Mineralogical behaviour of North Dakota lignite in an oxygen/steam blown moving bed reactor
Abstract
In this study, lignite fromNorth Dakota (USA)was thermally treated in a commercial-scale oxygen/steamblown
moving bed reactor at the Dakota Gasification Conpany (DGC) in order to identify mineralogical changes that
occur during the conversion process. After reaction, the solid particulate remnants were extracted from the
reactor reaction zones and characterised using XRD, CCSEM and SEMPC techniques. It was found that the feed
coal mineralization was mainly dominated by organically bound calcium. On the other hand, the crystalline
phases present in the hottest regions of the reactor were governed by gehlenite and bredigite which may have
formed from the transformation, (at higher temperatures), of the organically bound Ca and Mg to form CaO
and MgO and subsequent interaction with the reactive silica and transformation products of the clays. A significant
amount of calcitewas found to develop at the start of the reduction zone; it is suggested that the calcitewas
synthesised fromthe reaction of CaO (formed fromthe transformation of the organically bound Ca)with the CO2
from the product gas in the reactor, in agreementwith the literature. The glass phase was found to constitute the
major part of the ash mineral assemblage in the reduction and combustion zones of the reactor. This phase was
composed mainly of the Ca, Mg, Na aluminosilicates with some Fe. There was therefore a significant amount of
melting that occurred in the hotter reaction zones (i.e. reduction and combustion zones) of the reactor. The
organically bound Ca, Mg and Na seemed to have played a significant role in the formation of this glass phase.
URI
http://hdl.handle.net/10394/13873https://www.sciencedirect.com/science/article/pii/S0378382012003311
https://doi.org/10.1016/j.fuproc.2012.09.015
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