%0 Journal Article
%T An Experimental Study of the Performance of Isomorphically Zirconium-Substituted Mesoporous Alumina Supported Cobalt Catalysts in Fischer-Tropsch Synthesis
%A Sabar Simanungkalit
%A Mingming Zhu
%A Gia Hung Pham
%A Zhezi Zhang
%A Dongke Zhang
%J Advances in Chemical Engineering and Science
%P 40-53
%@ 2160-0406
%D 2022
%I Scientific Research Publishing
%R 10.4236/aces.2022.121004
%X A series
of mesoporous alumina (MA) supported cobalt (Co/MA) catalysts with MA
isomorphically substituted by zirconium (Zr) were synthesised and evaluated for
their performance in the Fischer</span><span style=\"font-family:Verdana;\">-</span><span style=\"font-family:&quot;\"><span style=\"font-family:Verdana;\">Tropsch
synthesis. The Zr/(Zr + Al) atomic ratios varied from 1% - 15%. A
zirconium-impregnated Co/MA catalyst prepared by wet impregnation with a Zr/(Zr
+ Al) atomic ratio of 5% was also evaluated to examine Zr incorporation¡¯s
effect method. The catalysts synthesised were characterised using N</span><sub><span style=\"font-family:Verdana;\">2</span></sub><span style=\"font-family:Verdana;\"> adsorption-desorption, X-ray Powder Diffraction (XRD), Transmission Electron
Microscopy (TEM), and X-Ray Photoelectron Spectroscopy (XPS). It was found that
Zr</span><sup><span style=\"font-family:Verdana;\">4+</span></sup><span style=\"font-family:Verdana;\"> ions were incorporated into the framework of MA and kept intact
up to a Zr/(Zr + Al) atomic ratio of 5%. The cobalt dispersion and reducibility
were improved as the Zr/(Zr + Al) atomic ratio increased to 50%. The
performance of these catalysts for Fischer</span></span><span style=\"font-family:Verdana;\">-</span><span style=\"font-family:&quot;\"><span style=\"font-family:Verdana;\">Tropsch
synthesis was evaluated using a fixed bed reactor at temperature and pressure
of 493 K and 20 bar, respectively. The feed syngas </span><span><span style=\"font-family:Verdana;\">had an H</span><sub><span style=\"font-family:Verdana;\">2</span></sub><span style=\"font-family:Verdana;\">/CO ratio of 2, diluted with 10% Ar. For
isomorphically</span></span><span style=\"font-family:Verdana;\"> Zr-substituted Co/MA, the CO conversion and selectivity
of diesel (C</span><sub><span style=\"font-family:Verdana;\">10</span></sub><span style=\"font-family:Verdana;\"> - C</span><sub><span style=\"font-family:Verdana;\">20</span></sub><span style=\"font-family:Verdana;\">) increased first and then decreased with
increasing the Zr/(Zr + Al) atomic ratio. The maximum 38.9% CO conversion and
34.6% diesel (C</span><sub><span style=\"font-family:Verdana;\">10</span></sub><span style=\"font-family:Verdana;\"> - C</span><sub><span style=\"font-family:Verdana;\">20</span></sub><span style=\"font-family:Verdana;\">) selectivity were obtained at
Zr/(Zr + Al) atomic ratio of 5%. The isomorphic substitution method was better
than the wet impregnation method in CO conversion and diesel selectivity.
%K Cobalt Catalyst
%K Fischer-Tropsch Synthesis
%K Isomorphic Substitution
%K Mesoporous Alumina
%K Zirconium
%U http://www.scirp.org/journal/PaperInformation.aspx?PaperID=114577