Compositions – Reductive bleachant – deoxidant – reductant – or generative – Deoxidant or oxygen scavenging
Reexamination Certificate
2000-04-07
2003-05-13
Rada, Rinaldi I. (Department: 3721)
Compositions
Reductive bleachant, deoxidant, reductant, or generative
Deoxidant or oxygen scavenging
C252S186420, C428S035700, C053S400000
Reexamination Certificate
active
06562258
ABSTRACT:
This invention relates to a method of removing small quantities of entrained oxygen from closed containers, sealed bags and the like (hereinafter called “sealed packages”) which contain oxidisable products, including perishable foodstuff, by utilisation of a catalytic oxygen scavenging composition.
In this patent specification the term oxidisable product includes materials which are damaged by oxygen or spoiled by micro-organisms in the presence of oxygen.
It is well known that the deterioration of foodstuff due to oxidation and/or microbial spoilage can be reduced by storing the foodstuff under anaerobic conditions. One means of achieving this is to place the foodstuff in a sealed package filled with an inert gas or gases such as nitrogen and/or carbon dioxide. It is very difficult, however, to completely exclude oxygen from the interior of the package with the result that this technique only serves to slow down the rate of deterioration of the foodstuff. If, however, the residual entrained oxygen, and also oxygen exuded by the foodstuff itself with time, in the sealed package can be removed or converted within the package after sealing a substantially longer life is achieved for the foodstuff.
In a packaging system as described above, the small quantities of entrained oxygen can be eliminated by including hydrogen in the sealed package to react with the entrained oxygen to produce water. A quantity of hydrogen equal to or greater than that stoichiometrically required to combine with the entrained oxygen is introduced into the package along with an inert gas or gases either before or after sealing. Such foodstuff preservation methods utilise catalysts which have high activity for combining hydrogen and oxygen to produce water.
There are many catalysts which can be used in such oxygen scavenging applications. Suitable catalysts include platinum group metals which conveniently can be impregnated on a finely divided inert porous support material. Such supported catalysts are commonly contained in sealed pouches or sachets of microporous film which are stuck on to the interior surface of the packaging material. Sealed pouches or sachets, however, suffer from the disadvantages that a considerable amount of the expensive catalyst is required and also the sachet is liable to rupture with the catalyst getting onto the foodstuff.
The publication Meat Science Vol. 5 (No.1), 27-39, 1981 discloses a technique for storing near which utilises a palladium catalyst oxygen system in which the catalyst is incorporated within the structure of the plastic film packaging material. JP-A-328437 describes an oxygen scavenging system comprising a combination of a composition which absorbs oxygen and generates hydrogen with a noble metal catalyst. WO-A-960771 describes an oxygen absorption system wherein the oxygen absorption composition dispersed in an emulsion is printed on to the packaging material.
We have found that a superior oxygen scavenging system can be obtained by admixing or impregnating an adhesive material with the catalyst in a particular manner and fixing the thus obtained composite on to the inside surface of the packaging material.
According to the present invention there is provided a method of removing an entrained amount of oxygen from a sealed package containing an oxidisable product comprising the steps of:
(a) dispersing in a solution of a water-insoluble adhesive material a particulate catalyst which has high activity for combining hydrogen and oxygen;
(b) applying the dispersion to a pre-determined area of the inside surface of the material from which the package is made;
(c) evaporating solvent from the dispersion in such manner that the catalyst particles become partially encapsulated on a surface of the dried adhesive; and
(d) introducing a mixture of an inert gas or gases and hydrogen into the package either before or after sealing of the package, the hydrogen being present in the package in sufficient quantity to react with the entrained oxygen to form water.
In this specification the term “a surface of the dried adhesive” means a surface which is in contact with the gases in the sealed package and can be the outermost surface of the dried adhesive and/or the surface of pores in the dried adhesive.
The inert gas or gases introduced into the package is a gas or gases which take no part in the reaction between hydrogen and oxygen and suitably is nitrogen and/or carbon dioxide.
Suitably also, the dispersion is subjected to high shear-mixing before it is applied to the inside surface of the material from which the package is made.
Conveniently, the dispersion is applied to the inside surface of the material from which the package is made by printing, brushing or spraying.
Preferably, the catalyst comprises a platinum group metal or combinations thereof supported on a porous inert carrier.
The porous inert carrier suitably is carbon, alumina, silica, zirconia, titania, ceria or a carbonate.
Further preferably, the adhesive material is poly(vinylbutyral), nitrocellulose, ethyl cellulose, a polyurethane or a silicone material (eg a silicone rubber).
The dispersion of catalyst in the solution of adhesive material may contain one or more additives commonly used in ink compositions, for example one or more of plasticisers, fillers, driers, surfactants and pigments.
The method of the invention is particularly useful for the preservation of perishable foodstuff.
In a modification of the method of the present invention the dispersion of catalyst in water-insoluble adhesive is dried before being applied to the inside surface of the material from which the package is made.
Conveniently, the dried dispersion is stored before use under conditions which prevent catalytic de-activation of the dispersion.
Preferably, the dried dispersion is stored before use in air saturated with water or under a vacuum or in an inert atmosphere such as nitrogen or argon.
In one embodiment of the method of the present invention the dispersion comprises a label which is attached to the inside surface of the material from which the package is made.
From another aspect, the present invention is a sealed package containing an oxidisable product from which package oxygen has been removed by any of the methods described and claimed herein.
From yet another aspect, the present invention is an oxygen scavenging composition which comprises particles of a catalyst, which has high activity for combining hydrogen and oxygen, partially encapsulated on a surface of a water-insoluble adhesive material.
Suitably, the catalyst is a platinum group metal or combinations thereof supported on a porous inert carrier.
Conveniently, the porous inert carrier is carbon, alumina, silica, zirconia, titania, ceria or a carbonate.
Preferably, the water-insoluble adhesive material is poly(vinylbutyral), nitrocellulose, ethyl cellulose, a polyurethane or a silicone material.
Further preferably, the oxygen scavenging composition contains one or more additives commonly used in inks, for example, one or more of plasticisers, fillers, driers, surfactants and pigments.
The oxygen scavenging composition of the invention may be in the form of a label which is attachable to the inside surface of a sealed package from which oxygen is to be removed.
We have found that the catalytic activity of some oxygen scavengers of the subject invention falls away considerably over a period of time if the dried scavenger is stored in air before being used. The rate of reduction of the catalytic activity depends on the composition of the particular oxygen scavenger and varies from scavenger to scavenger. This problem can be alleviated by storing the oxygen scavenger before use under conditions which prevent catalytic de-activation. This can be achieved by storing the scavenger in air saturated with water. Other suitable conditions are storage under vacuum or in an inert atmosphere such as nitrogen or argon.
The sealed packages holding the oxygen scavenging composition and the perishable foodstuff or other oxidisable product may be in the form of plastic bags, m
Elsome Amanda Maria
Pratt Allin Sidney
Slade Elizabeth
Johnson Matthey Public Limited Company
Morgan & Lewis & Bockius, LLP
Rada Rinaldi I.
Weeks Gloria R
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