WO2008006388A1 - Preserved slices of vegetables and fruits and processing methods - Google Patents

Preserved slices of vegetables and fruits and processing methods Download PDF

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Publication number
WO2008006388A1
WO2008006388A1 PCT/EP2006/006825 EP2006006825W WO2008006388A1 WO 2008006388 A1 WO2008006388 A1 WO 2008006388A1 EP 2006006825 W EP2006006825 W EP 2006006825W WO 2008006388 A1 WO2008006388 A1 WO 2008006388A1
Authority
WO
WIPO (PCT)
Prior art keywords
slices
slice
vegetable
fruit
dehydrated
Prior art date
Application number
PCT/EP2006/006825
Other languages
French (fr)
Inventor
Ulrich Erle
Roland Lermer
Original Assignee
Nestec S.A.
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Priority to PCT/EP2006/006825 priority Critical patent/WO2008006388A1/en
Priority to AU2006345964A priority patent/AU2006345964B2/en
Priority to CN2006800553164A priority patent/CN101484013B/en
Priority to CA002657297A priority patent/CA2657297A1/en
Priority to NZ573845A priority patent/NZ573845A/en
Priority to EP06762558A priority patent/EP2043448A1/en
Application filed by Nestec S.A. filed Critical Nestec S.A.
Priority to BRPI0621881-4A priority patent/BRPI0621881A2/en
Priority to UAA200901006A priority patent/UA98302C2/en
Priority to US12/373,017 priority patent/US8460728B2/en
Publication of WO2008006388A1 publication Critical patent/WO2008006388A1/en
Priority to IL195961A priority patent/IL195961A0/en
Priority to EC2009009048A priority patent/ECSP099048A/en

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Classifications

    • AHUMAN NECESSITIES
    • A23FOODS OR FOODSTUFFS; TREATMENT THEREOF, NOT COVERED BY OTHER CLASSES
    • A23BPRESERVING, e.g. BY CANNING, MEAT, FISH, EGGS, FRUIT, VEGETABLES, EDIBLE SEEDS; CHEMICAL RIPENING OF FRUIT OR VEGETABLES; THE PRESERVED, RIPENED, OR CANNED PRODUCTS
    • A23B7/00Preservation or chemical ripening of fruit or vegetables
    • A23B7/02Dehydrating; Subsequent reconstitution
    • A23B7/022Dehydrating; Subsequent reconstitution with addition of chemicals before or during drying, e.g. semi-moist products
    • AHUMAN NECESSITIES
    • A23FOODS OR FOODSTUFFS; TREATMENT THEREOF, NOT COVERED BY OTHER CLASSES
    • A23BPRESERVING, e.g. BY CANNING, MEAT, FISH, EGGS, FRUIT, VEGETABLES, EDIBLE SEEDS; CHEMICAL RIPENING OF FRUIT OR VEGETABLES; THE PRESERVED, RIPENED, OR CANNED PRODUCTS
    • A23B7/00Preservation or chemical ripening of fruit or vegetables
    • A23B7/02Dehydrating; Subsequent reconstitution
    • AHUMAN NECESSITIES
    • A23FOODS OR FOODSTUFFS; TREATMENT THEREOF, NOT COVERED BY OTHER CLASSES
    • A23BPRESERVING, e.g. BY CANNING, MEAT, FISH, EGGS, FRUIT, VEGETABLES, EDIBLE SEEDS; CHEMICAL RIPENING OF FRUIT OR VEGETABLES; THE PRESERVED, RIPENED, OR CANNED PRODUCTS
    • A23B7/00Preservation or chemical ripening of fruit or vegetables
    • A23B7/02Dehydrating; Subsequent reconstitution
    • A23B7/0215Post-treatment of dried fruits or vegetables
    • AHUMAN NECESSITIES
    • A23FOODS OR FOODSTUFFS; TREATMENT THEREOF, NOT COVERED BY OTHER CLASSES
    • A23LFOODS, FOODSTUFFS, OR NON-ALCOHOLIC BEVERAGES, NOT COVERED BY SUBCLASSES A21D OR A23B-A23J; THEIR PREPARATION OR TREATMENT, e.g. COOKING, MODIFICATION OF NUTRITIVE QUALITIES, PHYSICAL TREATMENT; PRESERVATION OF FOODS OR FOODSTUFFS, IN GENERAL
    • A23L19/00Products from fruits or vegetables; Preparation or treatment thereof

Definitions

  • the present invention relates to dehydrated slices of vegetables and fruits which are adapted e.g. to be re- hydrated under maintenance of their natural appearance, and to a processing method. Such dehydrated slices can also be used in the dried state e.g. as a low-fat snack.
  • a method for non-fry cooking and its uses is taught in US 2005/0013910 to Yasou Takeuchi et al., relating particularly to a method for non-fry cooking, comprising a step of heating and dehydrating a food material using an aqueous trehalose solution with a relatively high temperature and concentration.
  • a non-fried and thus fat reduced product is obtained by the method provided; furthermore an agent for non-fried cooking comprising trehalose as an effective ingredient is disclosed.
  • the embodiments of the present invention refer to dehydrated slices of vegetables or of fruits, which can be subjected to rehydration later on in order to provide a tasty and pleasant looking fruit or vegetable ingredient for a meal. They can also used in the dried state e.g. as a snack.
  • the dehydrated slices have a circumference which is substantially the same as the circumference of the respective slice of the raw vegetable had been before processing.
  • the dehydrated slices are remarkably reduced with respect to their thickness only, maintaining their planar surface.
  • the dehydrated slices may comprise additional carbohydrates, which advantageously may provide an increased maintenance of the natural colour of the vegetable or fruit, and which give a structural support, whereby the storing stability, transporting and further processing are facilitated.
  • One embodiment of the present invention refers to dehydrated zucchini slices, which are fresh looking, having a bright green peel, and having a circular circumference which is approximately the same as the one of the respective fresh zucchini.
  • the surface of said zucchini slice is planar and doesn't show unwanted ripples.
  • the zucchini slices give a pleasant mouthfeel after rehydrating, which is performed quickly and meets the customer's needs.
  • a method is provided teaching to prepare a dehydrated slice according to the embodiments of the present invention is disclosed, said method referring to the general preparing steps such as cleaning and slicing of the vegetables and fruits, and, furthermore, depicting the steps of heating said slices by methods such as blanching, boiling, steaming, followed by rinsing prior to a single- layer pre-drying and final air drying.
  • the focus of the process is generally laid on the pre-drying, which is carried out when the heated and rinsed slices are carefully arranged on an air-permeable surface, whereby the slices shall not overlap each other in order to provide a homogeneous drying and/or a sticking together of the slices.
  • the placing on said surface is performed such that shrinkage of the circumference of the slice is prevented, and, hence, the surface is kept plane, without being subjected to undesired wrinkling.
  • Further embodiments of the method refer to the adding of carbohydrate, preferably to the adding of trehalose, which helps maintaining the fresh color of the vegetable due to its non reducing properties.
  • Another method teaches said rehydrating, whereby the rehydrating parameters are selected to obtain a tasty and naturally looking product.
  • FIG. 1 shows a front side view on an air permeable surface covered with zucchini slices during the processing.
  • Dehydrating herein means the process of removing the naturally contained water from food, particularly from vegetables and fruits, such that the natural water content is reduced, whereas “rehydration” is meant to be understood as supplying the dehydrated vegetables and fruits with a liquid.
  • This liquid can be water, alcohol, or any kind of fluid suitable for nutrition and suitable to replace the formerly removed water.
  • the product of the embodiments of the present invention is a plane, dehydrated slice of a vegetable or a fruit.
  • Fruits and vegetables of interest may advantageously have an elongated shape, which can easily be cut into slices.
  • Vegetable coming into question are zucchinis, carrots, aubergines (eggplants), turnips, radishes and squash, to name some exemplarily. These vegetable are suitable to give a plurality of slices with similar size, which is most advantageous with respect to an automated producing process on the one hand side, on the other hand, the process of dehydrating of the raw slices is facilitated when an homogeneous drying can be carried out.
  • the dehydrated slices of a raw vegetable or a raw fruit have the circumference which is substantially the same as the circumference of the respective fresh cut slice of the raw vegetable, but the thickness of the dehydrated slice is reduced. This reduction is roughly proportional to the reduction of the water content and can be about 20 to 95 % in comparison to the thickness of the respective slice of the raw vegetable or fruit.
  • the fresh cut slices have a planar surface which is maintained during dehydration, so that the dehydrated slices have a planar surface, too, which is esthetic looking and free of ripples .
  • the dehydrated slices may be provided with an extra amount of carbohydrates, which is added during the processing.
  • the added carbohydrates can advantageously be saccharides, providing a coating of the surface of the slices. Or the slice material might take up the carbohydrate, leading to an impregnation then.
  • the carbohydrates give an additional support to the structure of the food material, accordingly they make the slices more stable and thus easier to transport without damaging.
  • a further advantage is the reduction of discoloring, which may be achieved when the carbohydrate is a non-reducing disaccharide such as e.g. trehalose: a colored peel or skin may be prevented from visible discoloring (browning) when compared to a raw fruit or vegetable .
  • Other carbohydrates which can be used in addition or alternatively are maltose, erlose, glucose, lactose, maltodextrin or any possible combination and subcombination thereof.
  • saccharides with a high glass- transition temperature are used.
  • the preparation of the dehydrated slices of a raw vegetable and raw fruits may be generally performed by the following method, which comprises the steps: Preparing the raw vegetable or raw fruit, wherein preparing herein means to clean the pieces to be processed, and to sort them, if a plurality of pieces is intended to be processed.
  • the edges are cut off. Then, the pieces are cut into slices.
  • the thickness of the slices is chosen under consideration of the properties of the food material, in particular with respect to the water contents and structure of the vegetable to be processed:
  • a carrot might advantageously be cut in thinner slices than a zucchini.
  • Zucchini slices e.g., are advantageously provided having a thickness of about 5 to 8 mm. But even thicker or thinner slices can be processed.
  • the cross sectional shape of the slices might be advantageously a circle, but it can be also desirable to cut slices having a rectangular or any other cross sectional shape, in particular if the slices are required for food-decorating purposes.
  • Slicing is followed by a heat-treatment which may be performed by a conventional method such as blanching, boiling, and steaming.
  • a gentle method or the method requiring a low temperature, such as blanching might be chosen in order to keep the cell structure of the food material intact.
  • the boiling, respectively heating, step evaporates air inclusions in the food material, improving thereby the color intensity.
  • the heat-treatment has to soften the tissue and enable the entry of the saccharides. Therefore, the heat treatment has to be done at a temperature which is sufficiently high for these effects.
  • the heating can be followed by pre-drying of said blanched, boiled or steamed slices.
  • Pre-drying is performed in that each slice of the plurality of slices is placed separately, such that the slices do not overlap each other, on an air-permeable surface, which is posed in a drier to provide air drying.
  • the surface should advantageously be adapted to permit application of the slices on it such that they are detachably fixed when the pre-drying is finished.
  • This detachable fixing during the pre-prying provides a shrinking only of the thickness of the slices. A shrinking of the circumference is prevented.
  • the slices maintain their maximum surface; therefore the water removal can be performed easily, quickly and homogeneously. This leads to an advantageous minimization of the drying-time, and, in parallel, provides the esthetic appearance of the slices.
  • Any known drying method such as e.g. vacuum drying, can be used.
  • the first way is the one being done during the above described step of boiling, which is carried out as gentle and short as possible, advantageously for 3 to 5 minutes.
  • the carbohydrates during the heat-treatment are already present in the hot or boiling solution, thereby providing a carbohydrate solution.
  • This carbohydrate solution may comprise 20 to 30 weight % of carbohydrates. Even a range from 10 to 40 weight % or 5 to 50% is possible. It is advisable to use a kettle with sieve of fitting dimensions so that the amount of carbohydrate solution needed per kilogram of treated food material is minimum.
  • Monitoring of the carbohydrate solution quality can be done online by refractive index measurements. Refilling of carbohydrates can be done at a critical refractive index value .
  • the carbohydrates of the embodiments of the present invention can be saccharides; advantageously one might select non-reducing disaccharides such as trehalose, preventing discoloring of the processed food.
  • Trehalose solutions can be boiled for several hours without substantial browning. This sugar also has a very high glass transition temperature which adds to the shelf stability of the final product .
  • the second way is the contacting with carbohydrates succeeding to the step of blanching.
  • Blanching too, is performed as gentle and short as possible, advantageously for about 3 to 5 minutes. Depending on the food material, it may also take longer or shorter.
  • the blanched slices are mixed with a carbohydrate powder or a concentrated solution (such as e.g. a syrup) .
  • a carbohydrate powder or a concentrated solution such as e.g. a syrup
  • the pre-drying step with air in a single layer is of great importance to the quality of the final product. Is advisable to place the slices manually on said air- permeable surface, which may be made from plastics or a similar fabric suitable to be subjected to hot air.
  • This first drying operation can be done during 30 to 120 minutes at a temperature of about 50 0 C to 100 °C.
  • the dryer has a relatively homogeneous air and heat distribution, since the product cannot be turned during the drying. If necessary, the drying temperature can be reduced and the drying time can be prolonged, until none of the slices suffers heat damage.
  • the pre-drying time may be ranging then from 50 to 120 minutes. The temperature may range from 50 0 C to 90 0 C, if necessary.
  • the slices get very brittle to the end of the pre-drying step, so they can be detached easily from the air-permeable surface. If the fabric serving as surface is flexible, e.g., nylon or a plurality of other polymeric fabrics, the detaching is facilitated.
  • the final drying is performed.
  • the slices can be detached from the pre-drying surface and can be re- placed bulk wise, accordingly overlapping, on another air- permeable surface.
  • the limiting factor herein is the resistance of air flow which is somewhat lower in more coarse fabrics.
  • the final drying is performed for at least 3 hours, at a temperature of 50 to 80 0 C, preferably at 60°C to 70 0 C. After the drying is finalized, the water activity of the slices is about 0.2 to 0.5, preferably 0.3 to 0.4.
  • any drier can be used as only a small amount of water has to be removed.
  • the dehydrated slices should be rehydrated.
  • the consumer may perform re-hydrating himself, if desired or use the slices in the dry state as snacks.
  • one humidifies the dried slices by heating them for about 3 to 4 minutes, again depending in the sort of vegetables or fruits, and on the thickness of the slices. This can be done using a hydrating substance.
  • the most advantageous option is the boiling in water, but one may use as well alcoholic substances, such as wine. Even milk or the like come into question.
  • the thickness of the dehydrated slice is re-extended to almost the thickness of the respective slice of the raw vegetable or fruit, and has now a soft or smooth planar surface.
  • zucchini-slices 1 being processed on a flexible nylon tissue 2 as air-permeable surface.
  • the tissue is moved by a not shown conveyor belt.
  • the zucchini slices shown herein result from a medium-dark green, Italian style zucchini with diameter of about 30 to 40 mm, having a cylindrical shape which is advantageous for yield reasons.
  • the slices were cut in whole slices of 5 to 8 mm thickness. This seems very thick, but as the slice is supposed to shrink only in the thickness dimension it will result in a thickness of between 0.5 mm to 1 mm, preferably lmm, of the final product.
  • the boiled, carbohydrate-impregnated, separated slices 6 had been be placed on said air-permeable surface 2 in a single layer 6.
  • the carbohydrate addition to the zucchini slices 1 e.g. 10 to 70 % of total dry matter
  • the dosage of carbohydrate should not be much higher than the dry matter content of the zucchini itself. However, the exact dosage depends on the trip loss on the process.
  • Using single layers 6 generally increases the drier throughput, leading furthermore to a pre-drying-time of only 60 to 90 minutes.
  • the pre-drying is performed in the zone indicated by the arrow b.
  • the zucchini slices 1 have hardened, so they can be detached (see arrow a) from the nylon 2 by moving over a detaching edge 3.
  • the overlapping slices 4 are subjected to the final drying for about three to five hours, without deformation or shrinkage of the slices 1.
  • the final drying can be carried out as a bulk-drying.
  • the drying is advantageously carried out as a two-step drying, so the formation of the bulk 5 occurs, when the final shape and circumference of the slices 1 is fixed. This keeps the percentage of broken slices 1 during transport low.
  • the product is an essentially plane, green, dehydrated slice of zucchini, which gives a pleasant, natural texture after three minutes boiling in water for rehydration purposes.
  • Each slice has the diameter of the respective fresh zucchini, because the process does not allow shrinkage in two of the three dimensions. So, the detachably fixed zucchini slices have a larger surface in comparison to conventional drying methods, and therefore an improved water uptake.
  • the addition of sugar also improves rehydration. Only thickness is reduced dramatically by shrinkage.
  • the product is not prone to discoloration during storage at ambient temperatures.
  • the zucchini products are planar whole slices of less than 1 mm thickness, they are not wrinkled, naturally colored, accordingly having a light green color and a dark green peel, without brown areas, showing a reduced tendency to become brown during storage.

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  • Chemical & Material Sciences (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • Engineering & Computer Science (AREA)
  • Polymers & Plastics (AREA)
  • Food Science & Technology (AREA)
  • Zoology (AREA)
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  • General Chemical & Material Sciences (AREA)
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Abstract

A dehydrated slice of a vegetable or a fruit is provided, which is adapted to be rehydrated by a rehydration process, having a circumference which is substantially the same as the circumference of the respective slice of the raw vegetable, and having a thickness which is reduced about 20 to 90 % in comparison to the thickness of the respective slice of the raw vegetable or fruit. The dehydrated slice has a planar surface. Furthermore, a method is provided to produce said dehydrated slices. Said dehydrated slices are adapted to be rehydrated by a rehydration process herein provided, whereby performance of said process leads to a rehydrated slice with a thickness of the respective raw vegetable or fruit.

Description

PRESERVED SLICES OF VEGETABLES AND FRUITS
AND PROCESSING METHODS
BACKGROUND ART
[0001] The present invention relates to dehydrated slices of vegetables and fruits which are adapted e.g. to be re- hydrated under maintenance of their natural appearance, and to a processing method. Such dehydrated slices can also be used in the dried state e.g. as a low-fat snack.
[0002] The modern consumers' nutrition habits lately focus more and more on healthy, fresh and tasty food, which should be provided at any time of the day, being quickly prepared to provide a complete and nourishing meal. Food such as soups, sauces and the like shall be prepared fast, requiring only a minimum of preparation steps, tasting or looking freshly prepared at the same time. Accordingly, components such as fruit, vegetables or mushrooms which are provided in convenience products or foods, respectively, shall be processed to permit storage, particularly long-term storage, being maintained naturally and fresh looking and tasty anyway, and, hence, having an esthetic appearance.
[0003] Taste, form and properties of processed foods change significantly depending on their processing. A variety of processing methods is known to provide healthy or naturally looking foods. [0004] US 6977090 to R. J. Petcavich, teaches methods for preserving the natural color and appearance of fresh and minimally processed produce, aiming to inhibit desiccation or discoloration such as white blushing, e.g., of the processed fruit and vegetables by providing the fruit or vegetable with a trehalose or sugar coating.
[0005] A method for non-fry cooking and its uses is taught in US 2005/0013910 to Yasou Takeuchi et al., relating particularly to a method for non-fry cooking, comprising a step of heating and dehydrating a food material using an aqueous trehalose solution with a relatively high temperature and concentration. A non-fried and thus fat reduced product is obtained by the method provided; furthermore an agent for non-fried cooking comprising trehalose as an effective ingredient is disclosed.
[0006] In US 2003194479 to Yasou Takeuchi et. al, a process for producing processed foods is disclosed, describing the steps of contacting raw food material (s) with saccharide (s) in a solid or a liquid form, providing the uptake of saccharide (s) by an intact food material. Said process is performed without blanching and then heating the resulting mixture by one or more heating methods selecting form the group consisting of steaming, baking, frying, and microwaving. Takeuchi et al. aim for an effective exertion of flavor and taste of said food materials, and providing a superior preservative stability of the processed material.
[0007] However, the vegetables and fruits, or pieces therefrom, preserved by the methods described in the state of the art have sustained a loss of their fresh-looking appearance which is based substantially on three-dimensional shrinkage and rippled surfaces, sometimes accompanied by a change of color. A slice of vegetable, e. g., will according to a widely known experience - become wrinkled and uneven and potentially brownish after having been subjected to a dehydrating preserving process described in the state of the art.
[0008] Extensive shrinkage in all dimensions leads to a hard texture after rehydration, presumably because fibres form compact structures that do not easily take up water and unfold again.
DISCLOSURE OF THE INVENTION
[0009] It is an object of the embodiments of the present invention to provide improved dehydrated slices of vegetables or fruits, being adapted to be rehydrated by a rehydration process, and methods to produce said improved rehydrated slices.
[00010] The object is solved by the features of the independent claims. Preferred embodiments are shown by the dependent claims.
[00011] The embodiments of the present invention refer to dehydrated slices of vegetables or of fruits, which can be subjected to rehydration later on in order to provide a tasty and pleasant looking fruit or vegetable ingredient for a meal. They can also used in the dried state e.g. as a snack. Generally, the dehydrated slices have a circumference which is substantially the same as the circumference of the respective slice of the raw vegetable had been before processing. The dehydrated slices are remarkably reduced with respect to their thickness only, maintaining their planar surface.
[00012] Furthermore, the dehydrated slices may comprise additional carbohydrates, which advantageously may provide an increased maintenance of the natural colour of the vegetable or fruit, and which give a structural support, whereby the storing stability, transporting and further processing are facilitated.
[00013] One embodiment of the present invention refers to dehydrated zucchini slices, which are fresh looking, having a bright green peel, and having a circular circumference which is approximately the same as the one of the respective fresh zucchini. The surface of said zucchini slice is planar and doesn't show unwanted ripples. The zucchini slices give a pleasant mouthfeel after rehydrating, which is performed quickly and meets the customer's needs.
[00014] Furthermore, a method is provided teaching to prepare a dehydrated slice according to the embodiments of the present invention is disclosed, said method referring to the general preparing steps such as cleaning and slicing of the vegetables and fruits, and, furthermore, depicting the steps of heating said slices by methods such as blanching, boiling, steaming, followed by rinsing prior to a single- layer pre-drying and final air drying. The focus of the process is generally laid on the pre-drying, which is carried out when the heated and rinsed slices are carefully arranged on an air-permeable surface, whereby the slices shall not overlap each other in order to provide a homogeneous drying and/or a sticking together of the slices.
[00015] The placing on said surface is performed such that shrinkage of the circumference of the slice is prevented, and, hence, the surface is kept plane, without being subjected to undesired wrinkling.
[00016] Further embodiments of the method refer to the adding of carbohydrate, preferably to the adding of trehalose, which helps maintaining the fresh color of the vegetable due to its non reducing properties.
[00017] Other embodiments of the present invention are related to the rehydrated product, which can be obtained when the dehydrated slices of the embodiments of the present invention are re-moistured.
[00018] Another method teaches said rehydrating, whereby the rehydrating parameters are selected to obtain a tasty and naturally looking product.
BRIEF DESCRIPTION OF DRAWINGS
[00019] Other objects and many of the attendant advantages of embodiments of the present invention will be readily appreciated and become better understood by reference to the following more detailed description of embodiments in connection with the accompanied drawing. Features that are substantially or functionally equal or similar will be referred to by the same reference signs.
[00020] FIG. 1 shows a front side view on an air permeable surface covered with zucchini slices during the processing.
[00021] In the description and in the claims which follow, reference will be made to the following terms which shall be defined to have the herewith explained meanings: [00022] "Vegetable" herein means any sort of vegetables and, explicitly, any sort of mushrooms.
[00023] "Dehydrating" herein means the process of removing the naturally contained water from food, particularly from vegetables and fruits, such that the natural water content is reduced, whereas "rehydration" is meant to be understood as supplying the dehydrated vegetables and fruits with a liquid. This liquid can be water, alcohol, or any kind of fluid suitable for nutrition and suitable to replace the formerly removed water.
[00024] Generally, the product of the embodiments of the present invention is a plane, dehydrated slice of a vegetable or a fruit. Fruits and vegetables of interest may advantageously have an elongated shape, which can easily be cut into slices. Vegetable coming into question are zucchinis, carrots, aubergines (eggplants), turnips, radishes and squash, to name some exemplarily. These vegetable are suitable to give a plurality of slices with similar size, which is most advantageous with respect to an automated producing process on the one hand side, on the other hand, the process of dehydrating of the raw slices is facilitated when an homogeneous drying can be carried out.
[00025] The dehydrated slices of a raw vegetable or a raw fruit have the circumference which is substantially the same as the circumference of the respective fresh cut slice of the raw vegetable, but the thickness of the dehydrated slice is reduced. This reduction is roughly proportional to the reduction of the water content and can be about 20 to 95 % in comparison to the thickness of the respective slice of the raw vegetable or fruit.
[00026] The fresh cut slices have a planar surface which is maintained during dehydration, so that the dehydrated slices have a planar surface, too, which is esthetic looking and free of ripples .
[00027] To maintain the healthy appearance of bright colored vegetables as, e.g., zucchini, one may provide the dehydrated slices with an extra amount of carbohydrates, which is added during the processing. The added carbohydrates can advantageously be saccharides, providing a coating of the surface of the slices. Or the slice material might take up the carbohydrate, leading to an impregnation then. The carbohydrates give an additional support to the structure of the food material, accordingly they make the slices more stable and thus easier to transport without damaging. A further advantage is the reduction of discoloring, which may be achieved when the carbohydrate is a non-reducing disaccharide such as e.g. trehalose: a colored peel or skin may be prevented from visible discoloring (browning) when compared to a raw fruit or vegetable .
[00028] Other carbohydrates which can be used in addition or alternatively are maltose, erlose, glucose, lactose, maltodextrin or any possible combination and subcombination thereof.
[00029] Preferably saccharides with a high glass- transition temperature are used.
[00030] The preparation of the dehydrated slices of a raw vegetable and raw fruits may be generally performed by the following method, which comprises the steps: Preparing the raw vegetable or raw fruit, wherein preparing herein means to clean the pieces to be processed, and to sort them, if a plurality of pieces is intended to be processed.
[00031] Usually the edges are cut off. Then, the pieces are cut into slices. The thickness of the slices is chosen under consideration of the properties of the food material, in particular with respect to the water contents and structure of the vegetable to be processed: A carrot might advantageously be cut in thinner slices than a zucchini. Zucchini slices, e.g., are advantageously provided having a thickness of about 5 to 8 mm. But even thicker or thinner slices can be processed. Furthermore, the cross sectional shape of the slices might be advantageously a circle, but it can be also desirable to cut slices having a rectangular or any other cross sectional shape, in particular if the slices are required for food-decorating purposes.
[00032] Slicing is followed by a heat-treatment which may be performed by a conventional method such as blanching, boiling, and steaming. Advantageously, a gentle method or the method requiring a low temperature, such as blanching, might be chosen in order to keep the cell structure of the food material intact. The boiling, respectively heating, step evaporates air inclusions in the food material, improving thereby the color intensity.
[00033] On the other hand the heat-treatment has to soften the tissue and enable the entry of the saccharides. Therefore, the heat treatment has to be done at a temperature which is sufficiently high for these effects.
[00034] In the basis method of the herein depicted processing the heating can be followed by pre-drying of said blanched, boiled or steamed slices. Pre-drying is performed in that each slice of the plurality of slices is placed separately, such that the slices do not overlap each other, on an air-permeable surface, which is posed in a drier to provide air drying. The surface should advantageously be adapted to permit application of the slices on it such that they are detachably fixed when the pre-drying is finished. This detachable fixing during the pre-prying provides a shrinking only of the thickness of the slices. A shrinking of the circumference is prevented. The slices maintain their maximum surface; therefore the water removal can be performed easily, quickly and homogeneously. This leads to an advantageous minimization of the drying-time, and, in parallel, provides the esthetic appearance of the slices.
[00035] When the pre-drying of the single layer of slices is finished, the drying is finalized by final air drying .
[00036] Any known drying method such as e.g. vacuum drying, can be used.
[00037] In order to provide an improved stability and preserving of the dehydrated slices, one can refine the above method by an additional step of contacting the slices with carbohydrates. Thereby, a coating of the surface of said slices and/or an impregnation can be provided. The contacting with carbohydrates can be carried out substantially in two ways:
[00038] The first way is the one being done during the above described step of boiling, which is carried out as gentle and short as possible, advantageously for 3 to 5 minutes. The carbohydrates during the heat-treatment are already present in the hot or boiling solution, thereby providing a carbohydrate solution. This carbohydrate solution may comprise 20 to 30 weight % of carbohydrates. Even a range from 10 to 40 weight % or 5 to 50% is possible. It is advisable to use a kettle with sieve of fitting dimensions so that the amount of carbohydrate solution needed per kilogram of treated food material is minimum. Monitoring of the carbohydrate solution quality can be done online by refractive index measurements. Refilling of carbohydrates can be done at a critical refractive index value .
[00039] Generally, the carbohydrates of the embodiments of the present invention can be saccharides; advantageously one might select non-reducing disaccharides such as trehalose, preventing discoloring of the processed food. Trehalose solutions can be boiled for several hours without substantial browning. This sugar also has a very high glass transition temperature which adds to the shelf stability of the final product .
[00040] The second way is the contacting with carbohydrates succeeding to the step of blanching. Blanching, too, is performed as gentle and short as possible, advantageously for about 3 to 5 minutes. Depending on the food material, it may also take longer or shorter.
[00041] In any case, it will be carries out until the texture of the material has a desired hardness and bite.
[00042] Then, the blanched slices are mixed with a carbohydrate powder or a concentrated solution (such as e.g. a syrup) . After said contacting with carbohydrates, in particular after boiling, and prior to the pre-drying, it can be of advantage to rinse the slices with cold water.
[00043] The pre-drying step with air in a single layer is of great importance to the quality of the final product. Is advisable to place the slices manually on said air- permeable surface, which may be made from plastics or a similar fabric suitable to be subjected to hot air. This first drying operation can be done during 30 to 120 minutes at a temperature of about 50 0C to 100 °C. Advantageously, the dryer has a relatively homogeneous air and heat distribution, since the product cannot be turned during the drying. If necessary, the drying temperature can be reduced and the drying time can be prolonged, until none of the slices suffers heat damage. The pre-drying time may be ranging then from 50 to 120 minutes. The temperature may range from 500C to 900C, if necessary.
[00044] The slices get very brittle to the end of the pre-drying step, so they can be detached easily from the air-permeable surface. If the fabric serving as surface is flexible, e.g., nylon or a plurality of other polymeric fabrics, the detaching is facilitated.
[00045] Then, the final drying is performed. The slices can be detached from the pre-drying surface and can be re- placed bulk wise, accordingly overlapping, on another air- permeable surface. In order to economize the process, one can arrange a plurality of approximately four permeable surfaces in layers, providing a multi-layer drying. The limiting factor herein is the resistance of air flow which is somewhat lower in more coarse fabrics. The final drying is performed for at least 3 hours, at a temperature of 50 to 800C, preferably at 60°C to 700C. After the drying is finalized, the water activity of the slices is about 0.2 to 0.5, preferably 0.3 to 0.4.
[00046] For the final drying any drier can be used as only a small amount of water has to be removed.
[00047] After all, in order to be ready to eat, the dehydrated slices should be rehydrated. The consumer may perform re-hydrating himself, if desired or use the slices in the dry state as snacks. Advantageously, one humidifies the dried slices by heating them for about 3 to 4 minutes, again depending in the sort of vegetables or fruits, and on the thickness of the slices. This can be done using a hydrating substance. The most advantageous option is the boiling in water, but one may use as well alcoholic substances, such as wine. Even milk or the like come into question. When the rehydration is done, the thickness of the dehydrated slice is re-extended to almost the thickness of the respective slice of the raw vegetable or fruit, and has now a soft or smooth planar surface.
[00048] Referring now to FIG. 1, one can see a portion of zucchini-slices 1 being processed on a flexible nylon tissue 2 as air-permeable surface. The tissue is moved by a not shown conveyor belt. The zucchini slices shown herein result from a medium-dark green, Italian style zucchini with diameter of about 30 to 40 mm, having a cylindrical shape which is advantageous for yield reasons. The slices were cut in whole slices of 5 to 8 mm thickness. This seems very thick, but as the slice is supposed to shrink only in the thickness dimension it will result in a thickness of between 0.5 mm to 1 mm, preferably lmm, of the final product.
[00049] In order to obtain dehydrated slices, the boiled, carbohydrate-impregnated, separated slices 6 had been be placed on said air-permeable surface 2 in a single layer 6. The carbohydrate addition to the zucchini slices 1 (e.g. 10 to 70 % of total dry matter) fortifies the slices 1 mechanically which is positive for detaching (see arrow a) them from the nylon 2, but also later during transport. The dosage of carbohydrate should not be much higher than the dry matter content of the zucchini itself. However, the exact dosage depends on the trip loss on the process.
[00050] Using single layers 6 generally increases the drier throughput, leading furthermore to a pre-drying-time of only 60 to 90 minutes. The pre-drying is performed in the zone indicated by the arrow b. Then, the zucchini slices 1 have hardened, so they can be detached (see arrow a) from the nylon 2 by moving over a detaching edge 3. Then, the overlapping slices 4 are subjected to the final drying for about three to five hours, without deformation or shrinkage of the slices 1. The final drying can be carried out as a bulk-drying. The drying is advantageously carried out as a two-step drying, so the formation of the bulk 5 occurs, when the final shape and circumference of the slices 1 is fixed. This keeps the percentage of broken slices 1 during transport low.
[00051] The product is an essentially plane, green, dehydrated slice of zucchini, which gives a pleasant, natural texture after three minutes boiling in water for rehydration purposes. Each slice has the diameter of the respective fresh zucchini, because the process does not allow shrinkage in two of the three dimensions. So, the detachably fixed zucchini slices have a larger surface in comparison to conventional drying methods, and therefore an improved water uptake. The addition of sugar also improves rehydration. Only thickness is reduced dramatically by shrinkage. The product is not prone to discoloration during storage at ambient temperatures. The zucchini products are planar whole slices of less than 1 mm thickness, they are not wrinkled, naturally colored, accordingly having a light green color and a dark green peel, without brown areas, showing a reduced tendency to become brown during storage.

Claims

1. A dehydrated slice of a vegetable or a fruit, with the dehydrated slice having a circumference and a thickness, and being adapted to be rehydrated by a rehydration process, wherein the circumference of the dehydrated slice is substantially the same as a circumference of the respective slice of the vegetable or fruit before the dehydration,
- the thickness of the dehydrated slice is reduced about
20 to 95 % in comparison to the thickness of the respective slice of the raw vegetable or fruit, - the dehydrated slice has an essentially planar shape.
2. The dehydrated slice according to claim 1, wherein the vegetable is an elongated vegetable, preferably one of a zucchini, carrot, aubergine, turnip, radish and a squash, being adapted to be cut in slices, preferably in slices having similar circumferences.
3. The dehydrated slice according to claim 1 or 2, wherein the circumference of the slice is a circular circumference .
4. The dehydrated slice according to any preceding claim, wherein said dehydrated slice further comprises an added carbohydrate, providing at least one of a coating and or an impregnation.
5. The dehydrated slice according to claim 4, wherein said added carbohydrate is a saccharide, preferably a non-reducing disaccharide .
6. The dehydrated slice according to claim 5, wherein said non-reducing disaccharide is trehalose.
7. The dehydrated slice according to claim 5, wherein said saccharide is one or more of maltose, glucose, lactose, maltodextrin, erlose, or any possible combination and subcombination thereof.
8. The dehydrated slice according to any preceding claim, wherein said slice has a colored peel or skin, and wherein said peel or skin is not visibly discolored in comparison to the peel or skin color of the raw vegetable or the raw fruit.
9. A method to prepare a dehydrated slice of a raw vegetable or a raw fruit, with the dehydrated slice having a circumference and a thickness, comprising the steps of:
- cutting a vegetable or fruit in a plurality of slices,
- water-based heat-treatment of said slices by one or more heating methods selected from the group consisting of blanching, boiling and steaming, - pre-drying of said heat-treated slices, wherein each slice of said plurality of slices is placed on a air-permeable surface such that the slices do not overlap each other, and wherein the slices contact said air permeable surface such that a shrinking of the circumference is prevented,
- final air drying, whereby a dehydrated slice is obtained, with the circumference being substantially the same as a circumference of the respective slice of the raw vegetable or fruit, and with the thickness being is reduced about 20 to 95 % in comparison to the thickness of the respective slice of the raw vegetable, and having a planar surface, and being adapted to be rehydrated by a rehydration process.
10. The method according to claim 9, comprising the additional step of contacting said slices with carbohydrates to provide at least one of a carbohydrate uptake by the slices and a coating of the surface of said slices.
11. The method according to claim 10, wherein said contacting with carbohydrates is performed during the step of boiling, which boiling is carried out for 1 to 7 minutes, preferably for 3 to 5 minutes, in a carbohydrate solution.
12. The method according to claim 11, wherein said carbohydrate solution comprises 5 to 50 weight %, preferably 15 to 35 weight %, carbohydrates.
13. The method according to claim 10, wherein said contacting with carbohydrates is performed succeeding to the step of blanching, which blanching is carried out for 1 to 7 minutes, preferably for 2 to 5 minutes, most preferably for 3 to 5 minutes, in an aqueous solution, wherein the blanched slices are mixed with a carbohydrate powder.
14. The method according to claims 9 to 13, wherein said slices are rinsed with cold water after said contacting with carbohydrates and prior to the pre- drying .
15. The method according to claims 9 to 14, wherein the pre- drying is performed for 30 to 120 minutes, preferably for 60 to 100 minutes, most preferably for 60 to 90 minutes, at a temperature ranging from 50 to 100, preferably from 60 to 80, and most preferably ranging from 70 to 80, degree Celsius.
16. The method according to claims 9 to 15, wherein said final air drying is performed subsequent to the pre- drying, comprising the steps of detaching said slices are from said first air- permeable surface, and
- and re-placing said slices on a second air permeable surface, thereby being overlapping slices (4) forming a bulk (5) .
17. The method according to claims 9 to 16, wherein the final air drying is performed for at least 3 hours, at a temperature of 5O0C to 800C, preferably at 600C to 700C, degree Celsius.
18. The method according to claims 9 to 17, wherein the final air drying can be performed in that a plurality of second surfaces is arranged in layers, thereby providing a multiple-layer final drying.
19. The method according to claim 10, wherein said carbohydrates are saccharides, more preferably disaccharides, and most preferably non- reducing disaccharides such as Trehalose.
20. The method according to claims 9 to 19, wherein said first air-permeable and said second surface is a fabric, preferably a flexible fabric such as nylon tissue (2) or any other suitable flexible fabric, adapted to be used for air-permeation in order to provide air-drying.
21. The method according to claim 9, wherein the cutting of the slices is performed such that the slices have a thickness ranging from 2 to 9, more preferably from 5 to 8, and most preferably from 6 to 7 mm.
22. The method according to claims 9 to 21, wherein the steps of said pre-drying and said final air drying result in a water activity of the slices of 0.3 to 0.4.
23. A dehydrated slice of a raw vegetable or a raw fruit, wherein it is produced by the method according to the claims 9 to 22.
24. A method to obtain a rehydrated slice of a vegetable or a fruit, comprising the step of hydrating a dehydrated slice of a vegetable or a fruit, in particular of a vegetable or a fruit according to the claims 1 to 8, to a hydrating substance .
25. A method to obtain a rehydrated slice of a vegetable or a fruit, comprising the step of hydrating a dehydrated slice of a vegetable or a fruit, in particular hydrating of a vegetable or a fruit according to the claims 1 to 8, by subjecting it to a hydrating substance, whereby re- extending of the thickness of said dehydrated slice to almost the thickness of the respective slice of the raw vegetable or the raw fruit is performed, and whereby said rehydrated slices planar surface is becoming softer.
26. A method according to claim 25, wherein the hydrating substance is one of water, alcohol, any water containing liquid suitable for nutrition, or a combination thereof.
27. A method according to claim 25, wherein the hydrating is performed by subjecting the dehydrated slice for at least 3 minutes, preferably under heating, to said rehydrating substance.
28. A rehydrated slice of a processed vegetable or a processed fruit, wherein it is produced by the method according to the claims 25 to 27, having a circumference which is substantially the same as a the circumference of the respective slice of the raw vegetable, and having a thickness which is re-extended to the thickness of the respective slice of the raw vegetable or fruit, and having a smooth planar surface.
PCT/EP2006/006825 2006-07-12 2006-07-12 Preserved slices of vegetables and fruits and processing methods WO2008006388A1 (en)

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AU2006345964A AU2006345964B2 (en) 2006-07-12 2006-07-12 Preserved slices of vegetables and fruits and processing methods
CN2006800553164A CN101484013B (en) 2006-07-12 2006-07-12 Preserved slices of vegetables and fruits and processing methods
CA002657297A CA2657297A1 (en) 2006-07-12 2006-07-12 Preserved slices of vegetables and fruits and processing methods
NZ573845A NZ573845A (en) 2006-07-12 2006-07-12 Preserved slices of vegetables and fruits and processing methods
EP06762558A EP2043448A1 (en) 2006-07-12 2006-07-12 Preserved slices of vegetables and fruits and processing methods
PCT/EP2006/006825 WO2008006388A1 (en) 2006-07-12 2006-07-12 Preserved slices of vegetables and fruits and processing methods
BRPI0621881-4A BRPI0621881A2 (en) 2006-07-12 2006-07-12 pickled vegetable and fruit slices and processing methods
UAA200901006A UA98302C2 (en) 2006-07-12 2006-07-12 Vegetable and fruit slices prepared for storing and methods for processing thereof
US12/373,017 US8460728B2 (en) 2006-07-12 2006-07-12 Preserved slices of vegetables and fruits and processing methods
IL195961A IL195961A0 (en) 2006-07-12 2008-12-15 Preserved slices of vegetables and fruits and processing methods
EC2009009048A ECSP099048A (en) 2006-07-12 2009-01-09 PRESERVED CUTS OF VEGETABLES AND FRUITS AND PROCESSING METHODS

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