Selenium Contamination in Water. Группа авторов

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Selenium Contamination in Water - Группа авторов


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5000c,f

      a WHO (2005).

      b National Academy of Science (NAS) (2000).

      c Thomson (2003).

      d Thomson (2004).

      e Keshan disease area.

      f Seleniferous area.

      g Data not available.

      Selenium is the 34th element and is placed in the VIA (or 16th) group of periodic table following the order O, S, Se, Te, Po, and Lv, within the group. Chemical properties of Se are analogous to those of sulfur and it mainly shows following oxidation states selenide (−2), elemental selenium (0), selenite (+4), and selenate (+6). Se occurs in minerals, for example pyrites, where it replaces sulfur partially and also form compounds with other elements (Butterman and Brown 2004).

      Se exists in allotropic forms either in amorphous form or any of the three crystalline forms viz., α‐monoclinic, β‐monoclinic, and hexagonal forms (National Research Council 1983). Amorphous Se is red in color (Jovari et al. 2003) and its viscosity is highly dependent on temperature. At 230 °C it is a free‐flowing liquid and on reducing the temperature up to 80 °C its viscosity increases and it forms polymeric chains. However, on further reducing the temperature there is a decrease in its viscosity and it forms ring‐shaped aggregates. It forms Se8 rings and has deep red color in its monoclinic crystalline form. The shape of α‐monoclinic Se is flat hexagonal and polygonal crystals while it has needle like shape in β‐monoclinic crystalline form. Hexagonal crystalline form with spiral Se chains is the most stable form of Se and is gray in color. Monoclinic crystalline and amorphous forms are transformed into hexagonal form at temperature >110 and 70–210 °C, respectively. The variation of its physical properties with its allotropic form has been reviewed in detail by Crystal (1972) and Chizhikov and Shchastlivyi (1968).

      Since lithosphere, hydrosphere, atmosphere, and biosphere are the integrated components of environment, as a result it is indispensable to understand the cycling of Se in soil, water, and air. During volcanic eruption, at high temperature Se and S vaporize to gaseous form. On cooling, Se condenses and forms a layer over ionized micro‐particulate of atmosphere that eventually precipitates with rainfall and appends to the rocks and/or enters to the water bodies. In several research papers the abundance/concentration of Se is reported in different terms that includes: weight by weight: microgram per gram (μg/g) or (mg/kg) is equivalent to parts per million (ppm); and weight by volume: microgram per liter (μg/l) = 1 ppb Se), here in this chapter μg/g and μg/l units are used throughout. In the earth's crust the average abundance of Se is ~0.09 μg/g (Lakin 1972)


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