FISCHER-TROPSCH SYNTHESIS: EFFECT OF TEMPERATURE AND IRON-COBALT RATIO IN Fe-Co/meso-HZSM-5 CATALYST ON LIQUID PRODUCT DISTRIBUTION

Jimmy, Jimmy and Endah Kusuma, Rastini and Aman, Santoso (2024) FISCHER-TROPSCH SYNTHESIS: EFFECT OF TEMPERATURE AND IRON-COBALT RATIO IN Fe-Co/meso-HZSM-5 CATALYST ON LIQUID PRODUCT DISTRIBUTION. EUREKA: Physics and Engineering (2). pp. 13-20. ISSN 2461-4262

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Abstract

The Fischer-Tropsch synthesis converted hydrogen and carbon monoxide into linear hydrocarbons as liquid fuel. Iron and co�balt were used as polymerization catalyst, that impregnated on HZSM-5. The Fe-Co/HZSM-5 could be applied as bifunction catalyst which combined polymerizing synthesis gas and long chain hydrocarbon cracking for making biofuel. The objective of this study is observing the effect of temperature and composition of iron and cobalt combination, supported by HSZM-5 (Fe-Co/HZSM-5) cata�lyst on fuel product composition. The results obtained from this study would be used to find optimum condition for various iron and cobalt ratio in the catalyst. The mesoHZSM-5 was prepared from ammonium ZSM-5 over calcination, desilication, and dispersion. The mixed solution consisted of Co(NO3)2.6H2O and Fe(NO3)3.9H2O were used as precursor for incipient wetness impregnation on HZSM-5. The catalyst performance was observed in a continuous fixed bed reactor using Fe-Co/meso-HZSM-5 catalyst with synthesis gas at various composition iron and cobalt ratio (10–40 % wt. Fe in Co), various temperature (225–275 °C) at 20 bars. All catalysts were reduced in situ in the reactor. The 10Fe-90Co/mesoHZSM-5 catalyst was more suitable for FTS at 250 °C with alkane (20.49 %) as the main product and alcohol as the by-product (79.51 %). The others catalysts composition of 20–40 % Fe (by weight) in Fe-Co were more suitable for FTS at 225–250°C because under these conditions, alkanes as the main product were obtained in relatively higher compositions compared to other compounds. The mechanism of paraffins, olefins, aldehydes and alco�hols formation in this FTS reaction followed the hydrogen assisted CO dissociation with CO-insertion mechanism.

Item Type:	Article
Uncontrolled Keywords:	synthesis gas, catalyst, zeolite, HZSM-5, iron-cobalt, biofuel, temperature, fixed-bed reactor, Fischer-Tropsch.
Subjects:	Engineering > Chemical Engineering
Divisions:	Fakultas Teknologi Industri > Teknik Kimia S1
Depositing User:	Mr Sayekti Aditya Endra
Date Deposited:	13 May 2024 06:28
Last Modified:	14 May 2024 03:01
URI:	http://eprints.itn.ac.id/id/eprint/14525

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