Abstract
Diisopropyl ether (DIPE) was synthesised in a single step from a feed of propylene and
water over Amberlyst 15 ion exchange resin catalyst. It was produced in a trickle bed
reactor at pressures between 1 bar and 60 bar, at temperatures between 70°C and 160°C
and at overall propylene to water ratios between 1 : 5 and 10 : 1. Reaction proceeded
in the liquid phase within the catalyst particles. The only reactions that occurred in
the system were the hydration of propylene to form isopropanol (IPA) , the alkylation
of IPA with propylene to form DIPE and the bimolecular dehydration of IP A to form
DIPE and water. No side reactions such as propylene oligomerisation were observed.
Starting from a feed of propylene and water the primary reaction product was IPA. IPA
was subsequently consumed in two secondary reactions which produced DIPE. DIPE was
produced either by the alkylation of IPA with propylene or by the bimolecular dehydration
of IPA. It was generally not possible to study the two DIPE formation reactions separately
as they are linked via the propylene hydration reaction. All experimental data was thus
reported in terms of a hydration rate and an etherification rate, the latter being the sum
of the IPA alkylation and the bimolecular IPA dehydration rates.
The reactions to produce IPA and DIPE over Amberlyst 15 proceeded via two different
mechanisms, the so-called Type I and Type II mechanisms. The ratio of apolar (propylene
and DIPE) to polar (water and IPA) species and the overall species concentration in the
reaction medium determined the dominant mechanism. Type I mechanisms predominated
at low ratios of apolar to polar species in the reaction medium. When the ratio of apolar
to polar species about 1:2 the Type II mechanisms became predominant.
Heese, F (2021). The Thermodynamics, Mechanism and Kinetics of the Catalytic Conversion of Propylene and Water to Diisopropyl Ether over Amberlyst 15. Afribary. Retrieved from https://afribary.com/works/the-thermodynamics-mechanism-and-kinetics-of-the-catalytic-conversion-of-propylene-and-water-to-diisopropyl-ether-over-amberlyst-15
Heese, Frank "The Thermodynamics, Mechanism and Kinetics of the Catalytic Conversion of Propylene and Water to Diisopropyl Ether over Amberlyst 15" Afribary. Afribary, 15 May. 2021, https://afribary.com/works/the-thermodynamics-mechanism-and-kinetics-of-the-catalytic-conversion-of-propylene-and-water-to-diisopropyl-ether-over-amberlyst-15. Accessed 22 Nov. 2024.
Heese, Frank . "The Thermodynamics, Mechanism and Kinetics of the Catalytic Conversion of Propylene and Water to Diisopropyl Ether over Amberlyst 15". Afribary, Afribary, 15 May. 2021. Web. 22 Nov. 2024. < https://afribary.com/works/the-thermodynamics-mechanism-and-kinetics-of-the-catalytic-conversion-of-propylene-and-water-to-diisopropyl-ether-over-amberlyst-15 >.
Heese, Frank . "The Thermodynamics, Mechanism and Kinetics of the Catalytic Conversion of Propylene and Water to Diisopropyl Ether over Amberlyst 15" Afribary (2021). Accessed November 22, 2024. https://afribary.com/works/the-thermodynamics-mechanism-and-kinetics-of-the-catalytic-conversion-of-propylene-and-water-to-diisopropyl-ether-over-amberlyst-15