Mineral and Heavy Metal Composition of Oil Shale Ash from Oxyfuel Combustion

Alar Konist; Dmitri Neshumayev; Zachariah S Baird; Edward J Anthony; Marek Maasikmets; Oliver Järvik

doi:10.1021/acsomega.0c04466

Mineral and Heavy Metal Composition of Oil Shale Ash from Oxyfuel Combustion

ACS Omega. 2020 Dec 11;5(50):32498-32506. doi: 10.1021/acsomega.0c04466. eCollection 2020 Dec 22.

Authors

Alar Konist¹, Dmitri Neshumayev¹, Zachariah S Baird¹, Edward J Anthony², Marek Maasikmets³, Oliver Järvik¹

Affiliations

¹ Tallinn University of Technology, Tallinn 19086, Estonia.
² University of Ottawa, Ottawa K1N 6N5, Canada.
³ Estonian Environmental Research Centre, Tallinn 10617, Estonia.

Abstract

Oxyfuel combustion can reduce CO₂ emissions from fossil fuels. Hence, it is currently being investigated for potential use in oil shale-fired power plants, which currently produce most of Estonia's electricity. Here, experiments were performed with kukersite oil shale for both oxyfuel and conventional combustion in a 60 kW_th circulating fluidized bed combustor. In this paper, we provide data on the ash composition including mineral compositions and heavy metal concentrations. Oxyfuel conditions did not noticeably influence the concentrations of heavy metals in the ash but did have significantly lower amounts of free lime because of inhibition of the carbonate decomposition reactions. The results suggest that oxyfuel combustion would produce no significant problems in terms of the behavior of the ash or the fate of heavy metals contained in the ash.