Material for NOx trap support

Catalyst – solid sorbent – or support therefor: product or process – Miscellaneous

Reexamination Certificate

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C502S415000, C502S341000, C502S351000, C502S355000, C502S527190, C501S118000, C501S125000, C501S127000, C501S136000

Reexamination Certificate

active

06677272

ABSTRACT:

BACKGROUND OF THE INVENTION
The present invention relates to a ceramic support element for NOx traps. More specifically, the present invention relates materials for NOx trap supports which exhibits migration resistance to alkali metal NOx storage components combined with good strength and low coefficient of thermal expansion.
Gasoline direct injection (GDI) engines are becoming increasingly popular due to the promise of increased fuel efficiency. Similarly to conventional engines, the exhaust gas discharged from GDI engines needs to purified of nitrogen oxides (NOx). However, unlike conventional engines which employ three-way catalysts, the GDI engine which is a partial lean burn gasoline engine producing exhaust gas with an excess amount of oxygen, cannot only employ the services of three-way catalysts because these require conditions where the air-fuel ratio is substantially stoichiometric.
NOx traps appear to be a leading candidate for exhaust purification in GDI engines. NOx traps are similar to three-way catalysts, in that they are made of a support and a catalyst coating the support, with the difference existing in that NOx traps include an additional component in the catalyst coating which stores the trapped NOx. The NOx storage component is typically an alkaline earth, alkali, or rare-earth metal compounds. Alkali metal-based NOx traps hold the most promise in providing high trapping efficiency over a wide temperature range. A disadvantage of alkali metal-based NOx support components, however, is incompatibility with cordierite supports, the standard in the three-way catalyst industry. Research has shown that the alkali metal in the catalyst coating migrates into the cordierite support during use at high temperatures. This results in a decrease in the trapping efficiency of the NOx trap and alteration of the chemical composition of the underlying material destroying the desirable properties of the NOx trap support.
Recently, much effort has been concentrated in the area of developing NOx support materials that resist migration of NOx alkali metal storage components, and therefore do not suffer the deficiencies associated with cordierite. Co-pending provisional application entitled “Catalyst for Purifying Exhaust Gases” by Cutler et al., co-assigned to the present assignee, and herein incorporated by reference in its entirety is directed at such materials. Such materials, however, are expected to exhibit a low four-point modulus of rupture strength of less than 1000 pounds per square inch (psi) as measured on a solid rod of circular cross section, which is undesirable for applications in harsh environments.
A need therefore exists to have NOx trap support materials which resist migration of NOx alkali metal storage components with higher strength than has been achieved up to now, while at the same time with low coefficient of thermal expansion.
SUMMARY OF INVENTION
The present invention provides novel materials for NOx trap supports, the materials offering resistance to migration of NOx alkali metal storage components in combination with high strength and low coefficient of thermal expansion.
These novel materials are selected from the ternary systems of Al
2
TiO
5
—MgTi
2
O
5
—MgAl
2
O
4
and Al
2
TiO
5
—FeTiO
5
—Al
2
O
3
. In a preferred embodiment the inventive materials consist essentially, in terms of weight percent on an oxide basis, of: 15 to 90 wt. % Al
2
TiO
5
, 2 to 45 wt. % MgTi
2
O
5
, and 5 to 55 wt. % MgAl
2
O
4
. In another preferred embodiment the inventive materials consists essentially, in terms of weight percent on an oxide basis, of: 35 to 85 wt. % Al
2
TiO
5
, 2 to 35 wt. % FeTiO
5
, and 5 to 35 wt. % Al
2
O
3
.
The inventive NOx support materials combine properties of good strength and low coefficient of thermal expansion with resistance to migration of alkali metal from the NOx storage component. The coefficient of thermal expansion (22-800° C.) is less than 20×10
−7
/° C., preferably less than 10×10
−7
/° C., and the modulus of rupture as measured on a solid rod of circular cross section is greater than 1000 pounds per square inch, and preferably greater than 2000 pounds per square inch.
The following are definitions of terms useful in understanding the present invention:
“NOx trap” means a device capable of storing and reducing nitrogen oxides (NOx) under alternating lean-burn and rich-burn conditions. A NOx trap is composed of a support element for loading a NOx catalyst coating containing a NOx storage component;
“NOx support element” means a body onto which a NOx catalyst coating containing a NOx storage component is loaded;
“NOx catalyst coating” is composed of a carrier material, a NOx storage component, and a noble metal catalyst;
“NOx storage component” functions to adsorb/store the nitrogen oxides and contains at least an alkali metal;
“Lean-burn environment” occurs when there is an excess amount of oxygen;
“Rich-burn environment” occurs when there are fuel-rich conditions.


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Qian et al., “Effects of Excess Alumina on Microstructure of Aluminum Titanate Ceramics Prepared From Mixture of Alumina and Titania”, Yogyo-Kyokai Shi, 93(6), 1985, p. 1-12.

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