Monitoring of ground water after the accident situations
Само за регистроване кориснике
2016
Чланак у часопису (Објављена верзија)
Метаподаци
Приказ свих података о документуАпстракт
After the accident situations, tests of the quality of underground water on piezometers have been performed in complex process systems industry. Measuring apparatuses were placed in the vicinity of complex process systems area at the depth of 50 m. Results have shown that the water is of low quality. We came to a conclusion that the underground water in the vicinity of main piezometers is polluted. At the complex process systems (example 1) area results of these tests indicate a higher amount of organic substance in the water. The amount of reduction produce such as ammonium ion has also been increased. The amount of halogen hydrocarbon is very high as well. In a sample taken at the depth of 45 m there is a high amount of hydrocarbon, originating from oil. There is aromatic hydrocarbon at all depths (benzene, toluene, xylene). The amount of phenol is high, whereas the amount of mercury is low. Tests have proven that substances of pyralan type are also present. Samples at all depths hav...e high specific conductivity. Results of the tests performed in the vicinity of complex process systems (example 2) area shown enormous electrolytic conductivity of samples at all depths. At 25 m and 45 m we found a high amount of reduction produce of the ammonium ion type, as well as organic and pyralan substance load. On the basis of the provided information, it is obvious that we are dealing with a long-term pollution of the environment. The paper presents soil remediation technologies that can be successfully used for problems
Кључне речи:
monitoring / piezometers / chemical analysis / underground waterИзвор:
Meechanical Engineering Scientific Journal, 2016, 34, 1, 133-142Издавач:
- Mech. Eng. Sci. J. Vol. No. pp. Skopje 3411–3602016 Маш. инж. науч. спис. Год. Бројстр. СкопјеMECHANICAL ENGINEERING– SCIENTSkopje : Faculty of Mechanical Engineering, Ss. Cyril and Methodius University in Skopje, Republic of Macedonia
Институција/група
Istraživačko razvojni institut TAMIŠTY - JOUR AU - Ketin, Sonja AU - Saćirović, Selim AU - Stevović, Svetlana AU - Biočanin, Rade PY - 2016 UR - https://intam.institut-tamis.rs/handle/123456789/307 AB - After the accident situations, tests of the quality of underground water on piezometers have been performed in complex process systems industry. Measuring apparatuses were placed in the vicinity of complex process systems area at the depth of 50 m. Results have shown that the water is of low quality. We came to a conclusion that the underground water in the vicinity of main piezometers is polluted. At the complex process systems (example 1) area results of these tests indicate a higher amount of organic substance in the water. The amount of reduction produce such as ammonium ion has also been increased. The amount of halogen hydrocarbon is very high as well. In a sample taken at the depth of 45 m there is a high amount of hydrocarbon, originating from oil. There is aromatic hydrocarbon at all depths (benzene, toluene, xylene). The amount of phenol is high, whereas the amount of mercury is low. Tests have proven that substances of pyralan type are also present. Samples at all depths have high specific conductivity. Results of the tests performed in the vicinity of complex process systems (example 2) area shown enormous electrolytic conductivity of samples at all depths. At 25 m and 45 m we found a high amount of reduction produce of the ammonium ion type, as well as organic and pyralan substance load. On the basis of the provided information, it is obvious that we are dealing with a long-term pollution of the environment. The paper presents soil remediation technologies that can be successfully used for problems PB - Mech. Eng. Sci. J. Vol. No. pp. Skopje 3411–3602016 Маш. инж. науч. спис. Год. Бројстр. СкопјеMECHANICAL ENGINEERING– SCIENTSkopje : Faculty of Mechanical Engineering, Ss. Cyril and Methodius University in Skopje, Republic of Macedonia T2 - Meechanical Engineering Scientific Journal T1 - Monitoring of ground water after the accident situations EP - 142 IS - 1 SP - 133 VL - 34 ER -
@article{ author = "Ketin, Sonja and Saćirović, Selim and Stevović, Svetlana and Biočanin, Rade", year = "2016", abstract = "After the accident situations, tests of the quality of underground water on piezometers have been performed in complex process systems industry. Measuring apparatuses were placed in the vicinity of complex process systems area at the depth of 50 m. Results have shown that the water is of low quality. We came to a conclusion that the underground water in the vicinity of main piezometers is polluted. At the complex process systems (example 1) area results of these tests indicate a higher amount of organic substance in the water. The amount of reduction produce such as ammonium ion has also been increased. The amount of halogen hydrocarbon is very high as well. In a sample taken at the depth of 45 m there is a high amount of hydrocarbon, originating from oil. There is aromatic hydrocarbon at all depths (benzene, toluene, xylene). The amount of phenol is high, whereas the amount of mercury is low. Tests have proven that substances of pyralan type are also present. Samples at all depths have high specific conductivity. Results of the tests performed in the vicinity of complex process systems (example 2) area shown enormous electrolytic conductivity of samples at all depths. At 25 m and 45 m we found a high amount of reduction produce of the ammonium ion type, as well as organic and pyralan substance load. On the basis of the provided information, it is obvious that we are dealing with a long-term pollution of the environment. The paper presents soil remediation technologies that can be successfully used for problems", publisher = "Mech. Eng. Sci. J. Vol. No. pp. Skopje 3411–3602016 Маш. инж. науч. спис. Год. Бројстр. СкопјеMECHANICAL ENGINEERING– SCIENTSkopje : Faculty of Mechanical Engineering, Ss. Cyril and Methodius University in Skopje, Republic of Macedonia", journal = "Meechanical Engineering Scientific Journal", title = "Monitoring of ground water after the accident situations", pages = "142-133", number = "1", volume = "34" }
Ketin, S., Saćirović, S., Stevović, S.,& Biočanin, R.. (2016). Monitoring of ground water after the accident situations. in Meechanical Engineering Scientific Journal Mech. Eng. Sci. J. Vol. No. pp. Skopje 3411–3602016 Маш. инж. науч. спис. Год. Бројстр. СкопјеMECHANICAL ENGINEERING– SCIENTSkopje : Faculty of Mechanical Engineering, Ss. Cyril and Methodius University in Skopje, Republic of Macedonia., 34(1), 133-142.
Ketin S, Saćirović S, Stevović S, Biočanin R. Monitoring of ground water after the accident situations. in Meechanical Engineering Scientific Journal. 2016;34(1):133-142..
Ketin, Sonja, Saćirović, Selim, Stevović, Svetlana, Biočanin, Rade, "Monitoring of ground water after the accident situations" in Meechanical Engineering Scientific Journal, 34, no. 1 (2016):133-142.