The dynamics and level of pollution of the wastewater evaporator pond of the bitumen plant were studied in 2018-2019. The chemical composition of the waste water (WW) pond was determined by 8 indicators. The average annual indicators of the studied harmful substances in the water exceeded the permissible level from 1.1 to 21.9 times. At the same time, exceeding standards were registered for substances of 3 and 4 hazard classes: total iron - up to 2.8 times, petroleum products - up to 1.7 times. The content of anionic surface active agents (SAA) in the evaporator pond with an average degree of oxidation was recorded in excess of the maximum permissible concentration (MPC) by 2.0 times, 2.13 times, and 2.32 times on average over the years at points 1, 2, and 3, respectively. The average values of biochemical oxigen demand/chemical oxigen demand (BOD5/COD) for 2018-2019 were as follows for the studied points of the evaporator pond: at point 1 (water outlet) - 0.215, at point 2 (South-Eastern part) - 0.195, at point 3 in the area of the sand massif - 0.21, and under the condition of BOD5/COD<0.5 it means that the WW is over by resistant to oxidation compounds. This requires accelerating the evaporation process. A heliotechnical system of translucent coverings has been developed and offered for intensifying the evaporation process and isolating harmful substances from contacts with the biosphere. This system is environmentally and economically feasible.
The article considers the influence of oil-containing wastewater generated from industrial enterprises located on the coast of the Caspian Sea, through underground drains on the groundwater and sea water of the Caspian Sea coast within the Mangistau region, the content of controlled pollutants in the studied samples is given. To determine the dynamics of changes in the level of harmful substances in underground and surface waters, 3 production facilities engaged in oil production and processing, located at different distances from the sea, were selected.Two of them are located on the seashore, one object is located 8 km from the Caspian Sea. In 3 studied objects, wastewater that has been treated is discharged into the reservoir. The work consisted in studying the production area, monitoring the level and temperature of underground and surface waters and conducting laboratory analysis of the content of polluting components in the water using marine stations and hydrogeological observation wells located in the study area. For marine waters in the vicinity of the Karazhanbas field was observed deviations from the concentrations of oil content and iron, the oscillation of the norm of certain substances in groundwater due to the fact that the underground water of the region in the area belong to the province of underground water with high concentration of heavy metals and organic substances and are of chloride-sulfate chemical composition.
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