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Chemisorption of ethyl acetate during hydrogenation of acetic acid to ethanol

a technology of ethyl acetate and hydrogenation acetic acid, which is applied in the direction of catalyst activation/preparation, physical/chemical process catalysts, metal/metal-oxide/metal-hydroxide catalysts, etc., can solve the problem of affecting the commercial viability of catalysts, requiring excessive operating temperatures and pressures, and potentially prohibitively expensive and/or non-selective catalysts

Inactive Publication Date: 2015-01-22
CELANESE INT CORP
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Benefits of technology

The catalysts in this patent are stable and can be used in large-scale industrial applications to produce ethanol. They have a productivity rate that declines less than 6% per 100 hours of usage and preferably less than 3% or 1.5% per 100 hours. This applies even after the catalyst has reached its peak activity.

Problems solved by technology

In addition, fermentation of starchy or cellulose materials competes with food sources and places restraints on the amount of ethanol that can be produced for industrial use.
Existing processes suffer from a variety of issues impeding commercial viability including: (i) catalysts without requisite selectivity to ethanol; (ii) catalysts which are possibly prohibitively expensive and / or nonselective for the formation of ethanol and that produce undesirable by-products; (iii) required operating temperatures and pressures which are excessive; and / or (iv) insufficient catalyst life.

Method used

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  • Chemisorption of ethyl acetate during hydrogenation of acetic acid to ethanol
  • Chemisorption of ethyl acetate during hydrogenation of acetic acid to ethanol

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[0083]Surface reactions and molecular adsorption on surfaces can be studied very effectively using Temperature Programmed Desorption (TPD). The TPD technique involves the adsorption of a species on the surface of the catalyst at low temperature, e.g., close to room temperature, and heating the sample at a linear ramp rate while monitoring the species that evolve from the surface of the catalyst. Desorption of the gas from the surface produces a signal in the detector. This signal is plotted against temperature to obtain the TPD profile as shown in FIG. 1. Generally, the area under the peak of the desorbed signal will be proportional to the amount of adsorbed gas. In other words, the area under the curve may be indicative of the surface coverage. The position of peak temperature may be indicative of the strength of adsorption. If there are multiple binding sites on the surface, multiple peak temperatures are observed in the TPD graph.

[0084]In some embodiments, TPD experiments may be ...

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Abstract

A hydrogenation catalyst and process using the catalyst for converting a mixture comprising acetic acid and ethyl acetate to ethanol at a first temperature, and the catalyst desorbs ethyl acetate, in the absence of hydrogen, at a second temperature that is greater than the first temperature. The catalyst has a suitable chemisorption of ethyl acetate at the first temperature in the absence of hydrogen. In one embodiment, the first temperature ranges from 125° C. to 350° C. and the second temperature ranges from 300° C. to 600° C. The catalyst comprises one or more active metals or oxide thereof on a support that comprises tungsten or an oxide thereof. The one or more active metals are selected from the group consisting of cobalt, copper, gold, iron, nickel, palladium, platinum, iridium, osmium, rhenium, rhodium, ruthenium, tin, zinc, lanthanum, cerium, manganese, chromium, vanadium, and molybdenum.

Description

FIELD OF THE INVENTION[0001]The present invention relates to a catalyst that chemisorbs ethyl acetate at the reaction temperature for hydrogenating acetic acid and / or ethyl acetate to ethanol. A catalyst that adsorbs ethyl acetate with suitable strength is useful for producing ethanol without net production of ethyl acetate when a mixed stream of acetic acid and ethyl acetate is used as a feedstock.BACKGROUND OF THE INVENTION[0002]Ethanol for industrial use is conventionally produced from petrochemical feed stocks, such as oil, natural gas, or coal, from feed stock intermediates, such as syngas, or from starchy materials or cellulose materials, such as corn or sugar cane. Conventional methods for producing ethanol from petrochemical feed stocks, as well as from cellulose materials, include the acid-catalyzed hydration of ethylene, methanol homologation, direct alcohol synthesis, and Fischer-Tropsch synthesis. Instability in petrochemical feed stock prices contributes to fluctuations...

Claims

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Application Information

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Patent Type & Authority Applications(United States)
IPC IPC(8): B01J23/89C07C31/08C07C29/149
CPCB01J23/8993C07C31/08C07C29/149C07C67/56B01J37/0205B01J37/0018B01J23/8966B01J23/898B01J37/0201C07C69/14
Inventor ZHOU, ZHENHUAWEINER, HEIKOKUMAR, DHEERAJTU, XIAOYANJOHNSTON, VICTOR J.WOLLRAB, RADMILA
Owner CELANESE INT CORP
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