A speciation method of inorganic Nickel compounds in airborne particulate, based on selective sequential extractions, is described. It allows the separation and the determination of Ni (0), Ni (II) soluble salts such as sulphate and chloride, Ni insoluble compounds such as nickel oxide and sulfide, to which a different toxicity and therefore a different risk are related. The nickel concentration in each fraction was determined by Flame or Furnace Atomic Absorption Spectroscopy. The proposed procedure has been tested first, on synthetic samples prepared with the different nickel compounds, in the presence of atmospherical particulate matter not containing nickel, in order to take into account the possible matrix influence. The speciation was then repeated on four different samples (fly ash deriving from a solid waste incinerator and three RSMS from NIST: Coal Fly ash SRM 1633b, Urban Particulate 1648, Washington Dust 1649), followed by an evaluation of matrix spiking and recovery analyses. Performing multiple analyses of the spiked samples assessed the repeatability of the procedure.

Determination of Inorganic Nickel Compounds in the Particulate matter of Emissions and Workplace Air by Selective Sequential Dissolutions

PROFUMO, ANTONELLA;SPINI, GIOVANNI;CUCCA, LUCIA;PESAVENTO, MARIA
2003-01-01

Abstract

A speciation method of inorganic Nickel compounds in airborne particulate, based on selective sequential extractions, is described. It allows the separation and the determination of Ni (0), Ni (II) soluble salts such as sulphate and chloride, Ni insoluble compounds such as nickel oxide and sulfide, to which a different toxicity and therefore a different risk are related. The nickel concentration in each fraction was determined by Flame or Furnace Atomic Absorption Spectroscopy. The proposed procedure has been tested first, on synthetic samples prepared with the different nickel compounds, in the presence of atmospherical particulate matter not containing nickel, in order to take into account the possible matrix influence. The speciation was then repeated on four different samples (fly ash deriving from a solid waste incinerator and three RSMS from NIST: Coal Fly ash SRM 1633b, Urban Particulate 1648, Washington Dust 1649), followed by an evaluation of matrix spiking and recovery analyses. Performing multiple analyses of the spiked samples assessed the repeatability of the procedure.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11571/17416
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