The Effect of Reductor Type in Thermal Upgrading of Limonite

Fathan Bahfie; Azwar Manaf; Widi Astuti; Fajar Nurjaman; Erik Prasetyo

doi:10.4028/p-VV7TWw

The Effect of Reductor Type in Thermal Upgrading of Limonite

Fathan Bahfie, Azwar Manaf, Widi Astuti, Fajar Nurjaman, Erik Prasetyo

Department of Physics

Research output: Chapter in Book/Report/Conference proceeding › Chapter › peer-review

1 Citation (Scopus)

Abstract

Thermal upgrading is the process for nickel extraction in selective reduction with holding temperature in low (300-500^o C). The effect and type of reductor are the main factor during this process. With those factors, this research will be finding the variation of reductor type. The first step is limonite and reductor characterization. Ni, Fe, Mg, Al, and Si levels in limonite are 1.4 Ni, 50.5 Fe, 1.81 Al, 4.86 Mg, and 16.5 Si weight percent, respectively. The iron oxide/oxyhydroxide content of limonite is 94.4 percent and 5.6 percent silicate. For reductor, those are graphite, palm kernel shell, and anthracite with carbon percentage 98, 77, and 68 %. From XRF, the optimum nickel grade is in the graphite and anthracite with 6.5 and 7 wt%. For phases, the ferronickel is appearing in the high intensity for the optimum reductor type and the microstructure is around 5-10 um for both. Moreover, the optimum reductor type are graphite and anthracite.

Original language	English
Title of host publication	Materials Science Forum
Publisher	Trans Tech Publications Ltd
Pages	131-137
Number of pages	7
DOIs	https://doi.org/10.4028/p-VV7TWw
Publication status	Published - 2023

Publication series

Name	Materials Science Forum
Volume	1098
ISSN (Print)	0255-5476
ISSN (Electronic)	1662-9752

Keywords

limonite
microstructure
phase
reductor type
thermal upgrading

Access to Document

10.4028/p-VV7TWw

Cite this

@inbook{93cc421f93e94d559bcfb85e5d5ae4ba,

title = "The Effect of Reductor Type in Thermal Upgrading of Limonite",

abstract = "Thermal upgrading is the process for nickel extraction in selective reduction with holding temperature in low (300-500o C). The effect and type of reductor are the main factor during this process. With those factors, this research will be finding the variation of reductor type. The first step is limonite and reductor characterization. Ni, Fe, Mg, Al, and Si levels in limonite are 1.4 Ni, 50.5 Fe, 1.81 Al, 4.86 Mg, and 16.5 Si weight percent, respectively. The iron oxide/oxyhydroxide content of limonite is 94.4 percent and 5.6 percent silicate. For reductor, those are graphite, palm kernel shell, and anthracite with carbon percentage 98, 77, and 68 %. From XRF, the optimum nickel grade is in the graphite and anthracite with 6.5 and 7 wt%. For phases, the ferronickel is appearing in the high intensity for the optimum reductor type and the microstructure is around 5-10 um for both. Moreover, the optimum reductor type are graphite and anthracite.",

keywords = "limonite, microstructure, phase, reductor type, thermal upgrading",

author = "Fathan Bahfie and Azwar Manaf and Widi Astuti and Fajar Nurjaman and Erik Prasetyo",

note = "Publisher Copyright: {\textcopyright} 2023 Trans Tech Publications Ltd, Switzerland.",

year = "2023",

doi = "10.4028/p-VV7TWw",

language = "English",

series = "Materials Science Forum",

publisher = "Trans Tech Publications Ltd",

pages = "131--137",

booktitle = "Materials Science Forum",

}

TY - CHAP

T1 - The Effect of Reductor Type in Thermal Upgrading of Limonite

AU - Bahfie, Fathan

AU - Manaf, Azwar

AU - Astuti, Widi

AU - Nurjaman, Fajar

AU - Prasetyo, Erik

PY - 2023

Y1 - 2023

N2 - Thermal upgrading is the process for nickel extraction in selective reduction with holding temperature in low (300-500o C). The effect and type of reductor are the main factor during this process. With those factors, this research will be finding the variation of reductor type. The first step is limonite and reductor characterization. Ni, Fe, Mg, Al, and Si levels in limonite are 1.4 Ni, 50.5 Fe, 1.81 Al, 4.86 Mg, and 16.5 Si weight percent, respectively. The iron oxide/oxyhydroxide content of limonite is 94.4 percent and 5.6 percent silicate. For reductor, those are graphite, palm kernel shell, and anthracite with carbon percentage 98, 77, and 68 %. From XRF, the optimum nickel grade is in the graphite and anthracite with 6.5 and 7 wt%. For phases, the ferronickel is appearing in the high intensity for the optimum reductor type and the microstructure is around 5-10 um for both. Moreover, the optimum reductor type are graphite and anthracite.

AB - Thermal upgrading is the process for nickel extraction in selective reduction with holding temperature in low (300-500o C). The effect and type of reductor are the main factor during this process. With those factors, this research will be finding the variation of reductor type. The first step is limonite and reductor characterization. Ni, Fe, Mg, Al, and Si levels in limonite are 1.4 Ni, 50.5 Fe, 1.81 Al, 4.86 Mg, and 16.5 Si weight percent, respectively. The iron oxide/oxyhydroxide content of limonite is 94.4 percent and 5.6 percent silicate. For reductor, those are graphite, palm kernel shell, and anthracite with carbon percentage 98, 77, and 68 %. From XRF, the optimum nickel grade is in the graphite and anthracite with 6.5 and 7 wt%. For phases, the ferronickel is appearing in the high intensity for the optimum reductor type and the microstructure is around 5-10 um for both. Moreover, the optimum reductor type are graphite and anthracite.

KW - limonite

KW - microstructure

KW - phase

KW - reductor type

KW - thermal upgrading

UR - http://www.scopus.com/inward/record.url?scp=85209664014&partnerID=8YFLogxK

U2 - 10.4028/p-VV7TWw

DO - 10.4028/p-VV7TWw

M3 - Chapter

AN - SCOPUS:85209664014

T3 - Materials Science Forum

SP - 131

EP - 137

BT - Materials Science Forum

PB - Trans Tech Publications Ltd

ER -

The Effect of Reductor Type in Thermal Upgrading of Limonite

Abstract

Publication series

Keywords

Access to Document

Other files and links

Fingerprint

Cite this