Hydrothermally stable alumina

a technology of alumina and alumina desiccants, applied in the direction of silicon compounds, other chemical processes, separation processes, etc., can solve the problems of alumina quickly losing its drying performance when used as a protective layer, alumina quickly losing its drying performance, and aging and loss of adsorption performance, so as to improve the hydrothermal stability of alumina desiccants, reduce dust formation, and low reactivity

Inactive Publication Date: 2010-03-25
UOP LLC
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Benefits of technology

[0017]The present invention greatly improves the hydrothermal stability of alumina desiccants and simultaneously reduces the dust formation with activated aluminas. The modified adsorbent maintains low reactivity and is still suitable for application in reactive streams.

Problems solved by technology

In the course of regeneration, the adsorbent experiences the simultaneous effect of elevated temperature, pressure and high moisture content, with hot liquid water percolating through the adsorbent bed, causing hydrothermal aging and loss of adsorption performance.
While the loss of performance over regeneration cycles is small in some desiccant applications and the adsorbent can last thousand of cycles, there are some severe applications resulting in much faster deterioration of performance, which are challenging even for the most stable alumina adsorbents.
However, the short lifetime caused by hydrothermal aging led to replacement of activated alumina by molecular sieves in most of the units.
Alumina quickly loses its drying performance when used as protective layer.
In spite of the fact that the need of improvement in the hydrothermal stability of activated alumina has been acknowledged (see the article of R. Dale Woosley “Activated Alumina Desiccants” in ALUMINA CHEMICALS—SCIENCE AND TECHNOLOGY HANDBOOK edited by L. D. Hart, American Ceramic Society, 1990, page 241-250), there remains a lack in reported success in preparing hydrothermally stable aluminas.

Method used

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Examples

Experimental program
Comparison scheme
Effect test

example 1

[0033]Flash calcined alumina powder A-300 manufactured by UOP, Des Plaines, Ill., was fed into a 4 feet rotating tub at a rate of 0.8 lbs / min. Water at a rate of 0.5 lb / min was also continuously supplied using a pump and nozzle assembly. Small amount of 30×40 mesh alumina seed was charged first into the nodulizer in order to initiate forming of larger alumina beads. The operation continued until about 50 lbs of material (8×14 mesh nominal particle size) were accumulated. The sample was cured upon storage in a closed container. Subsequently, about 4.5 lbs of the sample was charged into a one feet pot and rotated for about 5 minutes while sprayed with about 120 cc water. The sample was then immediately activated at 400° C. for one hour using an oven with forced air circulation. We refer to this sample as to AlWW where W designates water used in both forming and additional spraying operations.

example 2

[0034]The procedure described in Example 1 was used except that 4.5 lbs of alumina particulates were sprayed with a colloidal silica solution (Nalco 1130) to achieve addition of 0.8 mass-% SiO2 calculated on an volatile free alumina basis. We refer to this sample as to AlWSi where Si stands for the silica used in the spraying operation.

example 3

[0035]Flash calcined alumina powder A-300 manufactured by UOP, Des Plaines, Ill., was fed into a 4 feet rotating tub at a rate of 0.8 lbs / min while a pump and nozzle assembly continuously supplied at a rate of 0.51 lbs / min a sodium silicate solution. The solution consisted of 1 part Grade 40 sodium silicate and about 8 parts water. Small amount of 30×40 mesh alumina seed was charged first into the nodulizer in order to initiate forming of larger alumina particulates. The operation continued until about 50 lbs of material were accumulated. The particle size fraction 8×14 mesh was separated and subjected to curing in a closed container. Subsequently, about 4.5 lbs of the sample was charged into a one feet pot, sprayed with about 120 cc water and activated as described in Example 1. The silica content of this sample is about 2.2 mass-% as calculated on a volatile free alumina basis. This sample is referred to as AlSiW.

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Abstract

The hydrothermal stability of transition aluminas used as adsorbents and catalyst carriers is improved through their treatment with a soluble silicon inorganic compound such as sodium silicate wherein the silicon compound is mixed with the alumina powder at the production stage of forming particulates by liquid addition. The silicon containing particulates are activated by heating at a temperature lower than 500° C. and treated, before or after the thermal activation, by a colloidal silica solution to produce a hydrothermally stable, low dust alumina. The total silica content of the final product is typically less than 5 mass-%.

Description

CROSS-REFERENCE TO RELATED APPLICATION[0001]This application is a Division of copending application Ser. No. 11 / 439,547 filed May 24, 2006, the contents of which are hereby incorporated by reference in its entirety.FIELD OF THE INVENTION[0002]The present invention relates to a hydrothermally stable alumina, its process of manufacture and its use as a desiccant. More specifically, the present invention relates to a process of treating transition aluminas with a soluble silicon inorganic compound.[0003]The industrial activated alumina adsorbents are produced exclusively by the rapid (flash) calcination of the Bayer process derived aluminum hydroxide (Gibbsite, ATH) powder followed by wet agglomeration and thermal activation. These adsorbents exhibit X-ray diffraction patterns of transition alumina phases. They typically have high BET surface area and good adsorption properties for moisture and other contaminants. This makes them suitable for treatment of various industrial streams.[00...

Claims

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Application Information

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Patent Type & Authority Applications(United States)
IPC IPC(8): B01J20/10B01J20/08C01B32/50C09K23/00
CPCB01D53/02B01D2253/104B01D2253/106B01J20/3293B01J20/08B01J20/103B01D2257/80B01J20/10B01J20/28B01D53/047
Inventor KANAZIREV, VLADISLAV I.RUMFOLA, III, PETER
Owner UOP LLC
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