Abstract

An examination has been made of the changes taking place in the mineral and other inorganic matter contained in two Australian brown coals as a result of hydroliquefaction of the coal in tetralin and hydrogen at 25 MPa and 395 °C. Iron sulphides were found to be reduced to pyrrhotite, whereas iron carboxylates decomposed mainly to magnetite. Calcium carboxylates formed predominantly vaterite, whereas when coals were subjected to low-temperature ashing calcite was formed. Amorphous tin oxide, precipitated onto the coal by hydrolysis of stannous chloride solution, was largely reduced during hydrogenation to liquid tin, some of which reacted with hydrogen sulphide to form herzenbergite.

Talk to us

Join us for a 30 min session where you can share your feedback and ask us any queries you have

Schedule a call

Similar Papers

Paper Title
Journal
Date
Author
Studies of angiospermous woods in Australian brown coal by nuclear magnetic resonance and analytical pyrolysis: new insight into early coalification
P.G Hatcher ... H.E Lerch
International Journal of Coal Geology | VOL. 16
P.G Hatcher, et. al.P.G Hatcher ... H.E Lerch
01 Dec 1990
Studies of angiospermous wood in Australian brown coal by nuclear magnetic resonance and analytical pyrolysis: new insights into the early coalification process
Patrick G Hatcher ... Harry E Lerch
International Journal of Coal Geology | VOL. 13
Patrick G Hatcher, et. al.Patrick G Hatcher ... Harry E Lerch
01 Jul 1989
Hydrous pyrolysis reactions of sulphur in three Australian brown coals
Song Zhiguang ... John W Smith
Organic Geochemistry | VOL. 29
Song Zhiguang, et. al.Song Zhiguang ... John W Smith
01 Nov 1998
Inorganic matter in Victorian brown coals
Mihaela Grigore ... Richard Sakurovs
International Journal of Coal Geology | VOL. 154-155
Mihaela Grigore, et. al.Mihaela Grigore ... Richard Sakurovs
01 Jan 2015
View more papers

More From: Fuel

Paper Title
Journal
Date
Author
Electron modulation strategy of heterogeneous Ni2P/FeP coupled with CeO2 for efficient overall water splitting
Zefa Qin ... Meilong Hu
Fuel | VOL. 384
Zefa Qin, et. al.Zefa Qin ... Meilong Hu
04 Dec 2024
Advancing cryogenic carbon capture technology through understanding the CO2 frosting crystallization mechanism
Hengguang Cao ... Jiang Bian
Fuel | VOL. 384
Hengguang Cao, et. al.Hengguang Cao ... Jiang Bian
04 Dec 2024
In-situ bond conversion strategy to construct Pt/1T-MoS2 heterojunctions by MOF-confinement for hydrogen evolution reaction in wide-pH-value water and seawater
Haoyuan Hao ... Changle Yue
Fuel | VOL. 384
Haoyuan Hao, et. al.Haoyuan Hao ... Changle Yue
04 Dec 2024
Effectively enhanced hydrogen storage properties of Mg90Al10 catalyzed by CeF3
Mengran Li ... Zhixin Ba
Fuel | VOL. 384
Mengran Li, et. al.Mengran Li ... Zhixin Ba
03 Dec 2024
View more papers

Disclaimer: All third-party content on this website/platform is and will remain the property of their respective owners and is provided on "as is" basis without any warranties, express or implied. Use of third-party content does not indicate any affiliation, sponsorship with or endorsement by them. Any references to third-party content is to identify the corresponding services and shall be considered fair use under The CopyrightLaw.