TY  - CONF
AU  - Ilić, Snežana
AU  - Džolev, Igor
AU  - Laban, Mirjana
PY  - 2023
UR  - http://rims.institutims.rs/handle/123456789/706
AB  - The problems of steady-state and transient heat conduction for a given geometry can be
solved analytically and numerically. While the use of analytical solutions is limited,
numerical methods can be used to solve heat transfer problems in complex geometries
with more intricate boundary conditions, using computer simulations. Complex
geometries are discretized to form an efficient numerical mesh for solving the given
problem. This paper focuses on the calculation of one-dimensional, transient heat
transfer for a wall with a thickness of 4 cm. The wall temperatures are calculated for
each mesh node at a given moment in time. Two types of analyses were performed,
using FSM analysis (Finite Strip Method) and FEM analysis (Finite Element Method).
The former was conducted using Microsoft Excel, while the latter was calculatedusing
ANSYS software. A parametric study was performed in order to analyse the influence
of spatial and temporal step size on the accuracy of the solution. Finally, the optimal
solution was determined to obtain temperature results with the lowest relative error
within the wall nodes, while maintaining the efficiency of the computational model.
C3  - INTERNATIONAL SCIENTIFIC CONFERENCE PLANNING, DESIGN, CONSTRUCTION AND BUILDING RENEWAL, iNDiS 2023, Proceedings
T1  - Optimal numerical model of a non-stationary heat transfer through a wall
UR  - https://hdl.handle.net/21.15107/rcub_rims_706
ER  - 

@conference{
author = "Ilić, Snežana and Džolev, Igor and Laban, Mirjana",
year = "2023",
abstract = "The problems of steady-state and transient heat conduction for a given geometry can be
solved analytically and numerically. While the use of analytical solutions is limited,
numerical methods can be used to solve heat transfer problems in complex geometries
with more intricate boundary conditions, using computer simulations. Complex
geometries are discretized to form an efficient numerical mesh for solving the given
problem. This paper focuses on the calculation of one-dimensional, transient heat
transfer for a wall with a thickness of 4 cm. The wall temperatures are calculated for
each mesh node at a given moment in time. Two types of analyses were performed,
using FSM analysis (Finite Strip Method) and FEM analysis (Finite Element Method).
The former was conducted using Microsoft Excel, while the latter was calculatedusing
ANSYS software. A parametric study was performed in order to analyse the influence
of spatial and temporal step size on the accuracy of the solution. Finally, the optimal
solution was determined to obtain temperature results with the lowest relative error
within the wall nodes, while maintaining the efficiency of the computational model.",
journal = "INTERNATIONAL SCIENTIFIC CONFERENCE PLANNING, DESIGN, CONSTRUCTION AND BUILDING RENEWAL, iNDiS 2023, Proceedings",
title = "Optimal numerical model of a non-stationary heat transfer through a wall",
url = "https://hdl.handle.net/21.15107/rcub_rims_706"
}

Ilić, S., Džolev, I.,& Laban, M.. (2023). Optimal numerical model of a non-stationary heat transfer through a wall. in INTERNATIONAL SCIENTIFIC CONFERENCE PLANNING, DESIGN, CONSTRUCTION AND BUILDING RENEWAL, iNDiS 2023, Proceedings.
https://hdl.handle.net/21.15107/rcub_rims_706

Ilić S, Džolev I, Laban M. Optimal numerical model of a non-stationary heat transfer through a wall. in INTERNATIONAL SCIENTIFIC CONFERENCE PLANNING, DESIGN, CONSTRUCTION AND BUILDING RENEWAL, iNDiS 2023, Proceedings. 2023;.
https://hdl.handle.net/21.15107/rcub_rims_706 .

Ilić, Snežana, Džolev, Igor, Laban, Mirjana, "Optimal numerical model of a non-stationary heat transfer through a wall" in INTERNATIONAL SCIENTIFIC CONFERENCE PLANNING, DESIGN, CONSTRUCTION AND BUILDING RENEWAL, iNDiS 2023, Proceedings (2023),
https://hdl.handle.net/21.15107/rcub_rims_706 .

TY  - CONF
AU  - Ilić, Snežana
AU  - Laban, Mirjana
AU  - Džolev, Igor
PY  - 2023
UR  - http://rims.institutims.rs/handle/123456789/599
AB  - The fire reaction represents the behavior of materials during a fire event, i.e., how much the material contributes to the fire development. The importance of determining the fire reaction class stems from the need to provide sufficient time for the individuals inside a building to evacuate safely in the event of a fire. The fire reaction class is determined through a series of tests, depending on the material, with the most significant test in this group being the SBI (Single Burning Item) test. The paper describes the preparation method of test samples, the testing procedure itself, as well as the output data used for determination of the fire resistance class for tested material. According to the SRPS EN 13823 standard, a sample of a multilayered facade system with mineral wool was tested. The testing process itself, as well as the processed results, are stated in the conclusionof the study.
C3  - Engineering Conference, Bečići, Crna Gora, Proceedings
T1  - Rection to fire - SBI test
UR  - https://hdl.handle.net/21.15107/rcub_rims_599
ER  - 

@conference{
author = "Ilić, Snežana and Laban, Mirjana and Džolev, Igor",
year = "2023",
abstract = "The fire reaction represents the behavior of materials during a fire event, i.e., how much the material contributes to the fire development. The importance of determining the fire reaction class stems from the need to provide sufficient time for the individuals inside a building to evacuate safely in the event of a fire. The fire reaction class is determined through a series of tests, depending on the material, with the most significant test in this group being the SBI (Single Burning Item) test. The paper describes the preparation method of test samples, the testing procedure itself, as well as the output data used for determination of the fire resistance class for tested material. According to the SRPS EN 13823 standard, a sample of a multilayered facade system with mineral wool was tested. The testing process itself, as well as the processed results, are stated in the conclusionof the study.",
journal = "Engineering Conference, Bečići, Crna Gora, Proceedings",
title = "Rection to fire - SBI test",
url = "https://hdl.handle.net/21.15107/rcub_rims_599"
}

Ilić, S., Laban, M.,& Džolev, I.. (2023). Rection to fire - SBI test. in Engineering Conference, Bečići, Crna Gora, Proceedings.
https://hdl.handle.net/21.15107/rcub_rims_599

Ilić S, Laban M, Džolev I. Rection to fire - SBI test. in Engineering Conference, Bečići, Crna Gora, Proceedings. 2023;.
https://hdl.handle.net/21.15107/rcub_rims_599 .

Ilić, Snežana, Laban, Mirjana, Džolev, Igor, "Rection to fire - SBI test" in Engineering Conference, Bečići, Crna Gora, Proceedings (2023),
https://hdl.handle.net/21.15107/rcub_rims_599 .

TY  - CONF
AU  - Ilić, Snežana
AU  - Laban, Mirjana
AU  - Džolev, Igor
PY  - 2022
UR  - http://rims.institutims.rs/handle/123456789/603
AB  - Fire-resistant doors are widely used as part of passive fire protection systems, preventing the spread of fire and smoke beyond the fire compartment. Fire resistance is usually determined through standard fire tests in accredited laboratories, such as the Laboratory for thermal technique and fire protection in Institute IMS, Serbia. Current regulations in Serbia allow testing of fire doors according to two standards: Serbian national SRPS U.J1.160 [1] and European SRPS EN 1634-1 [2].
In the past five years, 236 samples of different fire doors were tested. Most of them were single-leaf, steel doors. Although almost one third (31%) of all samples (tested on 15, 20, 30, 45, 60, 90, 120, 180, 240 and 380 minutes) provided fire resistance of 120 minutes, which should be sufficient for the safe evacuation of people, as well as the protection of expensive equipment (hospitals, rooms with electrical devices, etc.).Samples usually fail the test when sustained flaming occurs on the unexposed side in the upper corner of the specimen (lock side), or when the temperature measured by thermocouples exceeds the limitation given in the standard, usually at the top corner (lock side).In this paper, both currently valid standard testing procedures are analysed and compared.
C3  - 8 th INTERNATIONAL SCIENTIFIC CONFERENCE SAFETY ENGINEERING CONFERENCE WITH INTERNATIONAL PARTICIPATION ON FIRE AND EXPLOSION PROTECTION Budva, Montenegro, BOOK OF PROCEEDINGS
T1  - Fire resistance testing of fire doors
UR  - https://hdl.handle.net/21.15107/rcub_rims_603
ER  - 

@conference{
author = "Ilić, Snežana and Laban, Mirjana and Džolev, Igor",
year = "2022",
abstract = "Fire-resistant doors are widely used as part of passive fire protection systems, preventing the spread of fire and smoke beyond the fire compartment. Fire resistance is usually determined through standard fire tests in accredited laboratories, such as the Laboratory for thermal technique and fire protection in Institute IMS, Serbia. Current regulations in Serbia allow testing of fire doors according to two standards: Serbian national SRPS U.J1.160 [1] and European SRPS EN 1634-1 [2].
In the past five years, 236 samples of different fire doors were tested. Most of them were single-leaf, steel doors. Although almost one third (31%) of all samples (tested on 15, 20, 30, 45, 60, 90, 120, 180, 240 and 380 minutes) provided fire resistance of 120 minutes, which should be sufficient for the safe evacuation of people, as well as the protection of expensive equipment (hospitals, rooms with electrical devices, etc.).Samples usually fail the test when sustained flaming occurs on the unexposed side in the upper corner of the specimen (lock side), or when the temperature measured by thermocouples exceeds the limitation given in the standard, usually at the top corner (lock side).In this paper, both currently valid standard testing procedures are analysed and compared.",
journal = "8 th INTERNATIONAL SCIENTIFIC CONFERENCE SAFETY ENGINEERING CONFERENCE WITH INTERNATIONAL PARTICIPATION ON FIRE AND EXPLOSION PROTECTION Budva, Montenegro, BOOK OF PROCEEDINGS",
title = "Fire resistance testing of fire doors",
url = "https://hdl.handle.net/21.15107/rcub_rims_603"
}

Ilić, S., Laban, M.,& Džolev, I.. (2022). Fire resistance testing of fire doors. in 8 th INTERNATIONAL SCIENTIFIC CONFERENCE SAFETY ENGINEERING CONFERENCE WITH INTERNATIONAL PARTICIPATION ON FIRE AND EXPLOSION PROTECTION Budva, Montenegro, BOOK OF PROCEEDINGS.
https://hdl.handle.net/21.15107/rcub_rims_603

Ilić S, Laban M, Džolev I. Fire resistance testing of fire doors. in 8 th INTERNATIONAL SCIENTIFIC CONFERENCE SAFETY ENGINEERING CONFERENCE WITH INTERNATIONAL PARTICIPATION ON FIRE AND EXPLOSION PROTECTION Budva, Montenegro, BOOK OF PROCEEDINGS. 2022;.
https://hdl.handle.net/21.15107/rcub_rims_603 .

Ilić, Snežana, Laban, Mirjana, Džolev, Igor, "Fire resistance testing of fire doors" in 8 th INTERNATIONAL SCIENTIFIC CONFERENCE SAFETY ENGINEERING CONFERENCE WITH INTERNATIONAL PARTICIPATION ON FIRE AND EXPLOSION PROTECTION Budva, Montenegro, BOOK OF PROCEEDINGS (2022),
https://hdl.handle.net/21.15107/rcub_rims_603 .

TY  - CONF
AU  - Ilić, Snežana
AU  - Mirković-Marjanović, Milica
AU  - Kijanović, Aleksandar
AU  - Laban, Mirjana
PY  - 2022
UR  - http://rims.institutims.rs/handle/123456789/441
AB  - To reduce occurrence of fires in buildings as efficiently as possible, it is necessary to take into account active and passive fire protection measures during construction of building. This paper will show more about passive fire protection measures related to the selection of adequate material to be used during construction, which contributes to the localization of fire and prevents it from spreading to other rooms and facilities.
All products, which are planned by project, must have adequate certificates not to contribute to the development of fire, as well as to meet the class of fire resistance. In the Republic of Serbia, only the Laboratory for Thermal Engineering and Fire Protection, within the IMS Institute, deals with this type of testing and issuing reports.
This paper will present test methods for obtaining a fire reaction class. After the tests, according to the standard SRPS EN 13501-1, a Classification Report is issued in which the final fire reaction class is given for the tested product whose validity lasts for 5 years.
C3  - Proceedings of the 17th Conference with International participation risk and safety engineering, Kopaonik
T1  - Testing of building materials - reaction to fire
EP  - 119
SP  - 111
UR  - https://hdl.handle.net/21.15107/rcub_rims_441
ER  - 

@conference{
author = "Ilić, Snežana and Mirković-Marjanović, Milica and Kijanović, Aleksandar and Laban, Mirjana",
year = "2022",
abstract = "To reduce occurrence of fires in buildings as efficiently as possible, it is necessary to take into account active and passive fire protection measures during construction of building. This paper will show more about passive fire protection measures related to the selection of adequate material to be used during construction, which contributes to the localization of fire and prevents it from spreading to other rooms and facilities.
All products, which are planned by project, must have adequate certificates not to contribute to the development of fire, as well as to meet the class of fire resistance. In the Republic of Serbia, only the Laboratory for Thermal Engineering and Fire Protection, within the IMS Institute, deals with this type of testing and issuing reports.
This paper will present test methods for obtaining a fire reaction class. After the tests, according to the standard SRPS EN 13501-1, a Classification Report is issued in which the final fire reaction class is given for the tested product whose validity lasts for 5 years.",
journal = "Proceedings of the 17th Conference with International participation risk and safety engineering, Kopaonik",
title = "Testing of building materials - reaction to fire",
pages = "119-111",
url = "https://hdl.handle.net/21.15107/rcub_rims_441"
}

Ilić, S., Mirković-Marjanović, M., Kijanović, A.,& Laban, M.. (2022). Testing of building materials - reaction to fire. in Proceedings of the 17th Conference with International participation risk and safety engineering, Kopaonik, 111-119.
https://hdl.handle.net/21.15107/rcub_rims_441

Ilić S, Mirković-Marjanović M, Kijanović A, Laban M. Testing of building materials - reaction to fire. in Proceedings of the 17th Conference with International participation risk and safety engineering, Kopaonik. 2022;:111-119.
https://hdl.handle.net/21.15107/rcub_rims_441 .

Ilić, Snežana, Mirković-Marjanović, Milica, Kijanović, Aleksandar, Laban, Mirjana, "Testing of building materials - reaction to fire" in Proceedings of the 17th Conference with International participation risk and safety engineering, Kopaonik (2022):111-119,
https://hdl.handle.net/21.15107/rcub_rims_441 .

TY  - CONF
AU  - Laban, Mirjana
AU  - Ilić, Snežana
AU  - Džolev, Igor
AU  - Draganić, Suzana
PY  - 2022
UR  - http://rims.institutims.rs/handle/123456789/439
AB  - Innovative construction systems, increasing use of combustible material in facades, less and less space between buildings, increased energy requirements; the transformation of facades in response to these changes requires the involvement of fire safety experts. nts at Grenfell Tower,
London and The Address in Dubai have demonstrated, use of combustible façade elements and lack of-quick time, primarily through the façade. We need to learn from these disasters. Other
incidents prove that the use of nonsuppression.
In the past years EU experts are working on development of common method for assessment of the fire performance of façade systems. The classification system should be transparent and should fit within the framework of existing national regulations. The common assessment method should be applicable to the wide range of façades systems available in the market including glazed façades, green façades and other emerging technologies.
There is a progress in developing legislation on façade fire safety in non-EU countries, due to
emerging fire safety problems and harmonization of regulation with EU. Fire safety of facades in
Serbia is defined through several rulebooks and standards, which significantly improved requirements.
This paper presents the comparative analysis of legislation on facade fire safety in Serbia and other European countries.
C3  - Proceedings of the 19th International Symposium MASE, Ohrid, 2022
T1  - European and national assessment procedure for the fire performance of facades
EP  - 582
SP  - 577
UR  - https://hdl.handle.net/21.15107/rcub_rims_439
ER  - 

@conference{
author = "Laban, Mirjana and Ilić, Snežana and Džolev, Igor and Draganić, Suzana",
year = "2022",
abstract = "Innovative construction systems, increasing use of combustible material in facades, less and less space between buildings, increased energy requirements; the transformation of facades in response to these changes requires the involvement of fire safety experts. nts at Grenfell Tower,
London and The Address in Dubai have demonstrated, use of combustible façade elements and lack of-quick time, primarily through the façade. We need to learn from these disasters. Other
incidents prove that the use of nonsuppression.
In the past years EU experts are working on development of common method for assessment of the fire performance of façade systems. The classification system should be transparent and should fit within the framework of existing national regulations. The common assessment method should be applicable to the wide range of façades systems available in the market including glazed façades, green façades and other emerging technologies.
There is a progress in developing legislation on façade fire safety in non-EU countries, due to
emerging fire safety problems and harmonization of regulation with EU. Fire safety of facades in
Serbia is defined through several rulebooks and standards, which significantly improved requirements.
This paper presents the comparative analysis of legislation on facade fire safety in Serbia and other European countries.",
journal = "Proceedings of the 19th International Symposium MASE, Ohrid, 2022",
title = "European and national assessment procedure for the fire performance of facades",
pages = "582-577",
url = "https://hdl.handle.net/21.15107/rcub_rims_439"
}

Laban, M., Ilić, S., Džolev, I.,& Draganić, S.. (2022). European and national assessment procedure for the fire performance of facades. in Proceedings of the 19th International Symposium MASE, Ohrid, 2022, 577-582.
https://hdl.handle.net/21.15107/rcub_rims_439

Laban M, Ilić S, Džolev I, Draganić S. European and national assessment procedure for the fire performance of facades. in Proceedings of the 19th International Symposium MASE, Ohrid, 2022. 2022;:577-582.
https://hdl.handle.net/21.15107/rcub_rims_439 .

Laban, Mirjana, Ilić, Snežana, Džolev, Igor, Draganić, Suzana, "European and national assessment procedure for the fire performance of facades" in Proceedings of the 19th International Symposium MASE, Ohrid, 2022 (2022):577-582,
https://hdl.handle.net/21.15107/rcub_rims_439 .

TY  - CONF
AU  - Ilić, Snežana
AU  - Kijanović, Aleksandar
AU  - Laban, Mirjana
PY  - 2021
UR  - http://rims.institutims.rs/handle/123456789/437
AB  - The low level of energy efficiency in buildings results in increased energy
consumption for heating and cooling and high carbon dioxide emissions. Insufficient
thermal protection of the exterior of a building contributes to a high value of thermal
transmittance of external walls and facade carpentry.
Regulations and standards in the field of energy efficiency in Serbia are going to be
harmonized with European documents, which is an integral part of the EU accession
process. Before placing construction products on the market, it is necessary to examine
product performances of products so that the thermal transmittance of facade carpentry
can be tested according two valid Serbian standards: SRPS U.J5. 060 from 1984 and
SRPS EN ISO 12567-1, which were adopted in 2012. These types of testing can only be
performed in accredited laboratories.
The paper presents a comparative analysis of those two standards for testing thermal
transmittance of external carpentry, the testing method, measuring equipment, the
obtaining of results that prove the performance of the product.
PB  - Regional Association for Security and Crisis Management-RASEC S4 GLOSEC Global Security
C3  - Proceedings of the “Safety for the future 2021 security and crisis management -theory and practice”, Belgrade
T1  - Comparative analysis of current standards for testing thermal protection of facade carpentry
EP  - 223
SP  - 215
UR  - https://hdl.handle.net/21.15107/rcub_rims_437
ER  - 

@conference{
author = "Ilić, Snežana and Kijanović, Aleksandar and Laban, Mirjana",
year = "2021",
abstract = "The low level of energy efficiency in buildings results in increased energy
consumption for heating and cooling and high carbon dioxide emissions. Insufficient
thermal protection of the exterior of a building contributes to a high value of thermal
transmittance of external walls and facade carpentry.
Regulations and standards in the field of energy efficiency in Serbia are going to be
harmonized with European documents, which is an integral part of the EU accession
process. Before placing construction products on the market, it is necessary to examine
product performances of products so that the thermal transmittance of facade carpentry
can be tested according two valid Serbian standards: SRPS U.J5. 060 from 1984 and
SRPS EN ISO 12567-1, which were adopted in 2012. These types of testing can only be
performed in accredited laboratories.
The paper presents a comparative analysis of those two standards for testing thermal
transmittance of external carpentry, the testing method, measuring equipment, the
obtaining of results that prove the performance of the product.",
publisher = "Regional Association for Security and Crisis Management-RASEC S4 GLOSEC Global Security",
journal = "Proceedings of the “Safety for the future 2021 security and crisis management -theory and practice”, Belgrade",
title = "Comparative analysis of current standards for testing thermal protection of facade carpentry",
pages = "223-215",
url = "https://hdl.handle.net/21.15107/rcub_rims_437"
}

Ilić, S., Kijanović, A.,& Laban, M.. (2021). Comparative analysis of current standards for testing thermal protection of facade carpentry. in Proceedings of the “Safety for the future 2021 security and crisis management -theory and practice”, Belgrade
Regional Association for Security and Crisis Management-RASEC S4 GLOSEC Global Security., 215-223.
https://hdl.handle.net/21.15107/rcub_rims_437

Ilić S, Kijanović A, Laban M. Comparative analysis of current standards for testing thermal protection of facade carpentry. in Proceedings of the “Safety for the future 2021 security and crisis management -theory and practice”, Belgrade. 2021;:215-223.
https://hdl.handle.net/21.15107/rcub_rims_437 .

Ilić, Snežana, Kijanović, Aleksandar, Laban, Mirjana, "Comparative analysis of current standards for testing thermal protection of facade carpentry" in Proceedings of the “Safety for the future 2021 security and crisis management -theory and practice”, Belgrade (2021):215-223,
https://hdl.handle.net/21.15107/rcub_rims_437 .

TY  - CONF
AU  - Ilić, Snežana
AU  - Radonjanin, Vlastimir
AU  - Laban, Mirjana
AU  - Bukvić, Olivera
PY  - 2021
UR  - http://rims.institutims.rs/handle/123456789/440
AB  - Critical infrastructure can be demaged, destroyed or disrupted by deliberate acts of natural disasters,negligence, terrorism, sccidents or computer hacking, criminal activity and malicious behaviour. When it comes to the protection of critical infrastructure, one of the most important branches which requires protection is the health system.
In the Republic of Serbia, there are no specific technical rules that deal with the fire protection for construction of health facilities. The Rulebook on the protection of residential, business and public buildings from fire partly mentions hospital facilities. Due to the lack of domestic laes designers must rely on foreign laws and regulations.
The paper presents active and passive fire protection that needs to be implemented when designing health facilities and an example of laws used in other countries relating to the fire protection of hospitals.
In addition to active and passive protection of medical facilities buildings it is also necessary to continuously educate both staff and patients to prevent panic attacks and mistakes that may occur due to an inadequate response.
C3  - Proceedings of the the 17th International Conference on fire and explosion protection and the 7th International Scientific Conference on safety engineering – fire, environment, work environment, integrated risks, Kladovo
T1  - Fire protection of health facilities
UR  - https://hdl.handle.net/21.15107/rcub_rims_440
ER  - 

@conference{
author = "Ilić, Snežana and Radonjanin, Vlastimir and Laban, Mirjana and Bukvić, Olivera",
year = "2021",
abstract = "Critical infrastructure can be demaged, destroyed or disrupted by deliberate acts of natural disasters,negligence, terrorism, sccidents or computer hacking, criminal activity and malicious behaviour. When it comes to the protection of critical infrastructure, one of the most important branches which requires protection is the health system.
In the Republic of Serbia, there are no specific technical rules that deal with the fire protection for construction of health facilities. The Rulebook on the protection of residential, business and public buildings from fire partly mentions hospital facilities. Due to the lack of domestic laes designers must rely on foreign laws and regulations.
The paper presents active and passive fire protection that needs to be implemented when designing health facilities and an example of laws used in other countries relating to the fire protection of hospitals.
In addition to active and passive protection of medical facilities buildings it is also necessary to continuously educate both staff and patients to prevent panic attacks and mistakes that may occur due to an inadequate response.",
journal = "Proceedings of the the 17th International Conference on fire and explosion protection and the 7th International Scientific Conference on safety engineering – fire, environment, work environment, integrated risks, Kladovo",
title = "Fire protection of health facilities",
url = "https://hdl.handle.net/21.15107/rcub_rims_440"
}

Ilić, S., Radonjanin, V., Laban, M.,& Bukvić, O.. (2021). Fire protection of health facilities. in Proceedings of the the 17th International Conference on fire and explosion protection and the 7th International Scientific Conference on safety engineering – fire, environment, work environment, integrated risks, Kladovo.
https://hdl.handle.net/21.15107/rcub_rims_440

Ilić S, Radonjanin V, Laban M, Bukvić O. Fire protection of health facilities. in Proceedings of the the 17th International Conference on fire and explosion protection and the 7th International Scientific Conference on safety engineering – fire, environment, work environment, integrated risks, Kladovo. 2021;.
https://hdl.handle.net/21.15107/rcub_rims_440 .

Ilić, Snežana, Radonjanin, Vlastimir, Laban, Mirjana, Bukvić, Olivera, "Fire protection of health facilities" in Proceedings of the the 17th International Conference on fire and explosion protection and the 7th International Scientific Conference on safety engineering – fire, environment, work environment, integrated risks, Kladovo (2021),
https://hdl.handle.net/21.15107/rcub_rims_440 .