Method for comparison of the maximum range of chemical pollutants
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 environmen...t 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.
Keywords:
pollutant / oil petrochemical complex / modellingSource:
Russian Journal of General Chemistry, 2015, 84, 13, 2677-2680Publisher:
- Springer Nature
Collections
Institution/Community
Istraživačko razvojni institut TAMIŠTY - 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 . .