Ivanković, Nataša D.


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2013 (1)


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http://TechnoRep.tmf.bg.ac.rs/APP/faces/author.xhtml?author_id=34b5ecad-d93d-4c10-b6e9-8da7a41dd1e8&item_offset=0&project_offset=0&sort_by=dc.date.issued

Authority Key	Name Variants
34b5ecad-d93d-4c10-b6e9-8da7a41dd1e8	Ivanković, Nataša D. (2)

Projects

Application of nanomaterials in the improvement of respiratory and percutaneous protective equipment in ecological disbalance conditions caused by radioactive chemical and biological contamination

Author's Bibliography

Efficacy of respiratory antimicrobial protection devices

Ivanković, Negovan; Rajić, Dušan; Ivanković, Nataša D.; Senić, Željko; Đurović, Branka; Vuković, Nikola S.; Karkalić, Radovan

(Military Technical Institute, Belgrade, 2014)

TY  - JOUR
AU  - Ivanković, Negovan
AU  - Rajić, Dušan
AU  - Ivanković, Nataša D.
AU  - Senić, Željko
AU  - Đurović, Branka
AU  - Vuković, Nikola S.
AU  - Karkalić, Radovan
PY  - 2014
UR  - http://TechnoRep.tmf.bg.ac.rs/handle/123456789/2621
AB  - Individual protection of the respiratory tract is a key factor in preventing/stopping a potential epidemic/pandemic caused naturally or during biological agents application in war or terrorist activities. Improving the existing or introducing new appropriate personal protective equipment to the military environment would be invaluable. In order to acquire a confirmation of reliability and physiological suitability for use in the protection of military personnel in case of a declared epidemic/pandemic, the protection effectiveness and physiological suitability of three models of epidemiological masks were tested in accordance with BS EN 149: 2007 under the conditions of simulated biological air contamination. The test results and their statistical processing have shown that an epidemiological mask possesses high efficiency and physiological suitability as a protective device in the case of air contamination with aerosols of biological agents. It is recommended for use in peacetime together with the existing standard military masks.
AB  - Individualna zaštita respiratornog trakta predstavlja ključni faktor u sprečavanju/prekidanju potencijalne epidemije/pandemije nastale prirodnim putem ili upotrebom bioloških agenasa u ratnim ili terorističkim dejstvima. Poboljšanje postojećih ili uvođenje novih pogodnijih ličnih zaštitnih sredstava u vojnu sredinu bilo bi od neprocenjivog značaja. U cilju sticanja potvrde pouzdanosti i fiziološke pogodnosti za upotrebu u zaštiti vojnog personala u slučaju objavljene epidemije/pandemije, izvršeno je ispitivanje efikasnosti zaštite i fiziološke podobnosti tri modela epidemiološke maske u uslovima simulirane biološke kontaminacije vazduha, u skladu sa standardom SRPS EN 149:2007. Na osnovu rezultata ispitivanja i njihove statističke obrade utvrđeno je da epidemiološka maska kao zaštitno sredstvo poseduje visoku efikasnost i fiziološku podobnost u slučaju kontaminacije vazduha aerosolima bioloških agenasa. Predlaže se za upotrebu u mirnodopskim uslovima ujedno sa postojećim formacijskim maskama.
PB  - Military Technical Institute, Belgrade
T2  - Scientific Technical Review
T1  - Efficacy of respiratory antimicrobial protection devices
T1  - Efikasnost sredstava respiratorne antimikrobne zaštite
EP  - 53
IS  - 3
SP  - 47
VL  - 64
UR  - https://hdl.handle.net/21.15107/rcub_technorep_2621
ER  -

@article{
author = "Ivanković, Negovan and Rajić, Dušan and Ivanković, Nataša D. and Senić, Željko and Đurović, Branka and Vuković, Nikola S. and Karkalić, Radovan",
year = "2014",
abstract = "Individual protection of the respiratory tract is a key factor in preventing/stopping a potential epidemic/pandemic caused naturally or during biological agents application in war or terrorist activities. Improving the existing or introducing new appropriate personal protective equipment to the military environment would be invaluable. In order to acquire a confirmation of reliability and physiological suitability for use in the protection of military personnel in case of a declared epidemic/pandemic, the protection effectiveness and physiological suitability of three models of epidemiological masks were tested in accordance with BS EN 149: 2007 under the conditions of simulated biological air contamination. The test results and their statistical processing have shown that an epidemiological mask possesses high efficiency and physiological suitability as a protective device in the case of air contamination with aerosols of biological agents. It is recommended for use in peacetime together with the existing standard military masks., Individualna zaštita respiratornog trakta predstavlja ključni faktor u sprečavanju/prekidanju potencijalne epidemije/pandemije nastale prirodnim putem ili upotrebom bioloških agenasa u ratnim ili terorističkim dejstvima. Poboljšanje postojećih ili uvođenje novih pogodnijih ličnih zaštitnih sredstava u vojnu sredinu bilo bi od neprocenjivog značaja. U cilju sticanja potvrde pouzdanosti i fiziološke pogodnosti za upotrebu u zaštiti vojnog personala u slučaju objavljene epidemije/pandemije, izvršeno je ispitivanje efikasnosti zaštite i fiziološke podobnosti tri modela epidemiološke maske u uslovima simulirane biološke kontaminacije vazduha, u skladu sa standardom SRPS EN 149:2007. Na osnovu rezultata ispitivanja i njihove statističke obrade utvrđeno je da epidemiološka maska kao zaštitno sredstvo poseduje visoku efikasnost i fiziološku podobnost u slučaju kontaminacije vazduha aerosolima bioloških agenasa. Predlaže se za upotrebu u mirnodopskim uslovima ujedno sa postojećim formacijskim maskama.",
publisher = "Military Technical Institute, Belgrade",
journal = "Scientific Technical Review",
title = "Efficacy of respiratory antimicrobial protection devices, Efikasnost sredstava respiratorne antimikrobne zaštite",
pages = "53-47",
number = "3",
volume = "64",
url = "https://hdl.handle.net/21.15107/rcub_technorep_2621"
}

Ivanković, N., Rajić, D., Ivanković, N. D., Senić, Ž., Đurović, B., Vuković, N. S.,& Karkalić, R.. (2014). Efficacy of respiratory antimicrobial protection devices. in Scientific Technical Review
Military Technical Institute, Belgrade., 64(3), 47-53.
https://hdl.handle.net/21.15107/rcub_technorep_2621

Ivanković N, Rajić D, Ivanković ND, Senić Ž, Đurović B, Vuković NS, Karkalić R. Efficacy of respiratory antimicrobial protection devices. in Scientific Technical Review. 2014;64(3):47-53.
https://hdl.handle.net/21.15107/rcub_technorep_2621 .

Ivanković, Negovan, Rajić, Dušan, Ivanković, Nataša D., Senić, Željko, Đurović, Branka, Vuković, Nikola S., Karkalić, Radovan, "Efficacy of respiratory antimicrobial protection devices" in Scientific Technical Review, 64, no. 3 (2014):47-53,
https://hdl.handle.net/21.15107/rcub_technorep_2621 .

Testing the protective efficiency of personal respiratory protection devices in radiologically contaminated environments

Rajić, Dušan; Ivanković, Negovan; Ivanković, Nataša D.; Ilić, Marina; Senić, Željko; Pajić, Nataša D.

(Vinca Institute of Nuclear Sciences, 2013)

TY  - JOUR
AU  - Rajić, Dušan
AU  - Ivanković, Negovan
AU  - Ivanković, Nataša D.
AU  - Ilić, Marina
AU  - Senić, Željko
AU  - Pajić, Nataša D.
PY  - 2013
UR  - http://TechnoRep.tmf.bg.ac.rs/handle/123456789/2305
AB  - The use of ammunition primed with depleted uranium is one of the hallmarks of modern combat operations, resulting in environmental contamination by particles of depleted uranium and uranium oxide, scattered around in the form of submicron-scale aerosols. This paper examined the protective effectiveness of the Serbian military's M3 protective face mask in relation to the presence of airborne depleted uranium and its by-products. Sodium chloride in solid aerosol form was used as a test substance and adequate physical simulator of such radioactive aerosols because its granulometric (particle) size distribution met the requirements of suitability as a simulator. Determination of aerosol concentration was carried out by flame photometry method, whilst granulometric distribution was determined by an electric particles analyzer. It was established that the total internal leakage of the M3 protective mask was as much a function of the penetration of particles through the combined M3 filter as of the leaks along the fitting line of the user's face mask and the inhalation valve. In terms of its protective effect against aerosols of depleted uranium and associated oxides, the Serbian M3 protective mask was determined to be of high efficiency and physiological suitability.
AB  - Upotreba municije laborisane osiromašenim uranijumom predstavlja jedno od obeležja savremenih borbenih dejstava. Pri tome dolazi do kontaminacije životne sredine česticama osiromašenog uranijuma i oksidima uranijuma koje se raspršavaju u okolinu u formi aerosola submikronskih razmera. U radu je ispitivana efikasnost srpske vojne zaštitne maske M3 u odnosu na prisustvo osiromašenog uranijuma i njegovih produkata u vazduhu. Kao test supstancija i adekvatan fizički simulator ovakvih radioaktivnih aerosola korišćen je čvrsti aerosol NaCl čija granulometrijska raspodela veličine čestica ispunjava uslove za njegovu podobnost kao simulatora. Određivanje koncentracije ovih aerosola obavljeno je metodom plamene fotometrije, a granulometrijska raspodela električnim analizatorom čestica. Pokazano je da ukupno unutrašnje propuštanje zaštitne maske zavisi podjednako od prodiranja čestica kroz kombinovani filter M3, kao i od propuštanja na liniji naleganja obrazine na lice korisnika i kroz ventil izdisanja. Utvrđena je visoka efikasnost i fiziološka podobnost srpske zaštitne maske M3 u zaštiti od aerosola osiromašenog uranijuma i njegovih oksida.
PB  - Vinca Institute of Nuclear Sciences
T2  - Nuclear Technology and Radiation Protection
T1  - Testing the protective efficiency of personal respiratory protection devices in radiologically contaminated environments
T1  - Ispitivanje efikasnosti sredstava lične respiratorne zaštite u uslovima radiološke kontaminacije životne sredine
EP  - 107
IS  - 1
SP  - 102
VL  - 28
UR  - https://hdl.handle.net/21.15107/rcub_technorep_2305
ER  -

@article{
author = "Rajić, Dušan and Ivanković, Negovan and Ivanković, Nataša D. and Ilić, Marina and Senić, Željko and Pajić, Nataša D.",
year = "2013",
abstract = "The use of ammunition primed with depleted uranium is one of the hallmarks of modern combat operations, resulting in environmental contamination by particles of depleted uranium and uranium oxide, scattered around in the form of submicron-scale aerosols. This paper examined the protective effectiveness of the Serbian military's M3 protective face mask in relation to the presence of airborne depleted uranium and its by-products. Sodium chloride in solid aerosol form was used as a test substance and adequate physical simulator of such radioactive aerosols because its granulometric (particle) size distribution met the requirements of suitability as a simulator. Determination of aerosol concentration was carried out by flame photometry method, whilst granulometric distribution was determined by an electric particles analyzer. It was established that the total internal leakage of the M3 protective mask was as much a function of the penetration of particles through the combined M3 filter as of the leaks along the fitting line of the user's face mask and the inhalation valve. In terms of its protective effect against aerosols of depleted uranium and associated oxides, the Serbian M3 protective mask was determined to be of high efficiency and physiological suitability., Upotreba municije laborisane osiromašenim uranijumom predstavlja jedno od obeležja savremenih borbenih dejstava. Pri tome dolazi do kontaminacije životne sredine česticama osiromašenog uranijuma i oksidima uranijuma koje se raspršavaju u okolinu u formi aerosola submikronskih razmera. U radu je ispitivana efikasnost srpske vojne zaštitne maske M3 u odnosu na prisustvo osiromašenog uranijuma i njegovih produkata u vazduhu. Kao test supstancija i adekvatan fizički simulator ovakvih radioaktivnih aerosola korišćen je čvrsti aerosol NaCl čija granulometrijska raspodela veličine čestica ispunjava uslove za njegovu podobnost kao simulatora. Određivanje koncentracije ovih aerosola obavljeno je metodom plamene fotometrije, a granulometrijska raspodela električnim analizatorom čestica. Pokazano je da ukupno unutrašnje propuštanje zaštitne maske zavisi podjednako od prodiranja čestica kroz kombinovani filter M3, kao i od propuštanja na liniji naleganja obrazine na lice korisnika i kroz ventil izdisanja. Utvrđena je visoka efikasnost i fiziološka podobnost srpske zaštitne maske M3 u zaštiti od aerosola osiromašenog uranijuma i njegovih oksida.",
publisher = "Vinca Institute of Nuclear Sciences",
journal = "Nuclear Technology and Radiation Protection",
title = "Testing the protective efficiency of personal respiratory protection devices in radiologically contaminated environments, Ispitivanje efikasnosti sredstava lične respiratorne zaštite u uslovima radiološke kontaminacije životne sredine",
pages = "107-102",
number = "1",
volume = "28",
url = "https://hdl.handle.net/21.15107/rcub_technorep_2305"
}

Rajić, D., Ivanković, N., Ivanković, N. D., Ilić, M., Senić, Ž.,& Pajić, N. D.. (2013). Testing the protective efficiency of personal respiratory protection devices in radiologically contaminated environments. in Nuclear Technology and Radiation Protection
Vinca Institute of Nuclear Sciences., 28(1), 102-107.
https://hdl.handle.net/21.15107/rcub_technorep_2305

Rajić D, Ivanković N, Ivanković ND, Ilić M, Senić Ž, Pajić ND. Testing the protective efficiency of personal respiratory protection devices in radiologically contaminated environments. in Nuclear Technology and Radiation Protection. 2013;28(1):102-107.
https://hdl.handle.net/21.15107/rcub_technorep_2305 .

Rajić, Dušan, Ivanković, Negovan, Ivanković, Nataša D., Ilić, Marina, Senić, Željko, Pajić, Nataša D., "Testing the protective efficiency of personal respiratory protection devices in radiologically contaminated environments" in Nuclear Technology and Radiation Protection, 28, no. 1 (2013):102-107,
https://hdl.handle.net/21.15107/rcub_technorep_2305 .