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REVIEW OF ESTIMATION THE EFFECTS OF PETROLEUM REFINERY EFFLUENTS ON THE PHYSICOCHEMICAL PROPERTIES FOR SURFACE WATER

Yıl 2018, Cilt: 1 Sayı: 1, 6 - 9, 02.01.2018

Öz

Industrial wastewaters entering a water body represent to an overwhelming wellspring of natural contamination in waterways. It influences both the water quality and the microbial and amphibian greenery. With contending requests on constrained water assets, attention to the issues required in water contamination, has prompted to significant open level-headed discussion about the natural impacts of Industrial effluents released into oceanic situations. Raw petroleum, refined petroleum items, and in addition polycyclic aromatic hydrocarbons are universal in different natural compartments. They can bioaccumulation in natural pecking orders where they upset biochemical or physiological exercises of numerous living beings, in this manner bringing about carcinogenesis of a few organs, mutagenesis in the hereditary material, impedance in conceptive limit and/or creating and causing hemorrhage in exposed population. The cause/impact of oil poison are typically evaluated by utilizing organic end guide parameters alluded toward as biomarkers. Defilement of soil emerging from spills is a standout amongst the most constraining components to soil ripeness and consequently edit profitability Petroleum Refinery, Petrochemicals effluents are described by their irregular turbidity, conductivity, chemical oxygen demand (COD), total suspended solids (TSS), Biological oxygen demand (BOD), and total hardness. Petroleum Refinery, Petrochemicals effluents containing high grouping of microbial supplements would clearly advance an after-development of essentially high coliform sorts and other microbial structures. Natural contamination is constantly obvious, and the contamination is aggravated via arrive based sources, for example, the infrequent release of crude sewage through tempest water outlets, the effluents from refineries, oil terminals, and petrochemical plants. Squander effluents rich in decomposable natural matter, is the essential driver of natural contamination.

Kaynakça

  • [1] Fakayode, S.O., 2005, Impact assessment of industrial effluent on water quality of the receiving Alaro river in Ibadan Nigeria AJEAM-RAGEE 10: 1-13.
  • [2] Sangodoyin, A.Y., 1995, Characteristics of control of industrial effluents-generated pollution Env. Mgt. & Health 6: 15-18.
  • [3] Sangodoyin, A.Y., 1991, Groundwater and Surface Water Pollution by Open Refuse Dump in Ibadan, Nigeria. Journal of Discovery and Innovations, 3 (1): 24-31.
  • [4] Ajayi, S.O., Osibanji, O., 1981, Pollution studies on Nigeria Rivers 11; Water quality of some Nigerian Rivers. Environ. Pollut. Series 2: 87-95
  • [5] Osibanjo, O., Daso, A.P., Gbadebo, A. M., 2011, The impact of industries on surface water quality of River Ona and River Alaro in Oluyole Industrial Estate, Ibadan, Nigeria Afr. J. Biotechno. 10 (4): 696-702,
  • [6] Emongor,. V., Nkegbe, E., Kealotswe, B., Koorapetse, I., Sankwase, S., Keikanetswe, S., 2005, Pollution indicators in Gaborone industrial effluent. Journal of Appl Sci. 5: 147-150
  • [7] Phiri, O. Mumba, P. Moyo, B.H.Z. and Kadewa, W., 2005, Assessment of the impact of industrial effluents on water quality of receiving rivers in urban areas of Malawi, Int. J. Environ. Sci. Tech. 2:237-244.
  • [8] Otokunefor, T. V. and Obiukwu, C., 2005, Impact of refinery effluent on the physicochemical properties of a water body in the Niger Delta. Appl. Ecology Env. Res. 3: 61-72.
  • [9] Ahmed, M. M., Barbati, S., Doumenq, P., Chiron, S., 2012, Sulfate radical anion oxidation of diclofenac and sulfamethoxazole for water decontamination. Chem. Eng. J., 197, 440−447.
  • [10] Papadopoulos A., Savvides C., Loizidis M., Haralambous K.J., Loizidou M., 1997, An assessment of the quality and treatment of detergent wastewater, Water Science Technology, 36, pp. 377–381.
  • [11] Ding, S., Li, Z., Wangrui, 2010, Overview of dyeing wastewater treatment technology, Water resources protection 26(2010) 73-78.
  • [12] Jeison D., 2007, Anaerobic membrane bioreactors for wastewater treatment: Feasibility and potential applications [PhD Thesis]. Wageningen: Wageningen University.
  • [13] Hafez, A., Manharwwy, M.S.E., 2004, Design and performance of Two stage /Two pass RO membranes system for removal from tannery waste water, part 3. Desalination. 165: 141-151.
  • [14] Pakistan, May 2006, Strategic Country Environmental Assessment Report: Rising to the Challenges.
  • [15] Lo, S.F., Wang, S.Y., Tsai, M.J., Lin, L.D., 2012, Adsorption capacity and removal efficiency of heavy metal ions by Moso and Ma bamboo activated carbons. Chemical Engineering Research and Design 90: 1397-1406.
  • [16] Anirudhan, T.S., Sreekumari, S.S., 2011, Adsorptive removal of heavy metal ions from industrial effluents using activated carbon derived from waste coconut buttons. Journal of Environmental Sciences 23: 1989-1998.
Yıl 2018, Cilt: 1 Sayı: 1, 6 - 9, 02.01.2018

Öz

Kaynakça

  • [1] Fakayode, S.O., 2005, Impact assessment of industrial effluent on water quality of the receiving Alaro river in Ibadan Nigeria AJEAM-RAGEE 10: 1-13.
  • [2] Sangodoyin, A.Y., 1995, Characteristics of control of industrial effluents-generated pollution Env. Mgt. & Health 6: 15-18.
  • [3] Sangodoyin, A.Y., 1991, Groundwater and Surface Water Pollution by Open Refuse Dump in Ibadan, Nigeria. Journal of Discovery and Innovations, 3 (1): 24-31.
  • [4] Ajayi, S.O., Osibanji, O., 1981, Pollution studies on Nigeria Rivers 11; Water quality of some Nigerian Rivers. Environ. Pollut. Series 2: 87-95
  • [5] Osibanjo, O., Daso, A.P., Gbadebo, A. M., 2011, The impact of industries on surface water quality of River Ona and River Alaro in Oluyole Industrial Estate, Ibadan, Nigeria Afr. J. Biotechno. 10 (4): 696-702,
  • [6] Emongor,. V., Nkegbe, E., Kealotswe, B., Koorapetse, I., Sankwase, S., Keikanetswe, S., 2005, Pollution indicators in Gaborone industrial effluent. Journal of Appl Sci. 5: 147-150
  • [7] Phiri, O. Mumba, P. Moyo, B.H.Z. and Kadewa, W., 2005, Assessment of the impact of industrial effluents on water quality of receiving rivers in urban areas of Malawi, Int. J. Environ. Sci. Tech. 2:237-244.
  • [8] Otokunefor, T. V. and Obiukwu, C., 2005, Impact of refinery effluent on the physicochemical properties of a water body in the Niger Delta. Appl. Ecology Env. Res. 3: 61-72.
  • [9] Ahmed, M. M., Barbati, S., Doumenq, P., Chiron, S., 2012, Sulfate radical anion oxidation of diclofenac and sulfamethoxazole for water decontamination. Chem. Eng. J., 197, 440−447.
  • [10] Papadopoulos A., Savvides C., Loizidis M., Haralambous K.J., Loizidou M., 1997, An assessment of the quality and treatment of detergent wastewater, Water Science Technology, 36, pp. 377–381.
  • [11] Ding, S., Li, Z., Wangrui, 2010, Overview of dyeing wastewater treatment technology, Water resources protection 26(2010) 73-78.
  • [12] Jeison D., 2007, Anaerobic membrane bioreactors for wastewater treatment: Feasibility and potential applications [PhD Thesis]. Wageningen: Wageningen University.
  • [13] Hafez, A., Manharwwy, M.S.E., 2004, Design and performance of Two stage /Two pass RO membranes system for removal from tannery waste water, part 3. Desalination. 165: 141-151.
  • [14] Pakistan, May 2006, Strategic Country Environmental Assessment Report: Rising to the Challenges.
  • [15] Lo, S.F., Wang, S.Y., Tsai, M.J., Lin, L.D., 2012, Adsorption capacity and removal efficiency of heavy metal ions by Moso and Ma bamboo activated carbons. Chemical Engineering Research and Design 90: 1397-1406.
  • [16] Anirudhan, T.S., Sreekumari, S.S., 2011, Adsorptive removal of heavy metal ions from industrial effluents using activated carbon derived from waste coconut buttons. Journal of Environmental Sciences 23: 1989-1998.
Toplam 16 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Konular Çevre Mühendisliği
Bölüm Makaleler
Yazarlar

Mosstfa Maaroof Bu kişi benim

Sukru Dursun

Yayımlanma Tarihi 2 Ocak 2018
Gönderilme Tarihi 16 Temmuz 2017
Yayımlandığı Sayı Yıl 2018 Cilt: 1 Sayı: 1

Kaynak Göster

APA Maaroof, M., & Dursun, S. (2018). REVIEW OF ESTIMATION THE EFFECTS OF PETROLEUM REFINERY EFFLUENTS ON THE PHYSICOCHEMICAL PROPERTIES FOR SURFACE WATER. International Journal of Environmental Pollution and Environmental Modelling, 1(1), 6-9.
AMA Maaroof M, Dursun S. REVIEW OF ESTIMATION THE EFFECTS OF PETROLEUM REFINERY EFFLUENTS ON THE PHYSICOCHEMICAL PROPERTIES FOR SURFACE WATER. Int. j. environ. pollut. environ. model. Ocak 2018;1(1):6-9.
Chicago Maaroof, Mosstfa, ve Sukru Dursun. “REVIEW OF ESTIMATION THE EFFECTS OF PETROLEUM REFINERY EFFLUENTS ON THE PHYSICOCHEMICAL PROPERTIES FOR SURFACE WATER”. International Journal of Environmental Pollution and Environmental Modelling 1, sy. 1 (Ocak 2018): 6-9.
EndNote Maaroof M, Dursun S (01 Ocak 2018) REVIEW OF ESTIMATION THE EFFECTS OF PETROLEUM REFINERY EFFLUENTS ON THE PHYSICOCHEMICAL PROPERTIES FOR SURFACE WATER. International Journal of Environmental Pollution and Environmental Modelling 1 1 6–9.
IEEE M. Maaroof ve S. Dursun, “REVIEW OF ESTIMATION THE EFFECTS OF PETROLEUM REFINERY EFFLUENTS ON THE PHYSICOCHEMICAL PROPERTIES FOR SURFACE WATER”, Int. j. environ. pollut. environ. model., c. 1, sy. 1, ss. 6–9, 2018.
ISNAD Maaroof, Mosstfa - Dursun, Sukru. “REVIEW OF ESTIMATION THE EFFECTS OF PETROLEUM REFINERY EFFLUENTS ON THE PHYSICOCHEMICAL PROPERTIES FOR SURFACE WATER”. International Journal of Environmental Pollution and Environmental Modelling 1/1 (Ocak 2018), 6-9.
JAMA Maaroof M, Dursun S. REVIEW OF ESTIMATION THE EFFECTS OF PETROLEUM REFINERY EFFLUENTS ON THE PHYSICOCHEMICAL PROPERTIES FOR SURFACE WATER. Int. j. environ. pollut. environ. model. 2018;1:6–9.
MLA Maaroof, Mosstfa ve Sukru Dursun. “REVIEW OF ESTIMATION THE EFFECTS OF PETROLEUM REFINERY EFFLUENTS ON THE PHYSICOCHEMICAL PROPERTIES FOR SURFACE WATER”. International Journal of Environmental Pollution and Environmental Modelling, c. 1, sy. 1, 2018, ss. 6-9.
Vancouver Maaroof M, Dursun S. REVIEW OF ESTIMATION THE EFFECTS OF PETROLEUM REFINERY EFFLUENTS ON THE PHYSICOCHEMICAL PROPERTIES FOR SURFACE WATER. Int. j. environ. pollut. environ. model. 2018;1(1):6-9.
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