Organic Sulfur Reduction on Lignite Coal Using Multistage Artificial Biotreatment (A-Bmt)

This study focuses on the biodesulfurization of lignite specifically the reduction of organic sulfur, namely aliphatic mercaptans/thiols via bioprocess methods. The process was conducted by using multistage artificial biotreatment (A-Bmt) and Pseudoclavibacter sp. SKC/XLW-1 strains as biocatalysts....

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Veröffentlicht in:	Advanced Materials Research 2015-11, Vol.1130, p.524-528
Hauptverfasser:	Handayani, Ismi, Soepriyanto, Syoni, Paisal, Yustin, Chaerun, Siti Khodijah
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Sprache:	eng
Schlagworte:	Coal Lignite Macerals Mercaptans Multistage Recovery Reduction Sulfur
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container_title	Advanced Materials Research
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creator	Handayani, Ismi Soepriyanto, Syoni Paisal, Yustin Chaerun, Siti Khodijah
description	This study focuses on the biodesulfurization of lignite specifically the reduction of organic sulfur, namely aliphatic mercaptans/thiols via bioprocess methods. The process was conducted by using multistage artificial biotreatment (A-Bmt) and Pseudoclavibacter sp. SKC/XLW-1 strains as biocatalysts. The aims are to improve the recovery of clean coal by reducing the organic sulfur both in nodules and globular forms on the maceral surface during the stage of coal biooxidation prior to column bioflotation stage, in which it is still possible to achieve higher recovery of fine coal grains without sulphide mineral. The results shows that the A-Bmt method carried out through biooxidation stage followed by column bioflotation stage has better performance compared to the method without biooxidation stage. The results of this study show that the content of organic sulfur are lower by 25%.
doi_str_mv	10.4028/www.scientific.net/AMR.1130.524
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subjects	Coal Lignite Macerals Mercaptans Multistage Recovery Reduction Sulfur
title	Organic Sulfur Reduction on Lignite Coal Using Multistage Artificial Biotreatment (A-Bmt)
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