy generated from fossil fuels is present nowadays with significant
pollution of the environment as a consequence. The sustainable energy transition in cities means increasing
the supply of energy from renewable sources.
Findings – The paper points to the integration of PV renewable systems in the built environment,
opportunities and constraints, design conditions and tools. The consideration of the constraints which creates
urban environment is carried out to understand the complexity of selecting locations in the cities. The paper
gives an overview of the possibilities of PV systems integration in the built environment and discusses
physical limitations in the urban environment and simulation tools as well as challenges and research and
development issues.
Research limitations/implications – The paper offers a critical review of the PV applications which
have been illustrated with examples from developed countries. However, examples from developing markets
have not been considered. Future work would address this limitation and enable the discussion from a
comparative perspective.
Social implications – The study gives a comprehensive overview of PV integrations in contemporary
cities, stimulating architects’ practitioners to acquire the PV technology and aesthetics, and to apply it in
future developments.
Originality/value – Observing the use of PV applications from the perspective of architects and designers
the discussion and examples covered in this paper offers an original review, which provides the base future indepth studies on PV applications in various contexts.",
publisher = "Emerald Publishing Limited",
journal = "Open House International",
title = "Trends in the integration of photovoltaic facilities into the built environment",
volume = "45",
number = "1/2",
pages = "195-207",
doi = "10.1108/OHI-04-2020-0015"
}

Krstić – Furundžić, A., Scognamiglio, A., Devetakovic, M., Frontini, F.,& Sudimac, B.. (2020). Trends in the integration of photovoltaic facilities into the built environment. in Open House International
Emerald Publishing Limited., 45(1/2), 195-207.
https://doi.org/10.1108/OHI-04-2020-0015

Krstić – Furundžić A, Scognamiglio A, Devetakovic M, Frontini F, Sudimac B. Trends in the integration of photovoltaic facilities into the built environment. in Open House International. 2020;45(1/2):195-207.
doi:10.1108/OHI-04-2020-0015 .

Krstić – Furundžić, Aleksandra, Scognamiglio, Alessandra, Devetakovic, Mirjana, Frontini, Francesco, Sudimac, Budimir, "Trends in the integration of photovoltaic facilities into the built environment" in Open House International, 45, no. 1/2 (2020):195-207,
https://doi.org/10.1108/OHI-04-2020-0015 . .

TY  - CONF
AU  - Obradović, Radojko
AU  - Sudimac, Budimir
AU  - Petrović, Milica
PY  - 2019
UR  - https://raf.arh.bg.ac.rs/handle/123456789/1754
AB  - Savremeno društvo se suočava sa novim i drugačijim izazovima. Obnovljivih resursa je sve
manje. Životna sredina je zagađena. Potrebe savremenog čoveka su sve veće i njihovo
zadovoljenje zahteva sve više energije i materijalnih resursa. Proizvodnja materijala koji se
koriste za izgradnju objekata zahteva prirodne resurse i veliku količinu energije. U
eksploataciji objekata postoji potreba za grejanjem i hlađenjem, za šta je takođe
neophodna energija. Moguće rešenje je upotreba prirodnih materijala koji su tradicionalno
bili primenjivani vekovima, a koji su potisnuti razvojem industrije i širokom primenom
betona i čelika. Slama, kao materijal, postoji više od 2000 godina i predstavlja nusproizvod
pri uzgajanju pšenice, raži, pirinča. Proizvodnja slame ne zahteva primarnu energiju.
Karakteristike balirane slame su takve da nije potrebna dodatna termička i zvučna izolacija.
Primenom balirane slame moguće je materijalom, koji je gotovo besplatan, postići značajne
uštede energije i pomoći u očuvanju životne sredine.
AB  - Modern society is faced with new challenges. Renewable resources are disappearing. The
environment is polluted. The production of materials for construction requires natural
resources and a great amount of energy. In the exploitation of buildings a lot of energy is
used for heating and cooling. Possible solution lies in the application of natural materials
that were traditionally used for centuries and were suppressed by the industry’s
development and the extended use of concrete and steel. Straw, as a material, exists for
more than 2000 years. It is a by-product in the growing of wheat, rye, and rice. The
production of straw doesn’t need primary energy. The characteristics of straw-bales are
such that no additional thermal and sound insulation is needed. With the application of
straw-bales, a material that is almost free, it is possible to achieve significant savings in
energy and to help preserve the environment.
PB  - Univerzitet u Beogradu - Arhitektonski fakultet
C3  - Zbornik radova [Elektronski izvor] / Sedmi nacionalni naučno-stručni skup sa međunarodnim učešćem Instalacije & arhitektura 2019, Beograd, 05. decembar
T1  - Уштеда енергије применом балиране сламе
T1  - Using straw-bales for energy saving
UR  - https://hdl.handle.net/21.15107/rcub_raf_1754
ER  - 

@conference{
author = "Obradović, Radojko and Sudimac, Budimir and Petrović, Milica",
year = "2019",
abstract = "Savremeno društvo se suočava sa novim i drugačijim izazovima. Obnovljivih resursa je sve
manje. Životna sredina je zagađena. Potrebe savremenog čoveka su sve veće i njihovo
zadovoljenje zahteva sve više energije i materijalnih resursa. Proizvodnja materijala koji se
koriste za izgradnju objekata zahteva prirodne resurse i veliku količinu energije. U
eksploataciji objekata postoji potreba za grejanjem i hlađenjem, za šta je takođe
neophodna energija. Moguće rešenje je upotreba prirodnih materijala koji su tradicionalno
bili primenjivani vekovima, a koji su potisnuti razvojem industrije i širokom primenom
betona i čelika. Slama, kao materijal, postoji više od 2000 godina i predstavlja nusproizvod
pri uzgajanju pšenice, raži, pirinča. Proizvodnja slame ne zahteva primarnu energiju.
Karakteristike balirane slame su takve da nije potrebna dodatna termička i zvučna izolacija.
Primenom balirane slame moguće je materijalom, koji je gotovo besplatan, postići značajne
uštede energije i pomoći u očuvanju životne sredine., Modern society is faced with new challenges. Renewable resources are disappearing. The
environment is polluted. The production of materials for construction requires natural
resources and a great amount of energy. In the exploitation of buildings a lot of energy is
used for heating and cooling. Possible solution lies in the application of natural materials
that were traditionally used for centuries and were suppressed by the industry’s
development and the extended use of concrete and steel. Straw, as a material, exists for
more than 2000 years. It is a by-product in the growing of wheat, rye, and rice. The
production of straw doesn’t need primary energy. The characteristics of straw-bales are
such that no additional thermal and sound insulation is needed. With the application of
straw-bales, a material that is almost free, it is possible to achieve significant savings in
energy and to help preserve the environment.",
publisher = "Univerzitet u Beogradu - Arhitektonski fakultet",
journal = "Zbornik radova [Elektronski izvor] / Sedmi nacionalni naučno-stručni skup sa međunarodnim učešćem Instalacije & arhitektura 2019, Beograd, 05. decembar",
title = "Уштеда енергије применом балиране сламе, Using straw-bales for energy saving",
url = "https://hdl.handle.net/21.15107/rcub_raf_1754"
}

Obradović, R., Sudimac, B.,& Petrović, M.. (2019). Уштеда енергије применом балиране сламе. in Zbornik radova [Elektronski izvor] / Sedmi nacionalni naučno-stručni skup sa međunarodnim učešćem Instalacije & arhitektura 2019, Beograd, 05. decembar
Univerzitet u Beogradu - Arhitektonski fakultet..
https://hdl.handle.net/21.15107/rcub_raf_1754

Obradović R, Sudimac B, Petrović M. Уштеда енергије применом балиране сламе. in Zbornik radova [Elektronski izvor] / Sedmi nacionalni naučno-stručni skup sa međunarodnim učešćem Instalacije & arhitektura 2019, Beograd, 05. decembar. 2019;.
https://hdl.handle.net/21.15107/rcub_raf_1754 .

Obradović, Radojko, Sudimac, Budimir, Petrović, Milica, "Уштеда енергије применом балиране сламе" in Zbornik radova [Elektronski izvor] / Sedmi nacionalni naučno-stručni skup sa međunarodnim učešćem Instalacije & arhitektura 2019, Beograd, 05. decembar (2019),
https://hdl.handle.net/21.15107/rcub_raf_1754 .

TY  - JOUR
AU  - Devetaković, Mirjana
AU  - Đorđević, Đorđe
AU  - Đukanović, Gordana
AU  - Krstić-Furundžić, Aleksandra
AU  - Sudimac, Budimir
AU  - Scognamiglio, Alessandra
PY  - 2019
UR  - https://raf.arh.bg.ac.rs/handle/123456789/327
AB  - The paper systematizes geometric aspects relevant for understanding design of solar systems. The systematization is based on a review of literature dedicated to various kinds of engineers, including architects, involved in a multidisciplinary process of conceptualizing, designing and realization of PV systems. The understanding of the presented geometric aspects, known as solar geometry, is important not only in terms of finding optimal orientation and most effective tilt of solar modules, but also in terms of adequate geometric modelling of façade elements of a complex shape (as specific photovoltaic modules) in order to be optimally exposed to the sun all over the year. After providing detailed explanations of the main elements of solar geometry using the tools of spherical trigonometry, the paper discusses the integration of the presented geometric concepts in the BIM environments, and refers the example of Autodesk Revit software through its sun study tool. Analysed are functionalities of all interactive components of the 3D solar path representation. A need for more explicit determination of an incidence angle of the sun rays on a tilted surface is stressed. In the conclusion highlighted is the essential knowledge on solar geometry that needs to be acquired during architectural education, so that architects participating in the BIM working environments could be prepared for efficient conceptualization of integrated solar systems.
AB  - U radu su sistematizovani najvažniji geometrijski aspekti koji su relevantni za celovito razumevanje projektovanja fotonaponskih sistema. Ova sistematizacija se bazira na pregledu literature namenjene različitim inženjerima, uključujući arhitekte koji su uključeni u multidisciplinarne procese konceptualizacije, projektovanja i realizacije fotonaponskih sistema. Razumevanje prikazanih geometrijskih aspekata, u literaturi objedinjenih pod nazivom solarna geometrija, značajno je ne samo zbog pronalaženja optimalne orijentacije i najefektnijeg nagiba fotonaponskih modula, nego i zbog adekvatnog oblikovanja geometrijski kompleksnih fasadnih elemenata, koji bi trebalo da budu optimalno osunčani tokom cele godine. Nakon detaljnog objašnjenja osnovnih elemenata solarne geometrije korišćenjem sferne trigonometrije, u radu je prodiskutovana integracija prikazanih geometrijskih koncepata u BIM okruženja, ilustrovana primerom modula za analize osunčanja u okviru softvera Revit, firme Autodesk. Analizirana je funkcionalnost svih interaktivnih komponenata 3D prikaza sunčeve putanje. Naglašena je potreba za eksplicitnijim određivanjem upadnog ugla sunčevih zraka na nagnutu površ fotonaponskog modula. U zaključnom delu izdvojeno je ono znanje o solarnoj geometriji koje bi bilo neophodno usvojiti u procesu arhitektonskog obrazovanja, kako bi projektanti koji rade u BIM okruženju bili pripremljeni za efikasnu konceptualizaciju integrisanih fotonaponskih sistema.
PB  - Univerzitet u Beogradu - Mašinski fakultet, Beograd
T2  - FME Transactions
T1  - Design of solar systems for buildings and use of BIM tools: Overview of relevant geometric aspects
T1  - Projektovanje solarnih sistema za arhitektonske objekte i BIM alati - pregled relevantnih geometrijskih aspekata
VL  - 47
IS  - 2
SP  - 387
EP  - 397
DO  - 10.5937/fmet1902387D
ER  - 

@article{
author = "Devetaković, Mirjana and Đorđević, Đorđe and Đukanović, Gordana and Krstić-Furundžić, Aleksandra and Sudimac, Budimir and Scognamiglio, Alessandra",
year = "2019",
abstract = "The paper systematizes geometric aspects relevant for understanding design of solar systems. The systematization is based on a review of literature dedicated to various kinds of engineers, including architects, involved in a multidisciplinary process of conceptualizing, designing and realization of PV systems. The understanding of the presented geometric aspects, known as solar geometry, is important not only in terms of finding optimal orientation and most effective tilt of solar modules, but also in terms of adequate geometric modelling of façade elements of a complex shape (as specific photovoltaic modules) in order to be optimally exposed to the sun all over the year. After providing detailed explanations of the main elements of solar geometry using the tools of spherical trigonometry, the paper discusses the integration of the presented geometric concepts in the BIM environments, and refers the example of Autodesk Revit software through its sun study tool. Analysed are functionalities of all interactive components of the 3D solar path representation. A need for more explicit determination of an incidence angle of the sun rays on a tilted surface is stressed. In the conclusion highlighted is the essential knowledge on solar geometry that needs to be acquired during architectural education, so that architects participating in the BIM working environments could be prepared for efficient conceptualization of integrated solar systems., U radu su sistematizovani najvažniji geometrijski aspekti koji su relevantni za celovito razumevanje projektovanja fotonaponskih sistema. Ova sistematizacija se bazira na pregledu literature namenjene različitim inženjerima, uključujući arhitekte koji su uključeni u multidisciplinarne procese konceptualizacije, projektovanja i realizacije fotonaponskih sistema. Razumevanje prikazanih geometrijskih aspekata, u literaturi objedinjenih pod nazivom solarna geometrija, značajno je ne samo zbog pronalaženja optimalne orijentacije i najefektnijeg nagiba fotonaponskih modula, nego i zbog adekvatnog oblikovanja geometrijski kompleksnih fasadnih elemenata, koji bi trebalo da budu optimalno osunčani tokom cele godine. Nakon detaljnog objašnjenja osnovnih elemenata solarne geometrije korišćenjem sferne trigonometrije, u radu je prodiskutovana integracija prikazanih geometrijskih koncepata u BIM okruženja, ilustrovana primerom modula za analize osunčanja u okviru softvera Revit, firme Autodesk. Analizirana je funkcionalnost svih interaktivnih komponenata 3D prikaza sunčeve putanje. Naglašena je potreba za eksplicitnijim određivanjem upadnog ugla sunčevih zraka na nagnutu površ fotonaponskog modula. U zaključnom delu izdvojeno je ono znanje o solarnoj geometriji koje bi bilo neophodno usvojiti u procesu arhitektonskog obrazovanja, kako bi projektanti koji rade u BIM okruženju bili pripremljeni za efikasnu konceptualizaciju integrisanih fotonaponskih sistema.",
publisher = "Univerzitet u Beogradu - Mašinski fakultet, Beograd",
journal = "FME Transactions",
title = "Design of solar systems for buildings and use of BIM tools: Overview of relevant geometric aspects, Projektovanje solarnih sistema za arhitektonske objekte i BIM alati - pregled relevantnih geometrijskih aspekata",
volume = "47",
number = "2",
pages = "387-397",
doi = "10.5937/fmet1902387D"
}

Devetaković, M., Đorđević, Đ., Đukanović, G., Krstić-Furundžić, A., Sudimac, B.,& Scognamiglio, A.. (2019). Design of solar systems for buildings and use of BIM tools: Overview of relevant geometric aspects. in FME Transactions
Univerzitet u Beogradu - Mašinski fakultet, Beograd., 47(2), 387-397.
https://doi.org/10.5937/fmet1902387D

Devetaković M, Đorđević Đ, Đukanović G, Krstić-Furundžić A, Sudimac B, Scognamiglio A. Design of solar systems for buildings and use of BIM tools: Overview of relevant geometric aspects. in FME Transactions. 2019;47(2):387-397.
doi:10.5937/fmet1902387D .

Devetaković, Mirjana, Đorđević, Đorđe, Đukanović, Gordana, Krstić-Furundžić, Aleksandra, Sudimac, Budimir, Scognamiglio, Alessandra, "Design of solar systems for buildings and use of BIM tools: Overview of relevant geometric aspects" in FME Transactions, 47, no. 2 (2019):387-397,
https://doi.org/10.5937/fmet1902387D . .

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  - Devetaković, Mirjana S.
AU  - Đorđević, Đorđe
AU  - Đukanović, Gordana
AU  - Krstić-Furundžić, Aleksandra
AU  - Sudimac, Budimir S.
AU  - Scognamiglio, Alessandra
PY  - 2019
UR  - https://raf.arh.bg.ac.rs/handle/123456789/567
AB  - The paper systematizes geometric aspects relevant for understanding
design of solar systems. The systematization is based on a review of
literature dedicated to various kinds of engineers, including architects,
involved in a multidisciplinary process of conceptualizing, designing and
realization of PV systems. The understanding of the presented geometric
aspects, known as solar geometry, is important not only in terms of finding
optimal orientation and most effective tilt of solar modules, but also in
terms of adequate geometric modelling of façade elements of a complex
shape (as specific photovoltaic modules) in order to be optimally exposed
to the sun all over the year. After providing detailed explanations of the
main elements of solar geometry using the tools of spherical trigonometry,
the paper discusses the integration of the presented geometric concepts in
the BIM environments, and refers the example of Autodesk Revit software
through its sun study tool. Analysed are functionalities of all interactive
components of the 3D solar path representation. A need for more explicit
determination of an incidence angle of the sun rays on a tilted surface is
stressed. In the conclusion highlighted is the essential knowledge on solar
geometry that needs to be acquired during architectural education, so that
architects participating in the BIM working environments could be
prepared for efficient conceptualization of integrated solar systems.
PB  - University of Belgrade - Faculty of Mechanical Engineering
T2  - FME Transactions
T1  - Design of Solar Systems for Buildings and Use of BIM Tools : overview of Relevant Geometric Aspects
VL  - 47
IS  - 2
SP  - 387
EP  - 397
DO  - 10.5937/fmet1902387D
ER  - 

@article{
author = "Devetaković, Mirjana S. and Đorđević, Đorđe and Đukanović, Gordana and Krstić-Furundžić, Aleksandra and Sudimac, Budimir S. and Scognamiglio, Alessandra",
year = "2019",
abstract = "The paper systematizes geometric aspects relevant for understanding
design of solar systems. The systematization is based on a review of
literature dedicated to various kinds of engineers, including architects,
involved in a multidisciplinary process of conceptualizing, designing and
realization of PV systems. The understanding of the presented geometric
aspects, known as solar geometry, is important not only in terms of finding
optimal orientation and most effective tilt of solar modules, but also in
terms of adequate geometric modelling of façade elements of a complex
shape (as specific photovoltaic modules) in order to be optimally exposed
to the sun all over the year. After providing detailed explanations of the
main elements of solar geometry using the tools of spherical trigonometry,
the paper discusses the integration of the presented geometric concepts in
the BIM environments, and refers the example of Autodesk Revit software
through its sun study tool. Analysed are functionalities of all interactive
components of the 3D solar path representation. A need for more explicit
determination of an incidence angle of the sun rays on a tilted surface is
stressed. In the conclusion highlighted is the essential knowledge on solar
geometry that needs to be acquired during architectural education, so that
architects participating in the BIM working environments could be
prepared for efficient conceptualization of integrated solar systems.",
publisher = "University of Belgrade - Faculty of Mechanical Engineering",
journal = "FME Transactions",
title = "Design of Solar Systems for Buildings and Use of BIM Tools : overview of Relevant Geometric Aspects",
volume = "47",
number = "2",
pages = "387-397",
doi = "10.5937/fmet1902387D"
}

Devetaković, M. S., Đorđević, Đ., Đukanović, G., Krstić-Furundžić, A., Sudimac, B. S.,& Scognamiglio, A.. (2019). Design of Solar Systems for Buildings and Use of BIM Tools : overview of Relevant Geometric Aspects. in FME Transactions
University of Belgrade - Faculty of Mechanical Engineering., 47(2), 387-397.
https://doi.org/10.5937/fmet1902387D

Devetaković MS, Đorđević Đ, Đukanović G, Krstić-Furundžić A, Sudimac BS, Scognamiglio A. Design of Solar Systems for Buildings and Use of BIM Tools : overview of Relevant Geometric Aspects. in FME Transactions. 2019;47(2):387-397.
doi:10.5937/fmet1902387D .

Devetaković, Mirjana S., Đorđević, Đorđe, Đukanović, Gordana, Krstić-Furundžić, Aleksandra, Sudimac, Budimir S., Scognamiglio, Alessandra, "Design of Solar Systems for Buildings and Use of BIM Tools : overview of Relevant Geometric Aspects" in FME Transactions, 47, no. 2 (2019):387-397,
https://doi.org/10.5937/fmet1902387D . .

TY  - JOUR
AU  - Sudimac, Budimir
AU  - Anđelković, Aleksandar .S.
AU  - Dubljević, Sanja S.
PY  - 2018
UR  - https://raf.arh.bg.ac.rs/handle/123456789/302
AB  - The goal of this research is to analyse the possibility of using vegetation walls in order to improve the thermal characteristics of office buildings in Belgrade's climatic conditions. The study analyses the possibility of integrating vegetation modules into the fa ades of office buildings. The paper shows the potential of vegetation technologies in the realisation offacade coverings of architectural buildings with a goal to reduce heat gained during summer time. The use of vegetation walls in architecture has opened up new planning possibilities and created planning conditions for reducing the energy necessary for cooling office buildings. Considering that interaction between the outer environment and inner solving the dependency between comfort, outer look and building's energy balance. This paper is presenting the possibility of using sustainable technologies for solving the problem of overheating in Belgrade's climatic conditions. The research considers the possibilities of using vertically greening systems in planning facade coverings, with an analysis of their thermal characteristics for climatic conditions in Belgrade.
PB  - Univerzitet u Beogradu - Institut za nuklearne nauke Vinča, Beograd
T2  - Thermal Science
T1  - Thermal extras of vegetation walls in Belgrade climatic conditions
VL  - 22
SP  - 945
EP  - 955
DO  - 10.2298/TSCI170919027S
ER  - 

@article{
author = "Sudimac, Budimir and Anđelković, Aleksandar .S. and Dubljević, Sanja S.",
year = "2018",
abstract = "The goal of this research is to analyse the possibility of using vegetation walls in order to improve the thermal characteristics of office buildings in Belgrade's climatic conditions. The study analyses the possibility of integrating vegetation modules into the fa ades of office buildings. The paper shows the potential of vegetation technologies in the realisation offacade coverings of architectural buildings with a goal to reduce heat gained during summer time. The use of vegetation walls in architecture has opened up new planning possibilities and created planning conditions for reducing the energy necessary for cooling office buildings. Considering that interaction between the outer environment and inner solving the dependency between comfort, outer look and building's energy balance. This paper is presenting the possibility of using sustainable technologies for solving the problem of overheating in Belgrade's climatic conditions. The research considers the possibilities of using vertically greening systems in planning facade coverings, with an analysis of their thermal characteristics for climatic conditions in Belgrade.",
publisher = "Univerzitet u Beogradu - Institut za nuklearne nauke Vinča, Beograd",
journal = "Thermal Science",
title = "Thermal extras of vegetation walls in Belgrade climatic conditions",
volume = "22",
pages = "945-955",
doi = "10.2298/TSCI170919027S"
}

Sudimac, B., Anđelković, A. .S.,& Dubljević, S. S.. (2018). Thermal extras of vegetation walls in Belgrade climatic conditions. in Thermal Science
Univerzitet u Beogradu - Institut za nuklearne nauke Vinča, Beograd., 22, 945-955.
https://doi.org/10.2298/TSCI170919027S

Sudimac B, Anđelković A., Dubljević SS. Thermal extras of vegetation walls in Belgrade climatic conditions. in Thermal Science. 2018;22:945-955.
doi:10.2298/TSCI170919027S .

Sudimac, Budimir, Anđelković, Aleksandar .S., Dubljević, Sanja S., "Thermal extras of vegetation walls in Belgrade climatic conditions" in Thermal Science, 22 (2018):945-955,
https://doi.org/10.2298/TSCI170919027S . .

TY  - JOUR
AU  - Sudimac, Budimir
AU  - Ćuković-Ignjatović, Nataša
AU  - Ignjatović, Dušan
PY  - 2018
UR  - https://raf.arh.bg.ac.rs/handle/123456789/317
AB  - The aim of this research is to examine and analyse the thermal characteristics of the facade modular element. The possibility of optimization of the facade coating with vegetation is examined experimentally in this research, with the aim of improving the thermal characteristics of the facade wall. This element is made of perlite concrete in which the greenery is implanted. The scope of the research is experimental and theoretical testing the possibility for optimizing the facade coating with vegetation. The energy specificities of modular vegetation elements and their contribution to the improvement of the thermal properties of the facade wall are analysed in the experimental part of the research, the elements of vegetation are treated as the elements which influence the decrease in surface temperature of the facade coating. The modular elements in this research are placed on a reference wall surface facing the South. The methodology presented in this paper is based on the study of climate characteristics in city of Belgrade, experimental measurements of test models, and comparative analysis with the reference wall. During the experiment, the data on the external climate parameters and the coefficient of heat transfer through the wall were continuously measured. Conducted measurements and analyses show the vegetation influence on the reduction in surface temperature of the outer wall and the heat passage through the facade coating. The experiment used a modular model and several plant species. It is noticeable that vegetative walls with green areas covered by plant shells play an important role in the harmonization of the parameters of the microclimate in relation to the local environment.
PB  - Univerzitet u Beogradu - Institut za nuklearne nauke Vinča, Beograd
T2  - Thermal Science
T1  - Experimental study on reducing temperature using modular system for vegetation walls made of perlite concrete
VL  - 22
SP  - 1059
EP  - 1069
DO  - 10.2298/TSCI170612227S
ER  - 

@article{
author = "Sudimac, Budimir and Ćuković-Ignjatović, Nataša and Ignjatović, Dušan",
year = "2018",
abstract = "The aim of this research is to examine and analyse the thermal characteristics of the facade modular element. The possibility of optimization of the facade coating with vegetation is examined experimentally in this research, with the aim of improving the thermal characteristics of the facade wall. This element is made of perlite concrete in which the greenery is implanted. The scope of the research is experimental and theoretical testing the possibility for optimizing the facade coating with vegetation. The energy specificities of modular vegetation elements and their contribution to the improvement of the thermal properties of the facade wall are analysed in the experimental part of the research, the elements of vegetation are treated as the elements which influence the decrease in surface temperature of the facade coating. The modular elements in this research are placed on a reference wall surface facing the South. The methodology presented in this paper is based on the study of climate characteristics in city of Belgrade, experimental measurements of test models, and comparative analysis with the reference wall. During the experiment, the data on the external climate parameters and the coefficient of heat transfer through the wall were continuously measured. Conducted measurements and analyses show the vegetation influence on the reduction in surface temperature of the outer wall and the heat passage through the facade coating. The experiment used a modular model and several plant species. It is noticeable that vegetative walls with green areas covered by plant shells play an important role in the harmonization of the parameters of the microclimate in relation to the local environment.",
publisher = "Univerzitet u Beogradu - Institut za nuklearne nauke Vinča, Beograd",
journal = "Thermal Science",
title = "Experimental study on reducing temperature using modular system for vegetation walls made of perlite concrete",
volume = "22",
pages = "1059-1069",
doi = "10.2298/TSCI170612227S"
}

Sudimac, B., Ćuković-Ignjatović, N.,& Ignjatović, D.. (2018). Experimental study on reducing temperature using modular system for vegetation walls made of perlite concrete. in Thermal Science
Univerzitet u Beogradu - Institut za nuklearne nauke Vinča, Beograd., 22, 1059-1069.
https://doi.org/10.2298/TSCI170612227S

Sudimac B, Ćuković-Ignjatović N, Ignjatović D. Experimental study on reducing temperature using modular system for vegetation walls made of perlite concrete. in Thermal Science. 2018;22:1059-1069.
doi:10.2298/TSCI170612227S .

Sudimac, Budimir, Ćuković-Ignjatović, Nataša, Ignjatović, Dušan, "Experimental study on reducing temperature using modular system for vegetation walls made of perlite concrete" in Thermal Science, 22 (2018):1059-1069,
https://doi.org/10.2298/TSCI170612227S . .

TY  - JOUR
AU  - Ćuković-Ignjatović, Nataša
AU  - Ignjatović, Dušan
AU  - Sudimac, Budimir
PY  - 2018
UR  - https://raf.arh.bg.ac.rs/handle/123456789/325
AB  - Developments conceived following the principles of Athens Charter were typical form of urban answer to the post-war housing shortage and during the decades of intense construction activity that followed. In city of Belgrade, multifamily housing in open city blocks built between 1961 and 1990 account for about 40% of current housing stock. The current ownership and operation of these housing blocks derive from their socialist legacy: home-owners rights relate only to the buildings, excluding any open spaces, even the ones immediately along the building's perimeter. On the other hand, heating is supplied by district heating system. Management of open spaces as well as provision of district heating are subordinates to local municipality (the city of Belgrade). Energy efficiency related refurbishment options for these developments that would engage both the home-owners and the public companies may be the key for bringing ever-needed modernization, prolonged lifespan and a sustainable way of using this portion of housing stock. By applying simple architectural measures, energy demand for heating of these buildings can be reduced by 30-78%, which opens a pathway for effective use of renewable energy sources. Unlike solar energy, which can be managed at building level, geothermal energy can be exploited only at the district level due to the ownership rights. The presented research explores the effectiveness of using geothermal energy at a district level coupled with systematic approach to building refurbishment, taking the advantage of the repetitive use of the same building design and the formal and practical relations with local authorities.
PB  - Univerzitet u Beogradu - Institut za nuklearne nauke Vinča, Beograd
T2  - Thermal Science
T1  - Potentials for improving energy performance of multifamily housing blocks connected to the district heating system
VL  - 22
SP  - 1183
EP  - 1193
DO  - 10.2298/TSCI170612228C
ER  - 

@article{
author = "Ćuković-Ignjatović, Nataša and Ignjatović, Dušan and Sudimac, Budimir",
year = "2018",
abstract = "Developments conceived following the principles of Athens Charter were typical form of urban answer to the post-war housing shortage and during the decades of intense construction activity that followed. In city of Belgrade, multifamily housing in open city blocks built between 1961 and 1990 account for about 40% of current housing stock. The current ownership and operation of these housing blocks derive from their socialist legacy: home-owners rights relate only to the buildings, excluding any open spaces, even the ones immediately along the building's perimeter. On the other hand, heating is supplied by district heating system. Management of open spaces as well as provision of district heating are subordinates to local municipality (the city of Belgrade). Energy efficiency related refurbishment options for these developments that would engage both the home-owners and the public companies may be the key for bringing ever-needed modernization, prolonged lifespan and a sustainable way of using this portion of housing stock. By applying simple architectural measures, energy demand for heating of these buildings can be reduced by 30-78%, which opens a pathway for effective use of renewable energy sources. Unlike solar energy, which can be managed at building level, geothermal energy can be exploited only at the district level due to the ownership rights. The presented research explores the effectiveness of using geothermal energy at a district level coupled with systematic approach to building refurbishment, taking the advantage of the repetitive use of the same building design and the formal and practical relations with local authorities.",
publisher = "Univerzitet u Beogradu - Institut za nuklearne nauke Vinča, Beograd",
journal = "Thermal Science",
title = "Potentials for improving energy performance of multifamily housing blocks connected to the district heating system",
volume = "22",
pages = "1183-1193",
doi = "10.2298/TSCI170612228C"
}

Ćuković-Ignjatović, N., Ignjatović, D.,& Sudimac, B.. (2018). Potentials for improving energy performance of multifamily housing blocks connected to the district heating system. in Thermal Science
Univerzitet u Beogradu - Institut za nuklearne nauke Vinča, Beograd., 22, 1183-1193.
https://doi.org/10.2298/TSCI170612228C

Ćuković-Ignjatović N, Ignjatović D, Sudimac B. Potentials for improving energy performance of multifamily housing blocks connected to the district heating system. in Thermal Science. 2018;22:1183-1193.
doi:10.2298/TSCI170612228C .

Ćuković-Ignjatović, Nataša, Ignjatović, Dušan, Sudimac, Budimir, "Potentials for improving energy performance of multifamily housing blocks connected to the district heating system" in Thermal Science, 22 (2018):1183-1193,
https://doi.org/10.2298/TSCI170612228C . .

TY  - CONF
AU  - Krstić-Furundžić, Aleksandra
AU  - Scognamiglio, Alessandra
AU  - Devetaković, Mirjana
AU  - Frontini, Francesco
AU  - Sudimac, Budimir
PY  - 2018
UR  - https://raf.arh.bg.ac.rs/handle/123456789/644
AB  - Cities are consumers of large amounts of energy. They require uninterrupted energy supply but
with dynamic power profile.Mainly consumption of energy generated from fossil fuels is present
todaywith consequence significant pollution of the environment.The sustainable energy transition
in cities means increasing the supply of energy from renewable sources.Thepaperpoints to
the integration of PV renewable systems in the built environment, opportunities and constraints,
design conditions and tools. The consideration of the constraints which creates urban environment
is carried out in order to understand the complexity of selecting locations in the cities.
In thissense, the paper gives an overview of the possibilitiesof PV systemsintegration in the
built environment, and discusses physical limitations in the urban environment and simulation
toolsas well as challenges and research and development issues.
PB  - Belgrade : University, Faculty of Architecture
C3  - Conference Proceedings [Elektronski izvor] / 5th international Academic Conference on Places and Technologies, [Belgrade]
T1  - Trends in integration of photovoltaic facilities into the built environment
SP  - 375
EP  - 388
UR  - https://hdl.handle.net/21.15107/rcub_raf_644
ER  - 

@conference{
author = "Krstić-Furundžić, Aleksandra and Scognamiglio, Alessandra and Devetaković, Mirjana and Frontini, Francesco and Sudimac, Budimir",
year = "2018",
abstract = "Cities are consumers of large amounts of energy. They require uninterrupted energy supply but
with dynamic power profile.Mainly consumption of energy generated from fossil fuels is present
todaywith consequence significant pollution of the environment.The sustainable energy transition
in cities means increasing the supply of energy from renewable sources.Thepaperpoints to
the integration of PV renewable systems in the built environment, opportunities and constraints,
design conditions and tools. The consideration of the constraints which creates urban environment
is carried out in order to understand the complexity of selecting locations in the cities.
In thissense, the paper gives an overview of the possibilitiesof PV systemsintegration in the
built environment, and discusses physical limitations in the urban environment and simulation
toolsas well as challenges and research and development issues.",
publisher = "Belgrade : University, Faculty of Architecture",
journal = "Conference Proceedings [Elektronski izvor] / 5th international Academic Conference on Places and Technologies, [Belgrade]",
title = "Trends in integration of photovoltaic facilities into the built environment",
pages = "375-388",
url = "https://hdl.handle.net/21.15107/rcub_raf_644"
}

Krstić-Furundžić, A., Scognamiglio, A., Devetaković, M., Frontini, F.,& Sudimac, B.. (2018). Trends in integration of photovoltaic facilities into the built environment. in Conference Proceedings [Elektronski izvor] / 5th international Academic Conference on Places and Technologies, [Belgrade]
Belgrade : University, Faculty of Architecture., 375-388.
https://hdl.handle.net/21.15107/rcub_raf_644

Krstić-Furundžić A, Scognamiglio A, Devetaković M, Frontini F, Sudimac B. Trends in integration of photovoltaic facilities into the built environment. in Conference Proceedings [Elektronski izvor] / 5th international Academic Conference on Places and Technologies, [Belgrade]. 2018;:375-388.
https://hdl.handle.net/21.15107/rcub_raf_644 .

Krstić-Furundžić, Aleksandra, Scognamiglio, Alessandra, Devetaković, Mirjana, Frontini, Francesco, Sudimac, Budimir, "Trends in integration of photovoltaic facilities into the built environment" in Conference Proceedings [Elektronski izvor] / 5th international Academic Conference on Places and Technologies, [Belgrade] (2018):375-388,
https://hdl.handle.net/21.15107/rcub_raf_644 .

TY  - CONF
AU  - Sudimac, Budimir
AU  - Dubljević, Anđela
PY  - 2017
UR  - https://raf.arh.bg.ac.rs/handle/123456789/584
AB  - Application of vegetation walls is not a new concept in the realization of facade layer. The integration of vegetation in
architectural objects can be a viable approach for the implementation of the facade of new and existing facilities. The
vegetation walls are one of the more innovative and developed concepts of green building technology. This fact is
based on the original scale buildings with vegetation walls that contribute in improving the overall design performance
of buildings and become a significant factor in the process of improving the thermal characteristics of the buildings.
This paper explored the potential of new technologies in the realization of vegetation walls in architectural buildings,
their thermal characteristics and design potential of the building envelope in the climatic conditions of Belgrade.
Research has shown that the application of the proposed design principles vegetation walls may be successful project
solutions applied to the building envelope in the climatic conditions of Belgrade. The thesis provides an overview of
technical innovations that can be applied in the design process to minimize thermal effects on objects. The study
confirmed the possibility of improving the thermal facility by using vegetation wall as the building envelope.
PB  - Sarajevo : Arhitektonski fakultet
C3  - Keeping up with technologies in the context of urban and rural synergy [Elektronski izvor] : book of conference proceedings / [4th International academic conference] Places and technologies 2017, Sarajevo, June, 08th - 09th, 2017
T1  - Evaluation of wall thermal performance for vegetation wall
SP  - 417
EP  - 426
UR  - https://hdl.handle.net/21.15107/rcub_raf_584
ER  - 

@conference{
author = "Sudimac, Budimir and Dubljević, Anđela",
year = "2017",
abstract = "Application of vegetation walls is not a new concept in the realization of facade layer. The integration of vegetation in
architectural objects can be a viable approach for the implementation of the facade of new and existing facilities. The
vegetation walls are one of the more innovative and developed concepts of green building technology. This fact is
based on the original scale buildings with vegetation walls that contribute in improving the overall design performance
of buildings and become a significant factor in the process of improving the thermal characteristics of the buildings.
This paper explored the potential of new technologies in the realization of vegetation walls in architectural buildings,
their thermal characteristics and design potential of the building envelope in the climatic conditions of Belgrade.
Research has shown that the application of the proposed design principles vegetation walls may be successful project
solutions applied to the building envelope in the climatic conditions of Belgrade. The thesis provides an overview of
technical innovations that can be applied in the design process to minimize thermal effects on objects. The study
confirmed the possibility of improving the thermal facility by using vegetation wall as the building envelope.",
publisher = "Sarajevo : Arhitektonski fakultet",
journal = "Keeping up with technologies in the context of urban and rural synergy [Elektronski izvor] : book of conference proceedings / [4th International academic conference] Places and technologies 2017, Sarajevo, June, 08th - 09th, 2017",
title = "Evaluation of wall thermal performance for vegetation wall",
pages = "417-426",
url = "https://hdl.handle.net/21.15107/rcub_raf_584"
}

Sudimac, B.,& Dubljević, A.. (2017). Evaluation of wall thermal performance for vegetation wall. in Keeping up with technologies in the context of urban and rural synergy [Elektronski izvor] : book of conference proceedings / [4th International academic conference] Places and technologies 2017, Sarajevo, June, 08th - 09th, 2017
Sarajevo : Arhitektonski fakultet., 417-426.
https://hdl.handle.net/21.15107/rcub_raf_584

Sudimac B, Dubljević A. Evaluation of wall thermal performance for vegetation wall. in Keeping up with technologies in the context of urban and rural synergy [Elektronski izvor] : book of conference proceedings / [4th International academic conference] Places and technologies 2017, Sarajevo, June, 08th - 09th, 2017. 2017;:417-426.
https://hdl.handle.net/21.15107/rcub_raf_584 .

Sudimac, Budimir, Dubljević, Anđela, "Evaluation of wall thermal performance for vegetation wall" in Keeping up with technologies in the context of urban and rural synergy [Elektronski izvor] : book of conference proceedings / [4th International academic conference] Places and technologies 2017, Sarajevo, June, 08th - 09th, 2017 (2017):417-426,
https://hdl.handle.net/21.15107/rcub_raf_584 .

TY  - THES
AU  - Sudimac, Budimir
PY  - 2016
UR  - http://eteze.bg.ac.rs/application/showtheses?thesesId=4347
UR  - https://fedorabg.bg.ac.rs/fedora/get/o:14161/bdef:Content/download
UR  - http://vbs.rs/scripts/cobiss?command=DISPLAY&base=70036&RID=513089169
UR  - http://nardus.mpn.gov.rs/123456789/7276
UR  - https://raf.arh.bg.ac.rs/handle/123456789/381
AB  - Application of vegetation walls is not a new concept in the realization of facade layer. The integration of vegetation in architectural objects can be a viable approach for the implementation of the facade of new and existing facilities. The vegetation walls are one of the more innovative and developed concepts of green building technology. This fact is based on the original scale buildings with vegetation walls that contribute in improving the overall design performance of buildings and become a significant factor in the process of improving the thermal characteristics of the buildings. This paper explored the potential of new technologies in the realization of vegetation walls in architectural buildings, their thermal characteristics and design potential of the building envelope in the climatic conditions of Belgrade. Research has shown that the application of the proposed design principles vegetation walls may be successful project solutions applied to the building envelope in the climatic conditions of Belgrade. The thesis provides an overview of technical innovations that can be applied in the design process to minimize thermal effects on objects. The study confirmed the possibility of improving the thermal facility by using vegetation wall as the building envelope.
AB  - Примена вегетационих зидова није нови концепт у реализацији фасадних омотача. Интеграција вегетације у архитектонске објекте може бити одржив приступ за реализацију фасада нових и постојећих објеката. Вегетациони зидови су један од иновативнијих и развијаних концепата зелене технологије градње. Ова чињеница се заснива оригиналним изведеним објектима са вегетционим зидовима који доприносе побољшању укупних обликовних карактеристика зграда и постају значајан фактор у процесу побољшања термичких карактеристика објеката. Овим радом су истражени потенцијали нових технологија у реализацији вегетционих зидова у архитектонским објектима, њихове термичке карактеристике и обликовни потенцијали на омотачу зграда у климатским условима Београда. Истраживање је показало да се применом предложених принципа пројектовања вегетационих зидова може доћи до успешних пројектанских решења примене на омотачима зграда у климатским условима Београда. У тези је дат преглед техничких унапређења који се могу применити у процесу пројектовања како би се смањили термички утицаји на објекте. Радом је потврђена могућност термичког унапређења објекта применом вегетационог зида као омотача објекта.
PB  - Универзитет у Београду, Архитектонски факултет
T2  - Универзитет у Београду
T1  - Thermal extras and forming potential vegetacion walls in Belgrade climatic conditions
T1  - Термичке карактеристике и обликовни потенцијали вегетационих зидова у београдским климатским условима
UR  - https://hdl.handle.net/21.15107/rcub_nardus_7276
ER  - 

@phdthesis{
author = "Sudimac, Budimir",
year = "2016",
abstract = "Application of vegetation walls is not a new concept in the realization of facade layer. The integration of vegetation in architectural objects can be a viable approach for the implementation of the facade of new and existing facilities. The vegetation walls are one of the more innovative and developed concepts of green building technology. This fact is based on the original scale buildings with vegetation walls that contribute in improving the overall design performance of buildings and become a significant factor in the process of improving the thermal characteristics of the buildings. This paper explored the potential of new technologies in the realization of vegetation walls in architectural buildings, their thermal characteristics and design potential of the building envelope in the climatic conditions of Belgrade. Research has shown that the application of the proposed design principles vegetation walls may be successful project solutions applied to the building envelope in the climatic conditions of Belgrade. The thesis provides an overview of technical innovations that can be applied in the design process to minimize thermal effects on objects. The study confirmed the possibility of improving the thermal facility by using vegetation wall as the building envelope., Примена вегетационих зидова није нови концепт у реализацији фасадних омотача. Интеграција вегетације у архитектонске објекте може бити одржив приступ за реализацију фасада нових и постојећих објеката. Вегетациони зидови су један од иновативнијих и развијаних концепата зелене технологије градње. Ова чињеница се заснива оригиналним изведеним објектима са вегетционим зидовима који доприносе побољшању укупних обликовних карактеристика зграда и постају значајан фактор у процесу побољшања термичких карактеристика објеката. Овим радом су истражени потенцијали нових технологија у реализацији вегетционих зидова у архитектонским објектима, њихове термичке карактеристике и обликовни потенцијали на омотачу зграда у климатским условима Београда. Истраживање је показало да се применом предложених принципа пројектовања вегетационих зидова може доћи до успешних пројектанских решења примене на омотачима зграда у климатским условима Београда. У тези је дат преглед техничких унапређења који се могу применити у процесу пројектовања како би се смањили термички утицаји на објекте. Радом је потврђена могућност термичког унапређења објекта применом вегетационог зида као омотача објекта.",
publisher = "Универзитет у Београду, Архитектонски факултет",
journal = "Универзитет у Београду",
title = "Thermal extras and forming potential vegetacion walls in Belgrade climatic conditions, Термичке карактеристике и обликовни потенцијали вегетационих зидова у београдским климатским условима",
url = "https://hdl.handle.net/21.15107/rcub_nardus_7276"
}

Sudimac, B.. (2016). Thermal extras and forming potential vegetacion walls in Belgrade climatic conditions. in Универзитет у Београду
Универзитет у Београду, Архитектонски факултет..
https://hdl.handle.net/21.15107/rcub_nardus_7276

Sudimac B. Thermal extras and forming potential vegetacion walls in Belgrade climatic conditions. in Универзитет у Београду. 2016;.
https://hdl.handle.net/21.15107/rcub_nardus_7276 .

Sudimac, Budimir, "Thermal extras and forming potential vegetacion walls in Belgrade climatic conditions" in Универзитет у Београду (2016),
https://hdl.handle.net/21.15107/rcub_nardus_7276 .

TY  - JOUR
AU  - Sudimac, Budimir
AU  - Dubljević, Anđela
PY  - 2016
UR  - https://raf.arh.bg.ac.rs/handle/123456789/436
AB  - The aim of this study is a consideration of the possibilities for
improving of energy efficiency in protected cultural and historical
environments of Belgrade, by using renewable energy sources. The
study analyzes the possibilities of integration of photovoltaic (PV)
modules within the protected area of the Belgrade Fortress, which is
a protected historical whole and cultural good of great importance.
The work shows the possibilities of application of PV models, in
order to provide the necessary electricity for the needs of the public
lighting of Belgrade Fortress and the reduction of consumption
of conventional energy sources. This paper aims to show the
possibilities of the use of sustainable technologies in solving the
problems of public lighting and environmental protection in the
protected cultural-historical entities. The application of PV structures
solves the problem of lighting in protected areas and provides energy
from renewable sources. Systems for the use of renewable energy
sources are becoming important architectural elements which have
specific designed influences on the layout and form of the facility
within which are implemented. The study included the specifics
of the design and programmatic interventions in protected urban
ambiences, through an analysis of shaped influences of photovoltaic
panels to the protected objects and their contribution in the use of
renewable energy sources.
PB  - Belgrade : University of Belgrade - Faculty of Architecture
T2  - SAJ : Serbian architectural journal
T1  - The use of renewable energy sources in urban protected cultural–historical ambiences
VL  - 8
IS  - 1
SP  - 145
EP  - 166
UR  - https://hdl.handle.net/21.15107/rcub_raf_436
ER  - 

@article{
author = "Sudimac, Budimir and Dubljević, Anđela",
year = "2016",
abstract = "The aim of this study is a consideration of the possibilities for
improving of energy efficiency in protected cultural and historical
environments of Belgrade, by using renewable energy sources. The
study analyzes the possibilities of integration of photovoltaic (PV)
modules within the protected area of the Belgrade Fortress, which is
a protected historical whole and cultural good of great importance.
The work shows the possibilities of application of PV models, in
order to provide the necessary electricity for the needs of the public
lighting of Belgrade Fortress and the reduction of consumption
of conventional energy sources. This paper aims to show the
possibilities of the use of sustainable technologies in solving the
problems of public lighting and environmental protection in the
protected cultural-historical entities. The application of PV structures
solves the problem of lighting in protected areas and provides energy
from renewable sources. Systems for the use of renewable energy
sources are becoming important architectural elements which have
specific designed influences on the layout and form of the facility
within which are implemented. The study included the specifics
of the design and programmatic interventions in protected urban
ambiences, through an analysis of shaped influences of photovoltaic
panels to the protected objects and their contribution in the use of
renewable energy sources.",
publisher = "Belgrade : University of Belgrade - Faculty of Architecture",
journal = "SAJ : Serbian architectural journal",
title = "The use of renewable energy sources in urban protected cultural–historical ambiences",
volume = "8",
number = "1",
pages = "145-166",
url = "https://hdl.handle.net/21.15107/rcub_raf_436"
}

Sudimac, B.,& Dubljević, A.. (2016). The use of renewable energy sources in urban protected cultural–historical ambiences. in SAJ : Serbian architectural journal
Belgrade : University of Belgrade - Faculty of Architecture., 8(1), 145-166.
https://hdl.handle.net/21.15107/rcub_raf_436

Sudimac B, Dubljević A. The use of renewable energy sources in urban protected cultural–historical ambiences. in SAJ : Serbian architectural journal. 2016;8(1):145-166.
https://hdl.handle.net/21.15107/rcub_raf_436 .

Sudimac, Budimir, Dubljević, Anđela, "The use of renewable energy sources in urban protected cultural–historical ambiences" in SAJ : Serbian architectural journal, 8, no. 1 (2016):145-166,
https://hdl.handle.net/21.15107/rcub_raf_436 .

TY  - CONF
AU  - Sudimac, Budimir
AU  - Dubljević, Andjela
PY  - 2015
UR  - https://raf.arh.bg.ac.rs/handle/123456789/666
AB  - The aim of this research is to consider possibilities for improving the street lighting
on the E75 highway, which passes through Serbia, using renewable sources of
energy. In this paper, we analyzed the possibilities for installing sound barriers
along the highway and integrating photovoltaic (PV) modules, which would
generate electrical energy to power the lighting on the section of the highway
running through Belgrade. Sound barriers are necessary along the highway
running through populated areas, and they are identified as elements on which PV
modules for power generation can be installed. The illumination of the highway
powered by conventional sources of electricity is very expensive and has negative
environmental impact, which is the reason why this paper investigates the
connection between sound barriers and electricity generation from renewable
energy sources.The paper seeks to show the hybridity of using sustainable
technologies in solving environmental issues. This structure solves the problem of
noise in populated areas and provides the electricity from renewable source.
PB  - Ljubljana : Faculty of Architecture
C3  - Keeping up with technologies to make healthy places : book of conference proceedings / [2nd International Academic Conference] Places and Technologies 2015, Nova Gorica, Slovenia
T1  - Application of PV modules on noise barriers
SP  - 498
EP  - 504
UR  - https://hdl.handle.net/21.15107/rcub_raf_666
ER  - 

@conference{
author = "Sudimac, Budimir and Dubljević, Andjela",
year = "2015",
abstract = "The aim of this research is to consider possibilities for improving the street lighting
on the E75 highway, which passes through Serbia, using renewable sources of
energy. In this paper, we analyzed the possibilities for installing sound barriers
along the highway and integrating photovoltaic (PV) modules, which would
generate electrical energy to power the lighting on the section of the highway
running through Belgrade. Sound barriers are necessary along the highway
running through populated areas, and they are identified as elements on which PV
modules for power generation can be installed. The illumination of the highway
powered by conventional sources of electricity is very expensive and has negative
environmental impact, which is the reason why this paper investigates the
connection between sound barriers and electricity generation from renewable
energy sources.The paper seeks to show the hybridity of using sustainable
technologies in solving environmental issues. This structure solves the problem of
noise in populated areas and provides the electricity from renewable source.",
publisher = "Ljubljana : Faculty of Architecture",
journal = "Keeping up with technologies to make healthy places : book of conference proceedings / [2nd International Academic Conference] Places and Technologies 2015, Nova Gorica, Slovenia",
title = "Application of PV modules on noise barriers",
pages = "498-504",
url = "https://hdl.handle.net/21.15107/rcub_raf_666"
}

Sudimac, B.,& Dubljević, A.. (2015). Application of PV modules on noise barriers. in Keeping up with technologies to make healthy places : book of conference proceedings / [2nd International Academic Conference] Places and Technologies 2015, Nova Gorica, Slovenia
Ljubljana : Faculty of Architecture., 498-504.
https://hdl.handle.net/21.15107/rcub_raf_666

Sudimac B, Dubljević A. Application of PV modules on noise barriers. in Keeping up with technologies to make healthy places : book of conference proceedings / [2nd International Academic Conference] Places and Technologies 2015, Nova Gorica, Slovenia. 2015;:498-504.
https://hdl.handle.net/21.15107/rcub_raf_666 .

Sudimac, Budimir, Dubljević, Andjela, "Application of PV modules on noise barriers" in Keeping up with technologies to make healthy places : book of conference proceedings / [2nd International Academic Conference] Places and Technologies 2015, Nova Gorica, Slovenia (2015):498-504,
https://hdl.handle.net/21.15107/rcub_raf_666 .