Open AccessSynthesis of -Al2O3 Catalyst Support from Kaolin of Indonesian Origin
Author(s) -
Tjokorde Walmiki Samadhi,
Subagjo Subagjo,
Kevin R. Lismana,
Khasin Fuadi
Publication year - 2011
Publication title -
itb journal of engineering science
Language(s) - English
Resource type - Journals
ISSN - 1978-3051
DOI - 10.5614/itbj.eng.sci.2011.43.2.3
Subject(s) - metakaolin , calcination , potassium hydroxide , materials science , raw material , hydrodesulfurization , extraction (chemistry) , metallurgy , catalysis , specific surface area , chemical engineering , mineralogy , nuclear chemistry , chemistry , chromatography , sulfur , organic chemistry , cement , engineering
Kaolin has been identified as a potential raw material for the production of g-Al2O3 for hydrotreating catalyst support. This work explores the technical feasibility of applying the potassium hydroxide (KOH) extraction synthesis route on kaolin from the Belitung Island in Indonesia. The application of a published synthesis method to Belitung kaolin requires an approximately twofold increase in kaolin calcination time, an increase in kaolin calcination temperature from 950 to 1000oC, and a tenfold increase in metakaolin extraction time, to obtain a specific surface area higher than 200 m2/g. The highest specific surface area of 233 m2/g was obtained when the kaolin was calcined at 1000oC for 24 hours, and the metakaolin was extracted by concentrated KOH solution for 12 hours. Phase characterization of the final product confirmed the formation of g-Al2O3, but with the inclusion of low-surface area a-Al2O3 phase
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