5 research outputs found
Washing as a Remediation Technology Applicable in Soils Heavily Polluted by Mining—Metallurgical Activities
Abstract A permanent solution in order to remediate a heavily contaminated soil is washing it utilizing the appropriate reagents. The study presented in this paper deals with the washing of a soil highly polluted by mining and metallurgical activities. Pollution consists of slags, sulphur compound waste and various low grade lead condensates, all rich in heavy metals and metalloids (Pb, As, Cu, Zn, Mn and Fe). Soil was washed with deionized water, 6, 3, 2 and 1 M HCl, 6 M H 2 SO 4 , 6 M HNO 3 and 0.1 M Na 2 EDTA. High extraction efficiency was achieved with respect to hydrochloric acid even at the lowest concentration; the solubility of pollutants in nitric acid was low, while sulphuric acid was proven to be problematic with respect to lead. Mobilization of metals and metalloids under DI water effect was minimal indicating that the elements fraction that is weakly bound to soil particles is insignificant. Furthermore, a kinetic study was undertaken, utilizing 1 M HCl and 0.1 M Na 2 EDTA. Results illustrated that 1 M HCl was more effective for intermediate mixing times (up to 4 h) while 0.1 M Na 2 EDTA was better applicable to short mixing times (<1 h) and low pH values (pH < 7.1). 1 M HCl was proven to be very effective for the removal of pollutants from contaminated soil but the high metal content of the resulting solution necessitates further treatment for the retention of metals
Washing as a remediation technology applicable in soils heavily polluted by mining-metallurgical activities
Abstract A permanent solution in order to remediate a heavily contaminated soil is washing it utilizing the appropriate reagents. The study presented in this paper deals with the washing of a soil highly polluted by mining and metallurgical activities. Pollution consists of slags, sulphur compound waste and various low grade lead condensates, all rich in heavy metals and metalloids (Pb, As, Cu, Zn, Mn and Fe). Soil was washed with deionized water, 6, 3, 2 and 1 M HCl, 6 M H 2 SO 4 , 6 M HNO 3 and 0.1 M Na 2 EDTA. High extraction efficiency was achieved with respect to hydrochloric acid even at the lowest concentration; the solubility of pollutants in nitric acid was low, while sulphuric acid was proven to be problematic with respect to lead. Mobilization of metals and metalloids under DI water effect was minimal indicating that the elements fraction that is weakly bound to soil particles is insignificant. Furthermore, a kinetic study was undertaken, utilizing 1 M HCl and 0.1 M Na 2 EDTA. Results illustrated that 1 M HCl was more effective for intermediate mixing times (up to 4 h) while 0.1 M Na 2 EDTA was better applicable to short mixing times (<1 h) and low pH values (pH < 7.1). 1 M HCl was proven to be very effective for the removal of pollutants from contaminated soil but the high metal content of the resulting solution necessitates further treatment for the retention of metals
Nanobased coatings with improved NIR reflecting properties for building envelope materials: development and natural aging effect measurement
A significant contribution to the reduction of the Urban Heat Island effect and cooling energy demand is
given today by the so called cool materials for the building envelope with enhanced reflecting and emitting
properties. The present study shows some preliminary results of the EU project COOL-Coverings aiming
at developing innovative nanobased coatings with improved Near InfraRed reflecting capabilities. The
key idea is to work on a nanoscale by tuning the crystal size and distribution of selected nanostructured
oxides. Cool prototypes of brown colored ceramic tiles and green acrylic paints have been developed and
compared to conventional ones showing an improvement in solar reflectance without any perceptual difference
in color. The material characterization has been based on the measurement of spectral reflectance
on a wide wavelength range (300–2200 nm) using a UV/Vis/NIR spectrophotometer. In parallel with the
development of nanostructured cool materials, natural aging tests on ceramic and painted concrete tiles
have been performed with the goal of identifying and measuring the effects of the main aging factors
affecting reflective properties. A significant drop of solar reflectance for paints has been noticed from
the very beginning of the testing period while ceramic tiles have confirmed excellent resistance to weathering.
However, both for paints and tiles the effect of soiling cannot be neglected and, if combined to
weathering, it can lead to a solar reflectance reduction as high as 10%. This preliminary study will pave
the way to a future development of dedicated accelerated aging testing procedures for cool materials