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Publication numberUS3658559 A
Publication typeGrant
Publication dateApr 25, 1972
Filing dateNov 20, 1969
Priority dateJun 28, 1969
Also published asDE1932900A1
Publication numberUS 3658559 A, US 3658559A, US-A-3658559, US3658559 A, US3658559A
InventorsMohwinkel Franz
Original AssigneePlasco Ltd Co
Export CitationBiBTeX, EndNote, RefMan
External Links: USPTO, USPTO Assignment, Espacenet
Process of preserving potatoes in closed packages
US 3658559 A
Abstract
A process for preserving foodstuffs such as potatoes in closed packages of foil packing material wherein the peeled, raw and if required sliced or diced potatoes are vacuum-packed without any included liquid and cooked or steamed and then cooled at a external pressure exceeding the internal pressure in the packing and controlled independently of the temperature, and wherein during the vacuum-packing process each potato or piece of potato is brought into direct contact with the inside of the packing material through at least a part of its surface area, preferably a third.
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United States Patent Mohwinkel [4 1 Apr. 25, 1972 54] PROCESS OF PRESERVING POTATOES 3,355,304 10/1967 IN CLOSED PACKAGES 3,501,318 3/1970 2,231,791 2/1941 [72] Inventor: Franz Mohwmkel, Ahlften uber Soltau, 3 190 759 6/1965 Germany [73] Assignee: Plasco Limited Company, Vaduz, FOREIGN PATENTS 0R APPLICATIONS Liechtenstein 579,098 7/1959 Canada ..99/171 Nov. 20, l 3 Great Bl'ltall'l i 7] [21] App]. No.: 878,418 OTHER PUBLICATIONS Related US, A li ti D AVl Publication, Potato Processing, Dec. 5, 1968 p. 588

v National Potato U. Conference, May 1962 p. 32. [63] Continuation-in-part of Ser. No. 804,694, Mar. 5,

1969' Primary ExaminerNorman Yudkofi- Assistant E.mminer--Martin G. Mullen {30] Foreign Application Priority Data Anomey cushman Darby and Cushman June 28, 1969 Germany ..P 19 32 900.1

[57] ABSTRACT [52] US. Cl ..99/17l, 99/100 P A process for preserving foodstuffs such as potatoes in closed [5]] 31/02 23! l/ l 2 packages of foil packing material wherein the peeled, raw and [58] held if required sliced or diced potatoes are vacuum-packed without any included liquid and cooked or steamed and then cooled at a external pressure exceeding the internal pressure [56] References cued in the packing and controlled independently of the tempera- UNITED STATES PATENTS ture, and wherein during the vacuum-packing process each potato or piece of potato is brought mto dlrect contact wlth 2,597,067 5/1952 Chase ..99/100 X the inside f the packing material through at least a part f its 2,609,301 9/1952 Lmdsey ..99/l71 X surface area f bl a m 3,175,914 3/1965 Vahlsing, Jr ..99/l00 P 3,215,539 1 1/1965 Landy ..99/221 6 Claims, 11 Drawing Figures Patented April 25, 1972' 3 Sheets-Shet l he. 3 E

I VEN TOR Aw A/Z Mm/W/Mea Patented April 25, 1972 3,658,559

3 Sheets-Sheet z Patented April 25, 1972 3 Sheet-Sheet 3 IN VEN TOR Ka i/v2 M0f W/A K L PROCESS OF PRESERVING POTATOES IN CLOSED PACKAGES This is a continuation-in-part of my co-pending application, Ser. No. 804,694, filed Mar. 5, 1969.

The present invention relates to the art of preserving and sterilizing foods and, more particularly, to a novel process for preserving foodstuffs such as potatoes in closed packages using pressure cookers (autoclaves) or cooking receptacles, and to the packaged goods thus preserved.

In the known processes of preserving potatoes by canning or bottling them in water a product is obtained which can be preserved for a relatively long period but which, as a result of being stored in a preserving liquid, deteriorates in flavor and loses valuable nutrient substances which are leached out by the liquid. Moreover, canning and, in particular, bottling are expensive and inconvenient and, when buying, the customer cannot see the product in the can, which is a possible disadvantage.

The object of this invention is to remove the present disadvantages and to provide an improved process of producing preserved potatoes which hardly differ in taste from fresh boiled potatoes and which, even in the wrapped state, afford an attractive appearance.

A further object of this invention is to provide a process of producing well preserved potatoes which are readily usable without further cooking, but only warming up.

Yet another object of this invention is to provide a process of producing a product which keeps for a relatively long period of time and which is neither leached out nor deteriorated in appearance and particularly color and taste compared to the natural product.

A further object of this invention is to produce a potatoproduct which is available to the user in packages, the quality of which he or she can judge by eye.

Further and other objects and advantages of the invention will be apparent from the following detailed description thereof.

In my process for cooking or steaming potatoes in closed packages with the aid of cooking autoclaves or'cooking receptacles, peeled raw potatoes are vacuum-packed in plastics containers with the treating temperature of about+ 100 C. or somewhat higher, while the absolute pressure in the cooking autoclaves or cooking receptacles is kept considerably higher than the absolute internal pressure of the container by supplying the latter, during the preserving treatment with steam, with so much compressed air that, at a temperamre of about 100 C., the total pressure in the steam space considerably exceeds the corresponding partial pressure of the steam of l atms., or the total pressure in the cooking receptacle considerably exceeds the steam pressure corresponding to this temperature. With this process, the potatoes are vacuum-packed in plasticfoil containers without any addition of liquid and are cooked and cooled under an external pressure exceeding the internal pressure of the closed containers and controlled independently of the temperature.

It is an essential feature of this process that at least one part of the surface of each potato or each piece of potato is brought into direct contact with the inside of the packing foild during the vacuum-packing process step.

If potatoes vacuum-packed in packages of foil material without any liquid undergo the cooking process in autoclaves or cooking receptacles, the danger arises that if the cooking temperature is relatively high, about 120 C., or if during the cooking process, for one reason or another, it unintentionally increases and the packaged potatoes are exposed for a longer time to a temperature of this value, incrustation and discoloration of the surface of the potatoes or pieces of potato occurs. This leads to a considerable reduction in the quality of the product.

On the other hand, for practical reasons, it is desired to use temperatures of this level for cooking the potatoes since these temperatures are usually used in the common canning and bottling preserving methods wherein the potatoes are treated with liquid, and furthermore, the internationally accepted standard for the sterilisation effect is based on a cooking temperature of 12 l C.

l have found that with the new process in which the potatoes are treated without liquid, these high temperatures can be used provided that the form of the packing bears a certain relation to the form of the articles of produce to be packed, namely so that during the filling and vacuum-sealing processes, one point of the surface of each individual article of produce comes into direct contact with the packing material and is fixed in this position for the subsequent stages of treatment. In this manner, with the process according to the invention, cooking can be undertaken at any of the usual cooking temperatures. As with the known processes, for each individual case the optimum conditions during the cooking stage are practically determined from the relation: cooking temperature cooking time. In the temperature region in question, from about l00-l25 C. and in the respective range of the cooking period of from about 20 minutes up to 2 hours, the height of temperature leveland the length of period of time are in reciprocal relationship, i.e., under generally uniform conditions, practically uniform results are obtained if cooking is undertaken for about 2 hours at C. or about 25 minutes at 121 C.

With the method according to the invention, the external pressure surrounding the filled packages is controlled and thus adjusted independently of the temperature during the cooking process and the subsequent cooling, so that it considerably exceeds the internal pressure in the package containers. By way of example, with a cooking temperature of 121 C., at which the internal pressure in the packages corresponds approximately to the steam pressure of the water present in the packed potatoes, thus at about 1 atmospheric excess pressure, the external pressure is set at one atmosphere higher, namely at about 3 atms. absolute pressure.

The arrangement according to the invention, of bringing each individual piece of the produce to be treated into direct contact with the wall of the packing material, seems surprising at first, for usually a direct contact is allowed only when it is consciously desired to brown the external surface of the pieces of potatoes, e.g., during the preparation of roast potatoes. However according to the invention, this step has the reverse effect of avoiding browning or other chemical change at any points of the surface of the pieces of produce to be treated.

Having carried out thorough investigations, 1 am able to theoretically explain the surprising effect which is reached with the previously described technical steps of the process according to the invention, as follows:

When cooking or sterilising vacuum-packed potatoes or pieces of potatoes which are packed in foil material without any liquid, completely different conditions are valid for the conduction of heat and heat transfer compared to the preserving of potatoes with liquid in cans or bottles. With the known method of preserving, the cans and bottles filled with the potatoes and liquid and then closed are heated from the outside and the heat transfer within the containers takes place through the transition of heat via the wall of the container heated by the external heating medium and the liquid, generally water, to the produce enclosed in the can or bottle which is to be heated. Since the liquid material, such as water, is a good conductor of heat, after a relatively short period of heating, the heat is equally and thoroughly distributed in the inner space of the packing container. It is known that this transfer of heat can be speeded up by moving or tumbling the cans during heating.

If on the other hand, potatoes are vacuum-packed in packaging containers without any liquid, such a type of heat transfer cannot take place. Though even then the wall of. the packing material is brought to the desired temperature owing to its direct contact with the external heating medium, however, since transmitting medium is missing from the inner space of the vacuum-packing, the heat can only be transferred from the wall of the packing material directly on to individual pieces of produce at those parts where the packing material is plied from the outside is in this case onlypossible by way of packing foil 2 which is surrounded by the heating medium 3. The path which must be covered by the heat supplied from the heating medium 3 via the packing foil 2 in order to reach the the packed potatoes and only at those parts where the pieces of produce are in contact. This and the fact that potato itself is a poor conductor of heat compared to water impedes the uniform heat conduction and can lead to localization of heat ing. It must be added here that the potatoes, particularly the uncut or comparatively large pieces, are extremely sensitive and in the case of a high or particularly lengthy heating caramelization or burning occurs, as a result of such a localisation of heat. It is therefore practically impossible without this reduction in quality to maintain heating until the heat from the layers of the packed produce in direct contact with the packing foil has passed to the produce located furthest from the packing material towards the center of the packing and the balance of heat has been adjusted. The outermost potatoes would burn or, if this were prevented, the innermost potatoes would be insufficiently sterilized.

These problems could be removed with the measures according to the invention. It is thus unnecessary to transfer heat from one potato or piece of potato to another; each individual piece of the produce is immediately supplied with heat from the outer heating medium through the direct contact between the piece and the packaging material. 1

The invention will now be explained with reference to th accompanying drawings which illustrate an embodiment of the packaging according to the invention and, for comparison, a known type of packaging. I

In the drawing: FIG. 1 is a side view of a package corresponding to the process according to the invention; 1 .FIG. 2 is a cross-sectional view of the package according to FIG. 1;

FIG. 3 is a plan view of FIG. 2; FIG. 4 is a plan view ofFIG. 1; FIG. 5 is a cross-sectional view of 'a modifiedembodiment of the type of package used with the process according to the invention; i

' FIG. 6 is a plan view of the embodiment of FIG. 5;

FIG. 7 is a cross-sectional view of an embodiment used for comparison; 1 J FIG. is a plan view of the embodiment according to FIG. 7; v

FIG. 9 is a side view of another'form of comparison; FIG. 10 is a cross-sectional view of the embodiment according to FIG. 9; and

FIG. 11 is a cross-sectional view of the form of a large package in the case of the process accordingto the invention.

"In' all drawings, comparable parts are provided with the same reference numerals.

FIGS. 1 to 4 illustrate the most favourable form of package according to the invention. Each potato la or piece of potato lb is in direct contact with the packing material 2 which is surrounded by the external heating medium 3, consisting of steam or water. As is clearly seen in FIG. 2, the majority of the individual potatoes or pieces, if they are diced, have two side faces directly on thepacking material so that in cross-section about a third of the surface of the packed produce 10 and 1b is able to absorb the heat supplied by way of the heating medium 3 and the packing foil 2. As illustrated by the arrows in FIGS. 2, 3 and 4, this heat only needs to cover a relatively short path in order to reach the parts furthest away from the outer edge of the package, namelythe core 4 of the packed produce,

which enables a uniformly favourable heating to occur in a reasonable time, whilst also taking into account the relatively poor conduction .of heat of the potatoes.

A sufficiently unifon-n supply of heat which can be'reached in a reasonable time is, as has been found, also possible with the embodiments illustrated in FIGS. 5 and 6. In the arrangement indicated, each potato 1a or piece of potato lb is not heated from two sides but from one side, since the side faces of each piece In and lb (in diced form) is in contact with the a core 5 which is here located between the individual pieces of produce adjoining the packing foil on each side is about twice as long as with the embodiment in FIGS. 1 to 4, but as has been found, can still be achieved in suitable times so that at least with ordinary types of potatoes, this embodiment of the process according to the invention illustrated in FIGS. 5 and 6 leads to very favorable results.

FIGS. 7 and 8 illustrate containers which have such a poor conduction of heat that a suitable sterilization of the inner potatoes 10 or pieces of potatoes 1d is not possible without a severe decrease in quality. As indicated by the arrows, the heat transferred from the heating medium 3 to the packing foil 2, and from there to the potatoes 1a or pieces of potato lb in dirct contact with the packing, must flow not only through one individual piece of potato 1a or lb, but must also pass from there to an inner potato lc or piece of potato 1d, which is not in direct contact with the packing material and likewise diffuse through this portion. The time required for this is so long, or the supply of heat so high that the quality of the potatoes necessary for the present purpose can no longer be main tained. Even more unfavorable are the proportions in a large packing, with a capacity of about 3 kg, as is seen in FIGS. 9 and 10. The external heating medium 3 can only directly heat surfaces of the packing material 2 which are small in comparison with the entire surface of the packed potatoes and pieces of potato 1a lb lc+ 1d and the heat is only directly transferred from the packing material 2 to the few potatoes In or pieces of potatoes 1b lying on the outer edge 'of the large package. The path of heat inwardly fromthe outsideoutlined by the arrow in FIG. 10 clearly showsthat a sufficient sterilisation of the inner core zone is not possible without the outer lying potatoes 1a or pieces of potato 1b being severely burnt.

The differencebetween thisknowntype of large package according, to FIGS. 9 and. I0 and thetype which must con stitute a large package when treated in accordance with the process according to the invention, can be seen at a glance by comparing FIG. 10 with FIG. 11. FIG. 11, like FIG. 2, illustrates the shortpath which the heat takes during the cooking process for the fully uniform heating of the packed produce for potatoes packed according to the invention.

Products preserved accordingto the process of my invention are able to' be stored over periods as long as 6 months or a six months with virtually no impairment of the wholesomeness of the potatoes.

An example of materials that may be used for the plastic container 2 is a thermoplastic synthetic organic polymer such as the product commercially marketed by Messrs. Wolff Walsrode AG, Federal Republic of Germany, under the commercial designation COMBITHEN S PA 3/l0 K 3060 SIEGEL- RANDBEUT EL.

It will be appreciated that various modifications and variations in addition to those suggested above may be made in the process of the invention, and accordingly it will be understood that the invention is to be limited only within the scope of the appended claims.

Having now described this invention, what is claimed is:

l. A process for cooking and preserving potatoes ina closed and sealed package of plastic material comprising: vacuumpacking peeled, raw and sliced or diced potatoes in said package without adding any liquid so that there is no water or other liquid in the closed and sealed package other than the natural juices within the potatoes therein, cooking and then cooling said packaged potatoes at an external pressure exceeding the internal pressure in the package, and wherein during. the vacuum-packing step each piece of potato in said 4. The process of claim 1, wherein cooking by steaming is performed with a cooking temperature of about C. at an internal pressure in the packages of about 3 atms. absolute pressure for a cooking period of about 2 hours.

5. The process defined in claim 1 wherein the package is substantially transparent.

6. The process defined in claim 1 and further wherein the said packaged potatoes, after said cooking and cooling, are stored at room temperature without being refrigerated.

Patent Citations
Cited PatentFiling datePublication dateApplicantTitle
US2231791 *Jul 31, 1940Feb 11, 1941Bensel Brice CorpProcess for preserving food
US2597067 *Sep 13, 1949May 20, 1952Arthur M ChaseProcess for preparing and preserving potatoes
US2609301 *Apr 5, 1949Sep 2, 1952Frederick W LindseyFood package
US3175914 *Jan 9, 1963Mar 30, 1965Vahlsing IncMethod of treating potato solids
US3190759 *Oct 13, 1960Jun 22, 1965Kalle AgProcess for making sterilized sausage packages
US3215539 *Aug 9, 1962Nov 2, 1965Landy Jerome JMethod of sterilizing food in sealed containers
US3355304 *May 27, 1964Nov 28, 1967Pillsbury CoTwo-stage cooking and dehydrating process for potatoes and like vegetables
US3501318 *Dec 26, 1967Mar 17, 1970Fmc CorpMethod and apparatus for processing products in flexible containers
CA579098A *Jul 7, 1959Schulz GeorgPreservation of foodstuffs
GB816313A * Title not available
Non-Patent Citations
Reference
1 *AVI Publication, Potato Processing Dec. 5, 1968 p. 588
2 *National Potato U. Conference, May 1962 p. 32.
Referenced by
Citing PatentFiling datePublication dateApplicantTitle
US4135003 *Jan 6, 1972Jan 16, 1979Washington Nu Process, Inc.Process of preserving vegetable produce, such as potatoes, in closed packages
US4670275 *Sep 13, 1984Jun 2, 1987Dna Plant Technology CorporationProlonging the shelf life of fresh root vegetables
US4808420 *Nov 12, 1986Feb 28, 1989Dna Plant Technology CorporationFresh root vegetables with prolonged shelf life
US4855153 *Jul 17, 1987Aug 8, 1989Dna Plant Technology CorporationProlonging the shelf life of fresh root vegetables
US5665411 *Mar 20, 1995Sep 9, 1997Bassetti; Robert P.Method of packaging and microwaving sweet potato
US5679392 *Jun 7, 1995Oct 21, 1997Schegan; JohnHeat treatment of raw molluscan shellfish
US5773064 *Mar 22, 1996Jun 30, 1998Tesvich; JohnHeat treatment of raw molluscan shellfish including a banding process
US5922383 *Apr 23, 1997Jul 13, 1999M.A. Gedney Co.Method for brine free long term storage of pickles
US5976601 *Jun 12, 1998Nov 2, 1999Tesvich; JohnMild heat treatment of oysters in their natural shell
US20070087086 *Dec 1, 2004Apr 19, 2007Novozymes A/SMethod for producing potato products
US20090142445 *Jan 21, 2005Jun 4, 2009Novozymes A/SMethods for producing a vegetable product
US20100015309 *Jul 16, 2009Jan 21, 2010Cryovac, Inc.New post-packaging pasteurization process
US20120198792 *Mar 20, 2012Aug 9, 2012Long Life S.R.L.Process for good packaging, namely food stuffs, packagings and kits for their realization
US20160000099 *May 29, 2015Jan 7, 2016Wm. Bolthouse Farms, Inc.Monolayer food product and methods
WO2005070220A1 *Jan 21, 2005Aug 4, 2005Novozymes A/SMethods for producing a vegetable product
WO2008155462A1 *Jun 17, 2008Dec 24, 2008Novisol OyPacked food product concentrate and method for preparing thereof
Classifications
U.S. Classification426/412
International ClassificationB65D81/20, B65B25/02, B65B25/04, A23B7/005
Cooperative ClassificationB65B25/02, B65B25/041, B65D81/2023, A23B7/0056
European ClassificationB65B25/02, A23B7/005F4, B65B25/04A, B65D81/20B2