CA1093890A - Foodstuff freshness keeping agents - Google Patents

Abstract

Abstract of the Disclosure Foodstuff freshness keeping agent comprising a particulate composition which contains a salt of manganese (II), iron (II), cobalt (II) or nickel (II), an alkali compound and a sulfite or a deliquescent substance, and optionally ascorbic acid or its salt, thereby to absorb oxygen in the interior of package of foodstuffs and/or generate therein carbon dioxide gas.

Description

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This invention relates to a foodstuff freshness keeping agent, and more particularly to a foodstuff freshness keeping agent which when placed of package of foodstuffs are capable of therein absorbing oxygen and/
or generating carbon dioxide gas thereby to inhibit de-terioration of the foodstuffs.
Almost all kinds of foodstuffs are susceptible of deterioration due to oxidation by the ambient oxyyen, and vegetables are likely to be wilted up by the respir-atory action which takes place while in storage. The ambient oxygen may proliferate microorganisms and vital-ize insects.
To preserve foodstuffs by inhibiting quality dete-rioration thereof due to oxidation, there have been known techniques of vacuum or gas substitution packaging, addition thereto of antioxidant, antiseptic or any other like additives, and incorporation of a deoxgenating agent in foodstuff package for eliminating oxygen there-in.
Package interiors are evacuated, according to the vacuum or gas substitution packaging method, for pre-serving foodstuffs therein. Nitrogen or carbon dioxide gas is sealed in the evacuated package interiors ac-cording to the latter method. These methods have the disadvantage that an exact selection of combinations of articles to be packaged, gas substitution rate and pack-aging material is required to achieve the in~ended results. Selection of favorable conditions for the ,. . ~,~

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methods demands a tremendous amount of -time and data, and use of a high-efficiency packaging machine and a highly gas-impervious packaging material is called for i.n addition. The vacuum packaging rnethod is only able to use particular foodstuffs because packages are likely to be deformed in the negative pressurized inter.ior of packages.
Addition of antioxidant, antiseptic or any other like additives to foodstuffs, which has been extensively adopted for the purpose of preservation, has the disadvantage that a tech-nically sufficient amount of additives is often prohibited by various statutes and regulations concerning foodstuff additives. ~:
There are an increasing number of additi~es which are totally prohibited from application to foodstuffs in the light of bad ~:
influences on the human body.
A method for eliminating oxygen in foodstuff packagesby action of a deoxygenatiny agent has been proposed recently in a number of forms.
O~ygen is absorbed, in one form of the method, by adding water to a mixture of glucose and glucose oxitase. The de-oxygenating agent requires addition of water from outside theroffor its action , and therefore can not be ~ffectively used for low-water content foodstuffs although it may effectively perform an oxygen-absorbing reaction in use with the foodstuffs contain-ing a great amount of water.
~ nother form of the oxygen eliminating method has been known in which foodstuffs are packaged in material of a polyester/
metal foil/Surlyn/palladium/Surlyn (trade mark of ionomer by Du Pont Co.) laminated structure by gas substitution with a mixture gas of hydrogen and nitrogen whereby oxygen remaining in the package ig reacted with the hydrogen under the catalytic action of palladium in the laminated structure to permit elimination of oxygen. Specifically, oxygen remaining in about 2 % concentration in the interior of package after gas flushing is reacted with hydrogen into water under the catalytic action of palladium at a ~ 3 ~

normal temperature. The drawbacks o~ this method have obviously resided in requiring use of the special laminated structure material provided with expensive palladium as a lamina, and the burdensome operation of gas substitution with a hydrogen and nitrogen mixture gas. An improved method is disclosed in U.S.
patent No. 3,419,400 in which the hydrogen gas with which the package in-terior is gas-substituted is replaced by a hydride of magnesium, lithium or other like metal which can generate hydrogen upon reaction with water. The disclosed method still re~uires use of expensive palladium and was not found in practice with low-water content foodstuffs to permit hydrogen to be generated in an amount enough to warrant a practical application to preserve such types of foodstuffs. ~ ;
A deoxygenating composition has been known which mainly consists o sodium hydrosulfite and calcium hydroxide, and upon addition of a catalyst of water and activated charcoal performs an oxygen absorbing reaction expressed in the Eollowing formula:

2 2 4 ( )2 2 ~ 2 4 3 ~2 Although being capable of eliminating oxygen with relatively high efficiency, the deoxygenating composition requires addition of water from outside thereof as a catalyst for such a reaction.
Moreover, undesired heat and sulfite gas generated in the reaction has an adverse effect on quality and taste of the foodstuffs thus preserved.
A further example of the known deoxygenating compo-sitions is disclosed in U.S. patent No. 2,825,651 which is an intimate mixture of a sulfite and a compound capable of releasing metallic ions reactive with those of said sulfite.
One object of the invention is to provide a foodstuff freshness keeping agent which can be applied to all kinds of food stuffs at a low cost and in a simple manner.
Another object of the invention to provide a foodstuff freshness keeping agent which is capable of reacting on and ~-~Y''I

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absorbing oxygen without addition of hydrogen gas or water from outside.
There is provided according to the invention a food-stuff freshness keeping agent comprising a particulate compo-sition essentially consisting of a sulfate or a chloride of manganese(II), iron(II) r cobalt(II) or ~

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nickel~II), an alkali component consisting of at least one alkali or alkaline earth metal hydroxide, carbonate or bicar-bonate, and a wa-ter supplying component consisting ofa hydra-ted sulfite and/or deliquescent chloride.
The sulfate or a chloride of manganese(II), iron (IX), cobalt(II) or nickel(II) herein contained may be substituted in part by ascorbic acid or a salt thereof.
A pre~erred composition having powdered iron added therein presentsan enhanced absorbtion of oxygen.
Either hydrated or anhydride sulfates and chlorides may be used for the main component. Hydrates of iron(II) sul-fate, iron(II) chloride and manganese(II) sulfate are preferred.
Typical examples of ascorbic acid and its salts are L-ascorbic acid, sodium L-ascorbate, V-iso-ascorbic acid, and sodium D-iso~aæcorbate.
The alkali component may be a hydroxide such as sodium hydroxide, potassium hydroxide, magnesium hydroxide, calcium hydroxide, zinc hydroxide or aluminum hydroxide, a carbonate such as sodium carbona-te, or a bicarbonate such as sodium bicarbonate. When a carbonate and/ox a bicarbonate are contained in the freshness keeping agent, the composition will not only absorb oxygen but generate carbon dioxide gas. Cal-cium hydroxide, sodium carbonate and sodium bicarbonate are preEerred to the rest o-f the above examples.
The hydrated sulfite used in the composition of the invention are sodium sulfite, potassium sulfite, calcium sul-fite, zinc sulfite, ~arium sulfite, and manganese sulfite, 7-hydrous sodium sulfite Na2S03. 7H20 is preferred.

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Calcium chloride and magnesium chloride are used as deliquescent substances in the light of their degree of deli-quescency, safety and ease of handling.
It is preferred that activated zeolite, bentonite, activated clay, activated alumina or any other like adsorbent be added in order to retain water required for the reaction.
Any of these adsorbents impart a deodorant ability to the reshness keeping agent. When the composition includes a deliquescent substance, the adsorbents can serve to adjust the degree of deliquescency of that substance.
~ha ratios of the above stated components in the composition can be optionally selected in dependence on kind of foodstuffs to be packaged, within the following ranges.
When ascorbic aci~1 or a salt thereo is not used, 20 to 100 parts by weight of alkali component, 5 to 50 parts by weiyht of water supplying component, 0 to 10 parts by weight of adsorbent, and 0 to 70 parts by weight of iron powder are combined with 100 parts by weight of the main component. When ascorbic acid or a salt thereof is used in combination with 20 the sulfate or chloride in the main component, 200 to 500 parts by weiyht of ascorbic acid or its salt is incorporated per 100 parts by weight of the sulfate or chloride in the main component used, and for each 100 parts by weight of the main component, the composition includes 60 to 250 parts by weight of the alkali component, 20 to 80 parts by weight of the water supplying componentl 30 to 80 parts by weight of adsorbent and 0 to 80 parts by weight of iron powder.

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The foodstuff freshness keepiny agent of the inven-tion will perform an oxygen-absorbing reaction. Water required for the oxygen~absorbing reaction need not be supplied from outside. Water is generated by reaction of the sulfite and the sulfate or chloride as typically used, or water retained in the package by the deliquescent substallce may be used. In a typical composition containing iron(II) sulfate and sodium sulfite, for example, water is released by the following reaction:
FeS04.7H20 ~ Na2S03.7H20~ FeS03 + Na2S04 2 .~
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A deliquescent substance, when contained in the composition, serves to a~sorb water naturally existing in -the interior atmosphere of package and/or generated by the above noted reaction, thus suppressing diffusion of water, and further to retain an excess of water, preventing the packaged foodstuffs or particularly dried ones from being wetted.
The sulfite and the deliquescent substance may be used alternatively, or both in combination as above suggested. No limitation is imposed on their ratio when used in combination, but preferably, 0.25 to 6 by weight parts of the deliquescent substance are added relative to 1 by weight part of the sulfite~
Using water supplied as above stated, the sulfate or chloride and the alkali compound react on and thereby absorb oxygen in the package, which reaction may be expressed by way oE example in the following reaction formulae:
where a deliquescent substance is used;
2FeS04 + 2Ca(OH)2 + H20 + 22 ~ 2Fe(OH)3 + 2CaS04 and where a sulfite is used;
2FeS04 + 2Ca(OH)2 + Na2S03 + H20 ~ 2~ 2Fe(OH)3 ~ 2CaS04+Na2S04 Where a carbonate or a bicarbonate is used instead o hydroxide, generation of carbon dioxide gas as well as absorption of oxygen takes place in a manner as expressed by way of example in the following reaction formula:

2FeSO~ + 4NaHC03 + H20 + 22 ~ 2Fe(OH)3 -~ 2Na2S04 + ~C02 Xydroxide, bicarbonate and carbonate may be used in combination, without any limitation on a ratio therebetween.
Compositions containing iron powder can absorb 3xygen by the virtue of reaction of the iron powder under the existence of alkali as follows:
4Fe + 32 + 6H20 ~ 4Fe(O~I)3 Absorbic acid or its salt serves to absorb oxygen in a manner which may be expressed by way of example as follows:

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C=O ~=O COOH COOH
I H -~2-2 C=O +H20 C=O + ~ 2 HC-OH COO~
C-O~I C I ~ C=O O ~ C=O ? ~ O~ COOH
~C ~ -H O HC ~ HC-O~I 2 CH2OH
I
HC-OH HC-OH HC-OH

1H2H l~2H CH20H
While the typical examples of components are designated in the foregoing reaction formulae with reference to which the various reactions of the compositions of the invention have been described, an~ other of the specified components can also perform similar reactions.
The freshness keeping agent of the invention is constituted by a partic~llate composition of the above described components.
In use, a foodstllff freshness keeping agent of the invention is encased in an air- and water-pervious receptacle to be kept from direct contact with foodstuffs in a package. For example, the particulate composition is encased in a pouch made of a laminated film of paper and perforated polyethylene film. The word "perforated" herein used is intended to mean that packaging material is porous so as to be pervious to gas and water. The encased composition is packed in a package together with a foodstuff.
Thus, the foodstuff freshness keeping agent functions to absorb oxygen in the interior of the foodstuff package and/or generate carbon dioxide gas, thereby permitting a long term storage of the foodstuffs whilst inhibiting oxidation and discoloration, and proliferation of microorganisms therein. When the composition is applied to vegetables or like foodstuffs, their respiratory action is thereby inhibited, thus permitting a long-term storage of the vegetables or the like with freshness kep-t.
It is thus apparent that foodstuffs to which the foodstuff freshness keeping agent of this invention can be applied include raw meat or fish, and vegetables and fruit, as well as bread, ca~e, ham, cheese, butter and any other like processed foodstuffs.
Table 1 below shows typical e~amples of compositions of the foodstuff freshness keeping agent of the invent:ion.

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_ N Ir) _ _ _ _ _ ~ _ ~ N _ N O__ ~_ _ _ ~ ~Y ~ ~`1 W In ~ N ~ N
O _ _ ~ r~ r I N
~rLtl _ _ ~1 _ ~ N
~1Irl _ _ ~ ~` __ N
N ~D _ _ ~ ~ ___ ,~ ~$ ~ _ a~ ~ ! ~
O ~ ~0 N N ~1 ~3 ~ _ rd --1 r~ _ N o N _ ~i r~
t~) r-l ~r ~`I r- r-l ~I ~
O _ __ O __ __ ~1 N N
O __ _ _ N _ ~1 N N

a~ ~1 O __ ~l __ _ ~ N N
F'i ~1 O _ N r:-- N N
~'l aJ ~1 "' __ ~ r~ N
~ ~1 ~ t~ ~ --~ -- 1` l ~1 _ F: ~ ~J ~ 1~ ~ r` ~1 N
U~ _ _ _ O~ Ir) ~ r~ ~ N _ O ~) ~ _ N _ N ~ ~ 00 ~
~1 ~1 CO I .
C~ ~ Ir) ~ _ ~ N N = ~1 ~`1 =

. _ \D = = = ~-- In _ ~1' N _ ~' = _ N NN = N _ = N =
~) CO N N N _ N
N = r~ = = Ln = = _ = N
~1 \ D ~1 t-- N
~ . ~ _ O _ 1~
O ~ N O ~ ~1 N o o ~ 5~ t~ o o . N Q ~1 t~ ~ O . N ~ O

O . g E~ g ~ O O O N )~
u~ O 11~ . O V N. I N ~ O
o a) ~:: l o I ~ t~ ~ - ~ ,a ~ ~
_ _ ~ ~ U~l O :Z Z Z O f~ ~

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Some of the agents shown in Table 1 were subjected to tests for the purpose of evaluating capability of eliminati.on of oxygen and of generation of carbon diox-ide gas~ In the tests, each agents of 5.0 g were sealed respectively, together with 400 cc of air, in a 150 mm by 200 mm pouch made of a laminate of vinylidene chloride-coated polypropylene film (22~) and polyethy-lene film (50~). Variation of concentrations of oxygen A and carbon dioxide gas in the pouch with the lapse of time was measured by i~ gas chromatography. The results are shown in Table 2.

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CO -~D __ ~ r~ _ ~o ,1 r~
_ _ _ _ _ ~ ~ ~ I_ o ~r a~ ~1 O
N 03 1` ~ ~1 r-l ~1 O N
_ _ _ _ ~ o ~r ~D O CO ~1 ~
L~ 1~ O~ ~' ~ _~ ~ V' O
~ ~ C~ ~) CO ~D ~1 ~ ~1 1` 1` ~ ~i ,~ ~ O ~
__ _ _ _ ~ I~ ~1 ~D ~ ~1 ~1 ~ ~
~ ~J 0~ _v v' _ V V
co t~ ~ ~ O ~r In ~1 ~ ~D ~ U~ Ln ~ ~ ~ O ~0 .~ __ _ _ a) ~D ~1 Ln ~1 ~1 ~1 ~1 ~
V ~ V ~ V V V
~n __ . _ Ul t` ~1 ~D ~J ~1 ~1 ~1 ~1 V ~ V ~1 O' V O
_ _ _ _,. _. _ _ N h o ~ v N v o v v v C) . _ __ _ _ _ E~ ~ lsl o:l O _ ~ ~i~1 o Y N
~0 ~ ~ ~0 ~ ~0 ~ e __ v a~ ~ ~ ~ ~ ~ ~
~, v ~ VO . VO VO VO-CO r-l ~ ~ CO ~1 ~1 ~1 ~_ ~ _O ~., V' V' O V
co ,1 ~ ~1 -! ~ ,~ ,~
r` c~ ~ v v v 5 5 . _.
~ o ~ o ~ o ~ o I~O~ O~C~ O O OS~C~
~0~ ~ ~ ~ (a ~ ~h l C~:~ O O O
~n ~ ,C ~ ,C .
~ ~ ~ co ~r N

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As shown in Table 2, all the freshness keeping agents could reduce the oxygen concentrations in the pouches to less than 1 % after the lapse of 24 hours.
Freshness keeping agents Nos. 5, 16, 23, 25,27, and 28 which each contain NaHCO3 or Na2CQ3.10H2O were found to increase the corresponding concentration of carbon dioxide gas to about 20 ~ after the lapse of 24 hours.
Examples will be given below where freshness keep-ing agents of the invention were applied in genuine foodstuff packages.
Example 1 Use was made oE freshness keeping agents of compo-sitions shown in Table 3 below.
Table 3 .
Fressness keeping agent Components Iron(II) sulfate (E'eSO~.7H2O) 3.7 _ 3.3 3.5 _ __ ___ Manganese(II) sulEate (MnSO4.7H20) _ 3.8 _ _ _ _ Calcium hydroxide (Ca(OH)~) O.8 O.8 O.8 ,. __ __ Sodium bicarbonate (NaHCO3) _ _ 1.2 _ Sodium sulflbd (Na2S03.7H20) O.4 O.4 O.4 Calcium chloride (CaC12.2H2O) _ _ _ 0.6 _ Activated charcoal 0.1 0.1 0.1 0.1 '.
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Freshness keeping agents of 5 g of the above compo-sitions were each charged in a 50 mm by 60 mm pouch made of a laminate of Japanese paper (40 g/m~, per-woven A forated polyethylene film (15~), special }~-t~wY#-Labric (19 g/m ) and perforated polyethylene film (30~).
The special no-woven fabric in the laminate is formed by a mesh web of filaments provided by cutting a flat oriented film. The same special no-woven fabric was used in other Examples below.
Each of the charged pouches was packaged together with a about 300 g loaf of bread in a vinylidene chloride-coated oriented polypropylene film (22~)/ poly-propylene film (40~) bag (150 mm x 200 mm), where gener-a-tion of mold fungi was observed and variation oE con-centratlons of oxygen and carbon dioxide gas was measur-ed with the lapse of time at a temperature of 250C.
The results are shown in Table 4.

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o~ ~ l __ , _ ~ ~ ___ l __ ô~--o ~ ~, o ,~ o ,~ ~ ~ o ___ o--~ '~V o o o o o o o o l l ,~ ,_ O N O O O O O t~l O O __ ~1 U~
~ ~1 . . __ r~ ~ O r-l O r-l C5~ r-l O I` N
v O O O O O O O O I l N O
~ ~ ~1 O O_ O O O t``l O O _ r-~ ~

0~ ~ r~ O r~ O r~ t` r~ O ~ ~ i~ ~
o o o o o . o o . . r~ o . . . . . O . . I~ ~ ~ .
S-~ r-- O O O O O N O O ~ r-l O ~1 O _ __ __ __ r (D tl:~ Ir) O ~ O O t` ~ O I~ O O r-l ~ ~:) O O r-l O ~i . O O . N ~I' O
.~ ~ C` O O O O t~l O _O r-~ r~ O O ' N ~I t~l ~J (~I
~`1 0~`I O t`~ O ~`1 0 t~ O N O
O O O C) O C> O C) O C~ O C) _ _ ,,.

~U C~ o ~ ~ o ~
O ~ ~ ~ ~ * ,~ o a~ ~ ~: ~ ~ ~ ~ ~
a) Q~ C) (U a~ o rd ~ A
~ ___ _~_ ~ :q zrl P

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* + ... fungi generatedi - ... fwlgi not generated ** package holding air without any freshness keeping agent As apparent from Table 4, mold :Eungi were not ob-served to be generated in the packages according to the eve~1 invention.~ after 28 days at a temperature of 25C.
In contradistinction to the favorable results, gener-ation of mold fungi was observed in the gas packaging (N2 substituted) and Blank (air holding) after the lapse of 14 and 7 days, respectively, thus obviously present-ing .incapability of keepiny freshness the loaf of bread.
It was found that the cellular structure oE breacl pack~
aged with -the agents 29, 30 and 32 where oxygen was merely absorbed had been in part collapsed to result in ~:
an unsatisfactory appearance. The bread loaf packaged with the agent 31 where carbon dioxide gas was substi-tuted for absorbed oxygen was found to remain in a sub-stantial].y same appearance as when the loaf had been packaged.

Example 2 Use was made of freshness agents of compositions shown in Table 5.

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10~3890 Table 5 Freshness keeping agent Components _ 29 31 33 34 Iron(II) sulfate (FeS0471I20) 3.7 3.3 2.4 2.0 _ _ :
~cium hydroxide (Ca(OH)2) O.8 _ O.6 Sodium bicarkonate (Na~lCO3) _ 1.2 _ 1.2 _.
Sodium sulfate (Na2SO3 ~2) 0-4 0.4 0.4 0.5 _ _ Activated charcoal (C) 0~1 0.1 0.1 0.1 , Iron powder (Fe) _ - ¦ 1.5 1.3 _ _ . __~
Freshness keepiny ~gents oE 5 g of the above compo-sitions were ea.ch char~ed in a 50 mm by 60 mm pouch macle of a laminate of glassine paper (30g/m2), perforated polyethylene film (15~), reinforcement (19g/m2) and perforated ethylene-vinyl acetate copolymer film (40~
Each of the charged pouches was packaged together with a 100 mm by 170 mm by 60 mm piece of sponge-cake in a 200 mm by 350 mm bag made of laminate of vinylidene chloride-coated oriented polypropylene film (22~) and polyethylene film (40~), where generation of mold fungi `.
was observed and variation of concentrations of oxygen and carbon dioxide gas was measured with the lapse of time at a temperature of 25C. The results are shown in Table 6.

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~1 ~) ~ r~ 1 t~
r~l (~ r~ 1~ td ~ . ~ ~ l IJ
a~ o u~ ,5~ Q) ~ ~1) ~1 t) ~ ~1 tr) ~ O t~) O
tl; r~ ~ r~ r~ ~ (I) aJ r1 0 ~
r~ d s ~ r~ ) ~ ~ ~1 r-l u~ (d E~ ~ r~ ~ u~ ~ -r1 h ,Q .Q ~) 1~ Q) Ll~5_1 1~ ~U ~1 1~ (1) .,1 r~ t~) r~ Q
a) .~ ~, O o ~ ~ (1) ~ a) o rc~ ~1) ~ ~ r Q~ u~ ~ ~1 0 O ~ tn ~ 41 O Q~ (1) Q) ~ ri u~
L~ ~ a) o L2.~ 1~ i~ 1~ ~ 3 ~a ¢ ~ _ ~ ) ~ ~~ rc~ ~ t~t ~ r~ r~ t ~ l l l l + ~ l L~7 # -u~ __ ~ ~ I l l _ + l ,0 ~ l l l + l ~ l l l l + l l t~ ~ ...
i ~D r-l _ __ _ _ _ _ c`. ~ ~ o ~ ~1 ~ o ~ r~ o ~ ~r ~ _~ ~ O O O O O O O O l l ~P U~ ~D ~
~1 3 ~0 o o o ~ o o o ~, o ~ o a rd ~ r l O N O r-l O r--l 1~ ~1 (~1 O ~r 1~ ~`1 ~ ~ o o o o o o o c~ ~ ~ ~ a~ Lr) Is) 1:~ ~ O O O t`l O O O ~1 r~l ~ (~ ~) a) _ _ __ _ _ ~>1 ~ O Lr~ O r l O r-l t-- 1l ) 1~ O t~ r l r-O (1~ O O O . O O O . . . ~r . ~ ~
t) rd ~ ' ' ' ~ ~ ~D ~D . . . CO
~ O O O ~ O O O ~ r~ r~ O O O c~
~ _ ___ _ _ t~ >1 OD O ~ ~ r~l O ~I cn O ~s) ~I t~l t`J ~O
115 O O O . O O O . ~ ~ e1~ r-l u~
S-l ~; . . . cr~ . ~ ~ O CD t~ . ~ ~ CO
r~ I~ O O O r l O O O (~1 r l r-l O O O c5 . _ _ a) ~ ,~ o o ~1 ~I o a~ co co o o ,~ o o O O r~ . O O O . . O L~ O r~ .
. . . o . . . o ~ . . . . a~
H r~ O O O __ O O O ~I r~ r~ O o O c t~3 ~I ~I ~1 ~I (~
N O t~l O ~I O ~1 0~`I O
aJ ~ O ~ O O O O O O O ~ O ~
r~ . o\ O o\ g O , O , I
~ . o ~r~ O

4~ cl~ ~-1 ~) ~r r~l ~ r~
O ~1 ~ ~r) (~) U~ r ~ ~ ~ ~ ~ ~ ' rY ~ ~ ~
a~ ~ ~ ~ ~ a) ~ ~ ~Q
~ ~ ~ d __ ~ ~ ~ o~

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2~ -* ~ ... mold fungi generated; - ... rnold fungi not generated As apparent from Table 6, freshness keeping agents 29, 31, 33 and 34 were found to be as satisfactory in antifungal capability as the carbon dioxide gas 100~
substituted packaging, and to preserve good taste in contradistinction to the C02 gas substituted packaging which admitted of problems of generation of sour taste and odor. It was noted that freshness keeping agents 31 or 34, among others, which is capable of generating carbon dioxide gas was favorable in application to sponge-cake in that the food procluct could be therby kept free of co].lapse of the cellular structure and deformation of the appearance.
Example 3 Use was made of freshness keeping agents of compo-sitions shown in Table 7.

Table 7 Freshness keeping agent Components 29 ~ 35 36 37 38 Iron (II) sul.fate 3 7 3.5 3.3 2.4 - ~ 2.1 lFeS04 7H20) .
Calcium hydroxicle O.8 O.8 O.8 O.6 0.5 __ ~ _ Soclium Sulfi-te (NaS03 7H20) 0.4 0.4 0.4 0.4 Calcium chloride (CaC12-2H20) _ 0.6 0.5 0.5 Activated c~arcoal 0.1 0.1 0.1 0.1 0.1 Iron po~der _ _ _ 1.3 1.4 . : . ~ i .. . .

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Freshness keeping agents of S g of the above compo-~~ sitions were eacll charged in ~ same manner as in Example , .;~, The charged agents were hermetically packaged together with 200 g of peanut butter in two kinds of bags A made of a laminate of vinylidene chloride-coated oriented polypropylene film (22~) and polypropylene film (22~) and polyethylene film (40~) and B made of a laminate of polyamide film (15~) and polyethylene (40~), both having a size of 150 mm by 200 mm, where oxidation of fat contained in the butter peanut were measured in terms of peroxide value wi-th the lapse of time at a ~ es~ s temperature of 25C. The -r~ are shown in Table 8.

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~ ~ r~ D C;~ CO ~ O 0~ D
~ o ~ ,~

~ ~ ~ D ~ O ~ CO ~ CO O CO ~ 00 O ~ ~ `3 _ _ .,.

a) ~ ~ n ~ cO c~ co ~ CO -1 Ln ~ O ~ 1 h ~ _ a) ~ ~ 9 ~ ~ ~ D W
~ ~ ~ 1 ~
~1 . _ __ o _~ U~
O ~ r~ D Ul n ~ Ln d' C~
~1 ~ O O o o ~1 1` O O O o o ~1 ~D
CO ~ ~ . , , . , , , olo o o o o oo o o o o o o ~ If~
a) ~ o ~ ~--. -E~ ~ ~ ,~ ~ r ~ ffS OOOOO~1- OOOOO~`~
o ~s ~ ~ .
f-)o o o o o f;o o o o o o o fs)f`~
~ o n . _ __ ~ ~r~ r~ r~ r~ r~ o ~ ~ r~
~C fd ooooooLt~ ooooo~r~
O ~ ...... . ......
o ooooooo ooooo~
~rol ~ .
~ ~ ~ `1 ~ ~ O
f f o o o o o ,~ ~r o o o o o ~ ~g H ,~ o o O O O OO O o O O O O O
_ . fd fd .~ o~o O ,1 o~o O
fl)h o'~) 1) o ~
f ~~ f~ S ~ f~ f~ ..
. ffS ~ f ~ ':
rd ~ ~ ~ ~ ~ ~) ,~ rd ~ :.
~ ~ n ~ ~
1) O ~ O ~ a) C.l rd Q ~ ~V O a) O C) rd ,CI
,1 ~ ~ r~ ~ rl m .~ ~ m z rn r~ ~ m æ
_ . p~s P~
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-~ - 22 -As apparent from Table 8, almost no increase of the pero~ide value was noted in case of the freshness keeping agent after the lapse of about 3 months, presenting an enhanced preserving capability in comprarison with the N2 gas substituted packaging. It should be noted that the difference of packaging material had a smaller effect on the packages holding the agents of the invention than on the N2 gas substituted packaging, so that the former can present a satisfactory preserving effect when held in packaging material which is a relatively poor gas-barrier.
Example 4 Use was made of freshness keeping agents of compositions shown in Table 9.
Table 9 Freshness keeping agent Components .

Iron (II) sulfate 3.7 3.3 2.0 3.2 2.7 _ _ . .
Calcium hydroxide ~Ca(OH)2) 0.8 _ _ 0.3 _ .

Sodium bicarbonate (NaHCO3) _ 1.2 1.2 0.8 0.6 . .
Sodium carbonate (Na2CO3.10H2O) _ _ _ _ 0.6 Sodium sulfite (NaSO3.7H2O) 0,4 0.4 0.5 _ 0.4 : Calcium chloride (CaC12.2H2O) _ _ _ 0.6 0.5 Activated charcoal 0.1 0.1 0.1 0.1 0.1 .
: Iron powder _ _ 1.3 _ _ .~ I . .
- . - .. . ,, . , ~, . , 938~
,~

Freshness keeping agents of 5 g of the above compo-sitions were each charged in a pouch in a similar manner as in Example 2~ Each of the charged pouches was pack-aged together with five astringent persimmons in a 200 mm by 300 mm bag made of polyethylene film (60~), with the openings hermetically closed by an adhesive cello-a~Lr/n~ c~
phane tape, and the conditions of~ a~$*~=~e-~ and softness of the persimmons were evaluated with the lapse of time at a temperature of 25C. Further, freshness keeping agents of the above compositions were each pack-aged together with two astri.ngent persimmons in a box-like receptacle provided by vacuum molding a polyethylene sheet (200~), with the opening hermetically closed with a lid member of polyethylene film (40~), where the con-c~e _ as tr~n~ f ditions of ~ and softness of the persimmons were evaluated with the lapse of time at a temperature of 25Co The results are shown in Table 10.

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* _ _ _ _ _ _ _ _ _ _ u~ ~: O O O O O X X O O O O O X ~ a) ~a ,~ _ _. _ _ _ ~ _ _ _ _ _ ,~::
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c ~ ~+ l ~ ~-+~
r--l O ~ ~D Ll-) ~1~1 . . 1`0 ~0 Ot~l Ci~CO ~)0 ~IC ~15~ ~D~D ~U') 0~1 1_~ ~ ~ ..
~ ~ CO~ r-l~ ~r ~It'`l ~ 1~ LI') ~ Ll~C ~ ~1 ~ ~1~1 ull- )~ o E~ c~a)o~ ___ _ _ ~-- _ _ _ _ _ (d~ .

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1~0 O O O O O O O O O O O O O O ~
~ _ _ _ _ _ _ _ _ X~
,~ I + + + + + + + ~ + t _~ + _~ 4~
_ L_ _ _ _ _ _ _ _ _ ~ o ,, ,,o . .,,`'~
us~ coo ~ a~o ~D ~Ln ~Ln Ln~D ~Ln ~r~ c~ ~11~ C~ CO~` ~C) a~
~co ~i~co ~ Lol--nco ~D~ Lnco ~Ln ~ ~ ~r- ~D ~nr~ o~ ~1 ~d~
~ u~ Ln ~1 1` U 3 4~ I ~ ~ ~ ~r cn o I X I ~ ~ ~ ~ ~ o ~ 8~ -~ o o I ~m r~ ~ ~ ~ ~r ~ I ~ o ~ ~ ~ ~ ~ ~r u, ~
Q~ ~ ~ ~ ~ ~ ~ ~ Y ~h~ ~l~mu ~ ~ ~ ~ . .~ ~Qo * ~*

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It should be noted in Tabl.e 10 that the freshness keeping agents are effective in inhibiting persimmon and the like fruit from being softened. As apparent from Table 10, the agents 31, 34, 39 and 40 capable of gener-ating carbon dioxide gas thereby remove astringent tasteof the persimmons. It has been known that carbon di-oxide gas de-astringe persimmon, but the freshness keeping agents could serve to not only de-astringe but inhibit softening of persimmons.
Example 5 Use was made of freshness keeping agents of compo-sitions shown in Table 11.

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3~
Table 11 __ Freshness keeping agent Components ` _ _ 29 31 ~ 41 ~2 ! 43 _ , .
Iron (II) sulfate ~
(FeSO4.7H2O) 3.7 3.3 0.4 ¦ 0.6 ~ 0.3 Sodium L~ascorbate _ ~ 1.2 ~ 0.9 _ .
Calcium hydroxide (Ca(OH)2) 0.8 1.2 _ _ Sodium bicarbonate (NaHCO3) _ 1.2 _ 1.1 0.9 _ ~ _ Sodium carbonate (Na2CO3.10H2O) _ _ _ 1.1 0.9 __ _ _ _ Sodium sulfite (Na2SO3.7H2O) 0.4 0.4 1.2 _ _ Activated charcoal 0.1 0.1 1.0 0.9 0.8 _ .~
Iron powder _ _ _ _ 0.8 Calcium chloride _ _ _ 0.4 0.5 (CaCl~.2H20) _ Freshness keeping agents of 5 g of the above compositions were each charged in a pouch in a similar manner as in Example 2. The charged pouch and 200 g of beef in a lump were placed in a tray provided by vacuum molding a laminated sheet of cast polyamide (50~ ) and cast polypropylene (500~ ) and then hermetically covered with a laminated film of vinylidene chloride-coated oriented poly-propylene (20~) and cast polypropylene (50~). Quality of the packaged raw beef while stored at a temperature of 3C was evaluated with the lapse of time. The results are shown in Tabla 12.

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~ ~ o o o o o x x x 3 ~ _ 4~ ,,t ~r ~r ~ ~ ~ Cl~ ~9 ~
h O . '' o o o o o o o o ~ h S~ ~1~1 ~1 ~1 ~i ~ ~i ,1 40~ a) ~ ~ x x x x x x x x R~ $ ~) ~g ~ ~ C~ ~D ~ ~D a~
Z Q m ~r ~D ~o ~` ~i ~ c~

~ ~ O O O O O ~C ~I X
3 ~_ _ __ ~~0 ~ ~r ~ ~ ~ ~ ~ ~ 1~
a) ,~ O O O O O O O o S~ 5~ ~ ~ ~ ~ ~ ~ ~ ,~
~::Q (~ ~ X X X ~C X X X X
,~ ~ V o r~ ~ ~ u:) ~ o u~
~ . . . . . . . .
Z* ~ ~ ~ r~ r~ I~ Lr~ ~ a~ ~r ~1 ,q o o o o o .~ _ G

a) 3 O ~ ~l ~ ~ ~ r~~D u~ ~D
R ,~ o o o o o o o o td O h h ~1 ~1 ~1 ~1 ,1 ,1 r-l ~1 E~ ~ a) ~ x x x x x x ~c x ~ ~ 1` ~ ~ ~ ~D ~ U7 . . . . . .
Q ,J ~~1 _ Is~ ~ ~ ~1 O O O O O O O O
_ _ __ ., 34o ~ ~ ~ ~ ~ ~ Ln ~ ~r ~-1 a)~ h ,1 ,1 ~1 ,~ ~1 ~1 ~1 ~1 O ~ ~ X X ~ X X X ~ X
~ ~\ o u~ ~ ~ ~ ~1 r- ~ u~
~ . ~ . . . . .
Z ~ R r~ ,1 In ~1 ~1 ,1 o~ ~1 E~ o o .~ ~ ~
a~ ~1 ~1 ~ r~ ct) cc~
O ~ ~ ~ ~r ~r 1'~ ~I

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* number of vital bac-teria present in 1 g of raw beef ** 0 ... good; ~ ... slight putrid smell; x ... putre-fied I S C~ ppclr~/?t As ~r~nt from Table 12, the beef b~ packaged with the compositions of the invention were not modified at all after s-torage of four weeks.
Example 6 Freshness keeping agent of 5g of compositions 1,3,8, ;~
and 21 shown in Table 1 above was charged in a pouch in a similar manner as in Example 2. The pouch thus charg-ed and 10 bundles of leek each wrapped with a perforated polyethylene film (40~) were placed in a cardboard box which was then closed. While the leek thus packaged was stored at a temperature of 20C, wilting and decay of lS leek were observecl with the lapse of time. The results are shown in Table 13 where numbers of the leek bundles which were wilted and decayed are designated by the corresponding numbers.

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_ R o o o o co rl u~ a)~ o o o o ~ ,~ ~:' r~ r~ _ _ ._ _ LO '~ o o o o ~ r~
.~ _ _ .

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E~. _~ _ ____ _ . ~ ~ o o o o o o . ~ : _ . __ ~. .~, . . ~
,~ ~3 o o o o o o 4~' ,~
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a) ~ ~ ~ .,. ~~ ~1 U~ O
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As apparent from Table 13, the freshness keeping agents of the invention were found effective in pro-tec~-ing vegeta~les against being wilted and decayed.

'' : -, : . . . : . . :, : : ' :

,! : ~ ; . . i

Claims (6)

THE EMBODIMENTS OF THE INVENTION IN WHICH AN EXCLUSIVE
PROPERTY OR PRIVILEGE IS CLAIMED ARE DEFINED AS FOLLOWS:

1. A foodstuff freshness keeping agent for absor-bing oxygen in a foodstuff package, comprising a particulate composition consisting essentially of:
100 parts by weight of a main component consisting of at least one sulfate or chloride of manganese (II), iron (II), cobalt (II) or nickel (II);
20 to 100 parts by weight of an alkali component consisting of at least one hydroxide, carbonate or bicarbonate of an alkali or alkaline earth metal;
5 to 50 parts by weight of a water supplying compo-nent consisting of at least one hydrate of sodium sulfite, potassium sulfite, calcium sulfite, zinc sulfite, barium sul-fite, manganese sulfite, calcium chloride or magnesium chloride;
0 to 10 parts by weight of an adsorbent; and 0 to 70 parts by weight of iron powder.

2. A foodstuff freshness keeping agent for absor-bing oxygen in a foodstuff package, comprising a particulate composition consisting essentially of:
100 parts by weight of a main component consisting of at least one sulfate or chloride of manganese (II), iron (II), cobalt (II) and nickel (II), and 200 to 500 parts by weight of ascorbic acid or a salt thereof;
60 to 250 parts by weight of a component consisting of at least one hydroxide, carbonate or bicarbonate of an alkali or alkaline earth metal, for each 100 parts by weight of the main components;
20 to 80 parts by weight of water supplying compo-nent consisting of at least one hydrate of sodium sulfite, potassium sulfite, calcium sulfite, zinc sulfite, barium sul-fite, manganese sulfite, calcium chloride and magnesium chloride, for each 100 parts by weight of the main component;
30 to 80 parts by weight of an adsorbent for each 100 parts by weight of the main component; and 0 to 80 parts by weight of iron powder for each 100 parts by weight of the main component.

3. The foodstuff freshness keeping agent of Claim 1 or 2, wherein said alkali component comprises at least one carbonate or bicarbonate whereby to generate carbon dioxide gas.

4. The foodstuff freshness keeping agent of Claim 1 or 2, wherein said alkali component consists of sodium hydroxide, potassium hydroxide, magnesium hydroxide, calcium hydroxide, zinc hydroxide, aluminum hydroxide, sodium carbo-nate, sodium bicarbonate or mixtures thereof.

5. The foodstuff freshness keeping agent of Claim 2, wherein the ascorbic acid or salt thereof is L-ascorbic acid, sodium L-ascorbate, D-iso-ascorbic acid, sodium D-iso-ascorbate, or a mixture thereof.

6. The foodstuff freshness keeping agent of Claim 1 or 2, wherein said adsorbent agent consists of one or more of activated charcoal, zeolite, bentonite, activated clay, or activated alumina.