TY  - JOUR
AU  - Ketin, Sonja
AU  - Sacirovic, Selim
AU  - Plojovic, Semsudin
AU  - Skrijelj, Redzep
AU  - Biocanin, Rade
PY  - 2015
UR  - https://intam.institut-tamis.rs/handle/123456789/302
AB  - This paper analyzes the oil and petrochemical complex with four scenarios (for different threshold limit values of pollutants concentrations) from whence the following conclusions have been made: Based on the results of modeling and analysis of aggregate data it can be concluded that the application of software ALOHA (model) it is possible to plan and manage the set limit values for concentrations of pollutants in industrial plants along with monitoring the dispersion of pollutants in the oil and petrochemical complex. The model was applied, which based on Gaussian distribution calculates maximum range of pollutants and pollutant concentrations. These researches are specific, highly complex and rare, and for the first time conducted by using the model of SO2 and NO2 dispersion, the dominant pollutants in the oil and petrochemical industry complex. The paper provides relevant information based on which emitters were detected with the highest level of environmental and working environment pollution. By the analysis of the used data conclusions were obtained about the effects of pollutants on pollution that provide safe and reliable conclusion on the emitters, causes of pollution of industrial plants of oil and petrochemical complex.
PB  - Springer Nature
T2  - Russian Journal of General Chemistry
T1  - Method for comparison of the maximum range of chemical pollutants
EP  - 2680
IS  - 13
SP  - 2677
VL  - 84
DO  - 10.1134/S1070363214130283
ER  - 

@article{
author = "Ketin, Sonja and Sacirovic, Selim and Plojovic, Semsudin and Skrijelj, Redzep and Biocanin, Rade",
year = "2015",
abstract = "This paper analyzes the oil and petrochemical complex with four scenarios (for different threshold limit values of pollutants concentrations) from whence the following conclusions have been made: Based on the results of modeling and analysis of aggregate data it can be concluded that the application of software ALOHA (model) it is possible to plan and manage the set limit values for concentrations of pollutants in industrial plants along with monitoring the dispersion of pollutants in the oil and petrochemical complex. The model was applied, which based on Gaussian distribution calculates maximum range of pollutants and pollutant concentrations. These researches are specific, highly complex and rare, and for the first time conducted by using the model of SO2 and NO2 dispersion, the dominant pollutants in the oil and petrochemical industry complex. The paper provides relevant information based on which emitters were detected with the highest level of environmental and working environment pollution. By the analysis of the used data conclusions were obtained about the effects of pollutants on pollution that provide safe and reliable conclusion on the emitters, causes of pollution of industrial plants of oil and petrochemical complex.",
publisher = "Springer Nature",
journal = "Russian Journal of General Chemistry",
title = "Method for comparison of the maximum range of chemical pollutants",
pages = "2680-2677",
number = "13",
volume = "84",
doi = "10.1134/S1070363214130283"
}

Ketin, S., Sacirovic, S., Plojovic, S., Skrijelj, R.,& Biocanin, R.. (2015). Method for comparison of the maximum range of chemical pollutants. in Russian Journal of General Chemistry
Springer Nature., 84(13), 2677-2680.
https://doi.org/10.1134/S1070363214130283

Ketin S, Sacirovic S, Plojovic S, Skrijelj R, Biocanin R. Method for comparison of the maximum range of chemical pollutants. in Russian Journal of General Chemistry. 2015;84(13):2677-2680.
doi:10.1134/S1070363214130283 .

Ketin, Sonja, Sacirovic, Selim, Plojovic, Semsudin, Skrijelj, Redzep, Biocanin, Rade, "Method for comparison of the maximum range of chemical pollutants" in Russian Journal of General Chemistry, 84, no. 13 (2015):2677-2680,
https://doi.org/10.1134/S1070363214130283 . .

TY  - JOUR
AU  - Biocanin, Rade
AU  - Sacirovic, Selim
AU  - Ketin, Sonja
AU  - Canak, Stevan
AU  - Vignjevic Djordjevic, Nada
AU  - Plojovic, Semsudin
AU  - Neskovic, Slobodan
PY  - 2015
UR  - https://intam.institut-tamis.rs/handle/123456789/301
AB  - When CB (chemical and biological) armor is applied as protection against CB accidents and CB terrorism
and to remove the consequences of contamination, one of the principal activities is performing final
decontamination. For this purpose, caporit (calcium hypochlorite) in water solution is, we believe, the most
frequently used material. This is an inorganic substance with active chlorine. When solution is properly prepared,
it is useful, economical, effective, and applicable for decontamination and desinfection activities.
Production of this material consists of finding production materials, collecting them, proper equipment use,
quantifying, preparing both the production area and the equipment, solution production, effectiveness control,
and, finally, the use of product made. Technology depends on quality and quantity of repro material in disposal,
aperature, and equipment, employees' education, business organization, and protective measures during
the working process. In terms of highly-toxic chemical and biological contamination it is necessary to perform
chemical and biological decontamination as soon as possible.
PB  - Poland : HARD
T2  - Polish Journal of Environmental Studies
T1  - Chemical processes of decontamination in the treatment of hazardous substances
EP  - 432
IS  - 1
SP  - 427
VL  - 24
ER  - 

@article{
author = "Biocanin, Rade and Sacirovic, Selim and Ketin, Sonja and Canak, Stevan and Vignjevic Djordjevic, Nada and Plojovic, Semsudin and Neskovic, Slobodan",
year = "2015",
abstract = "When CB (chemical and biological) armor is applied as protection against CB accidents and CB terrorism
and to remove the consequences of contamination, one of the principal activities is performing final
decontamination. For this purpose, caporit (calcium hypochlorite) in water solution is, we believe, the most
frequently used material. This is an inorganic substance with active chlorine. When solution is properly prepared,
it is useful, economical, effective, and applicable for decontamination and desinfection activities.
Production of this material consists of finding production materials, collecting them, proper equipment use,
quantifying, preparing both the production area and the equipment, solution production, effectiveness control,
and, finally, the use of product made. Technology depends on quality and quantity of repro material in disposal,
aperature, and equipment, employees' education, business organization, and protective measures during
the working process. In terms of highly-toxic chemical and biological contamination it is necessary to perform
chemical and biological decontamination as soon as possible.",
publisher = "Poland : HARD",
journal = "Polish Journal of Environmental Studies",
title = "Chemical processes of decontamination in the treatment of hazardous substances",
pages = "432-427",
number = "1",
volume = "24"
}

Biocanin, R., Sacirovic, S., Ketin, S., Canak, S., Vignjevic Djordjevic, N., Plojovic, S.,& Neskovic, S.. (2015). Chemical processes of decontamination in the treatment of hazardous substances. in Polish Journal of Environmental Studies
Poland : HARD., 24(1), 427-432.

Biocanin R, Sacirovic S, Ketin S, Canak S, Vignjevic Djordjevic N, Plojovic S, Neskovic S. Chemical processes of decontamination in the treatment of hazardous substances. in Polish Journal of Environmental Studies. 2015;24(1):427-432..

Biocanin, Rade, Sacirovic, Selim, Ketin, Sonja, Canak, Stevan, Vignjevic Djordjevic, Nada, Plojovic, Semsudin, Neskovic, Slobodan, "Chemical processes of decontamination in the treatment of hazardous substances" in Polish Journal of Environmental Studies, 24, no. 1 (2015):427-432.