A method for analysis of nuisance dust from integrated steel works: chemical and mineralogical characteristics of contributing sources

James A. Small (Corresponding author), Corrie J.G. van Hoek, Katrin Schollbach, Elmira Moosavi-Khoonsari, Frank J. L. van der Does, Stefan Melzer, Tako P.R. de Jong, Tilly de Bie, Rob A. Versfeld, Michiel de Roo, Sieger van der Laan (Corresponding author)

Onderzoeksoutput: Bijdrage aan tijdschriftTijdschriftartikelAcademicpeer review

Samenvatting

Background:Integrated steelmaking is known to emit coarse airborne ‘nuisance’ dust (10–100 μm) to the produc‑tion site and in the local environs. We present a method to quantitatively analyse the provenance, mineralogical and chemical attributes of the constituent particles in nuisance dust related to the integrated steelworks of Tata Steel, IJmuiden, the Netherlands. The dust is characterised per particle, using scanning electron microscopy with energy‑dispersive spectrometry (SEM–EDS) microanalysis, and in bulk with quantitative X‑ray diffraction (XRD) analysis. Based on mineralogical characteristics, particles in the dust are sorted into populations that can be related in detail to industrial processes and subsequent atmospheric weathering influence. The method is illustrated by application to a nuisance dust complaint sample from the neighbouring town Wijk aan Zee containing a large contribution of several dust sources from the integrated steelworks.Results:Besides a background contribution from urban and natural dust, diverse sources from the integrated steel‑works are identified in the nuisance dust sample, derived from coke‑making, iron‑ore agglomeration processes and blast furnace ironmaking, steelmaking slag processing, process fluxes, as well as steelmaking refractory materials. The most voluminous of these in the sample are directly verified by comparison with a set of reference source materi‑als. The abundances, mineralogical and chemical attributes of the various dust particle populations in the sample are quantitatively examined including, specifically, the occurrence of the potentially toxic elements Mn and V. These elements occur with highest concentrations in dust derived from steelmaking converter slag: V is housed in dilute form (solid solution) in the phases di‑calcium silicate and brownmillerite, and Mn chiefly in Mg–Fe‑oxide (Mg‑wustite ((Mg,Mn,Fe)O) and its oxidation product ((Mg,Mn,Fe)(Fe,Mn)2O4)).Conclusions:By treating nuisance dust as a particulate, multi‑phase, multi‑source material, the outlined method pro‑vides crucial information for toxicological evaluation and for mitigation of emissions, which is not obtainable by bulk chemical analyses alone. It also helps address the lack of adequate monitoring options for deposits of nuisance dust from integrated steel production, necessary to evaluate the relationship between deposition and monitored emis‑sions that are regulated by the European Industrial Emissions Directive and by local permits based on this legislation.
Originele taal-2Engels
Artikelnummer135
Aantal pagina's30
TijdschriftEnvironmental Sciences Europe
Volume32
DOI's
StatusGepubliceerd - 1 dec 2020

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