Ash analyses of bio-coal briquettes produced using blended binder

Ash analyses of bio-coal briquettes produced using blended binder

Abstract The behaviour of ash of fuel affects its thermal efficiency when in use. The ash analyses of bio-coal briquettes developed from lean grade coal and torrefied woody biomass have received limited intensive study. Therefore, the present study aims at analysing the ashes of briquette made from...

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Main Authors: A. A. Adeleke, J. K. Odusote, P. P. Ikubanni, T. A. Orhadahwe, O. A. Lasode, A. Ammasi, K. Kumar
Format: Article
Language:English
Published: Nature Publishing Group 2021-01-01
Series:Scientific Reports
Online Access:https://doi.org/10.1038/s41598-020-79510-9
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spelling doaj-ea901be4a8284216b45c637cb96ee2b42021-01-17T12:30:51ZengNature Publishing GroupScientific Reports2045-23222021-01-011111910.1038/s41598-020-79510-9Ash analyses of bio-coal briquettes produced using blended binderA. A. Adeleke0J. K. Odusote1P. P. Ikubanni2T. A. Orhadahwe3O. A. Lasode4A. Ammasi5K. Kumar6Department of Mechanical Engineering, Landmark UniversityDepartment of Materials and Metallurgical Engineering, University of IlorinDepartment of Mechanical Engineering, Landmark UniversityDepartment of Mechanical Engineering, University of IbadanDepartment of Mechanical Engineering, University of IlorinMetal Extraction and Recycling Division, National Metallurgical LaboratoryMetal Extraction and Recycling Division, National Metallurgical LaboratoryAbstract The behaviour of ash of fuel affects its thermal efficiency when in use. The ash analyses of bio-coal briquettes developed from lean grade coal and torrefied woody biomass have received limited intensive study. Therefore, the present study aims at analysing the ashes of briquette made from lean grade coal and torrefied woody biomass using blended coal tar pitch and molasses as the binder. Bio-coal briquettes were produced from coal and torrefied biomass in various hybrid ratios. Ashing of various briquettes was done in a muffle furnace at 850 °C for 3 h. Mineral phases of the ash were identified using an X-ray Diffractometer (XRD), while the mineral oxides were obtained using an X-ray Fluorescence Spectrometer. The AFT700 Furnace was used with its AFT700 software to evaluate the ash fusion temperatures of the ashes. The XRD patterns look similar, and quartz was found to be the dominant mineral phase present in the raw coal and bio-coal briquettes. The SiO2 (57–58%), Al2O3 (19–21%), and Fe2O3 (8–9%) were the major oxides observed in the ashes. The final fusion temperatures of the ashes range from 1300–1350 °C. The compositions of the ashes of the bio-coal briquettes are classified as detrital minerals. It was concluded that the addition of torrefied biomass (≤  $$10\%)$$ 10 % ) and blended binder ( $$\le $$ ≤ 15%) to coal gave a negligible impact on the ashes of the resultant bio-coal briquettes.https://doi.org/10.1038/s41598-020-79510-9
collection DOAJ
language English
format Article
sources DOAJ
author A. A. Adeleke
J. K. Odusote
P. P. Ikubanni
T. A. Orhadahwe
O. A. Lasode
A. Ammasi
K. Kumar
spellingShingle A. A. Adeleke
J. K. Odusote
P. P. Ikubanni
T. A. Orhadahwe
O. A. Lasode
A. Ammasi
K. Kumar
Ash analyses of bio-coal briquettes produced using blended binder
Scientific Reports
author_facet A. A. Adeleke
J. K. Odusote
P. P. Ikubanni
T. A. Orhadahwe
O. A. Lasode
A. Ammasi
K. Kumar
author_sort A. A. Adeleke
title Ash analyses of bio-coal briquettes produced using blended binder
title_short Ash analyses of bio-coal briquettes produced using blended binder
title_full Ash analyses of bio-coal briquettes produced using blended binder
title_fullStr Ash analyses of bio-coal briquettes produced using blended binder
title_full_unstemmed Ash analyses of bio-coal briquettes produced using blended binder
title_sort ash analyses of bio-coal briquettes produced using blended binder
publisher Nature Publishing Group
series Scientific Reports
issn 2045-2322
publishDate 2021-01-01
description Abstract The behaviour of ash of fuel affects its thermal efficiency when in use. The ash analyses of bio-coal briquettes developed from lean grade coal and torrefied woody biomass have received limited intensive study. Therefore, the present study aims at analysing the ashes of briquette made from lean grade coal and torrefied woody biomass using blended coal tar pitch and molasses as the binder. Bio-coal briquettes were produced from coal and torrefied biomass in various hybrid ratios. Ashing of various briquettes was done in a muffle furnace at 850 °C for 3 h. Mineral phases of the ash were identified using an X-ray Diffractometer (XRD), while the mineral oxides were obtained using an X-ray Fluorescence Spectrometer. The AFT700 Furnace was used with its AFT700 software to evaluate the ash fusion temperatures of the ashes. The XRD patterns look similar, and quartz was found to be the dominant mineral phase present in the raw coal and bio-coal briquettes. The SiO2 (57–58%), Al2O3 (19–21%), and Fe2O3 (8–9%) were the major oxides observed in the ashes. The final fusion temperatures of the ashes range from 1300–1350 °C. The compositions of the ashes of the bio-coal briquettes are classified as detrital minerals. It was concluded that the addition of torrefied biomass (≤  $$10\%)$$ 10 % ) and blended binder ( $$\le $$ ≤ 15%) to coal gave a negligible impact on the ashes of the resultant bio-coal briquettes.
url https://doi.org/10.1038/s41598-020-79510-9
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