Vasile Predicã scite author profile

Background, aim, and scope Heavy metals such as lead are well known to cause harmful health effects. Especially children are particularly susceptible to increased levels of lead in their blood. It is also a fact that lead concentration is increasing in the environment due to increased anthropogenic activity. The risk of heavy metal contamination is pronounced in the environment adjacent to large industrial complexes. In a combined case study, the environmental pollution by heavy metals was related to children's health in the vicinity of an industrial area located 4 km south-east from Bucharest about 2 km east from the nearest townPantelimon. This site includes companies processing different, nonferrous solid wastes for recovery of heavy metals and producing different nonferrous alloys and lead batteries. In this paper, mainly the results of environmental sampling and analyses are summarized. Materials and methods Water, soil, and atmospheric deposition samples were collected from different locations within 3 km from the industrial area. For comparison, samples were also taken from Bucharest. Water samples were filtered (<0.45 μm), extracted by salpetric acid, and quantified by ICP-OES and ICP-MS. Soil samples were dried, sieved (<2 mm), extracted by aqua regia and analyzed by AAS. In order to quantify the atmospheric deposition, three kinds of permanently open collecting pots were used on nine different sites between August and November 2006. Results At most sampling locations, the heavy metal concentrations in soil decrease with increasing distance to the presumably major source of pollution. Highest heavy metal concentrations were found in 10-20 cm soil depths. There were also decreasing heavy metal concentrations for atmospheric deposition with increasing distance to the industrial site. In surface and groundwater samples, traces of zinc, copper and lead were detected. Discussion The heavy metal concentrations in soil were increased in the study area, mostly under legal action limits in low-concern areas (e.g., 1,000 mg Pb/kg dry soil), but often above action limits for high-concern areas (100 mg Pb/kg dry soil) such as populated areas. The soluble lead concentrations in water samples indicate a need for monitoring and assessing water quality in more detail. The results for atmospheric deposition showed increased dust precipitation and heavy metal loads in the study area compared to Bucharest. However, based on mass flow balance calculations, the actual atmospheric deposition of heavy metals must be much lower than it was in the past decades. Conclusions It was shown that highest lead values in water, soil and atmospheric deposition are rather to be found near the investigated industrial site than at the control sites in Bucharest. Our results correspond very well with results that show that children from Pantelimon have significantly increased lead concentrations in their blood compared to children in Bucharest. The increased lead contamination around the investigated industrial area is likely to have

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OH Production Enhancement in Bubbling Pulsed Discharges

Lungu¹,

Poroşnicu²,

Jepu³

et al. 2010

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Leaching of Nonferrous Metals From Oxidized Low Grade Complex Concentrate

Mara

Velea

Predicã

et al. 2011

Environ. Eng. Manag. J.

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The oxidation of low grade complex concentrates (Cu, Pb and Zn) in aqueous media (weak alkaline) oxidized nonferrous metals concentrates is carried out at high pressure. Leaching is the subsequent processing step in metal extraction. The paper studies the influence of some parameters (temperature, time, L:S ratio, excess) on the leaching efficiency of nonferrous metals from oxidized concentrate. The optimum parameters determined are: S/L ratio of 10/1, 25% reactive excess, leaching temperature of 50 o C-60 o C and reaction time of 60 minutes. Maximum leaching yield obtained at optimum parameters was 97-98 % for Cu and 82-83 % for Zn. The complete characterization (XRD analysis and the chemical analysis) of the raw materials and products was carried out to determine the composition of the initial and final phases. The experimental results look very promising and the solution containing nonferrous metals will be used in the next hydrometallurgical steps precisely in the nonferrous metals recovery.

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Vasile Predicã

Synthesis of inorganic polymers using fly ash and primary lead slag

Heavy metal contamination in the vicinity of an industrial area near Bucharest

OH Production Enhancement in Bubbling Pulsed Discharges

Leaching of Nonferrous Metals From Oxidized Low Grade Complex Concentrate

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