EP2142016A2

EP2142016A2 - Modified potato flakes or modified potato granulate, method for the production thereof, and uses thereof

Info

Publication number: EP2142016A2
Application number: EP08748780A
Authority: EP
Inventors: Martin Lotz; Johannes B. Borghuis; Frank Schaiper; Christian Francke
Original assignee: Emsland Staerke GmbH
Current assignee: Emsland Staerke GmbH
Priority date: 2007-04-27
Filing date: 2008-04-25
Publication date: 2010-01-13
Also published as: US20100166939A1; WO2008131742A3; CA2685110A1; WO2008131742A2; CN101674735A; DE102007019996A1

Abstract

The invention relates to a method for producing modified potato flakes or modified potato granulate. Said method comprises the following steps: a) potatoes are washed; b) the peels and any dirt are removed; c) the potatoes are optionally cut into small pieces; d) the potatoes are optionally blanched; e) the potatoes are optionally cooled if step d) is carried out; f) the potatoes are pressure-cooked; g) the pressure-cooked potatoes are strained or mashed; h) other additives are optionally added as dietary fibers; and i) the obtained puree is dried. Dietary fibers are added in at least one additional step after step b) and before step i) and are mixed in an essentially homogeneous manner into a product obtained at that time of the process. Also disclosed are modified potato flakes or potato granulates produced according to said method as well as the use thereof.

Description

Modified potato flakes or modified potato granules, their method of preparation and uses thereof

The present invention relates to a process for the preparation of modified potato flakes or modified potato granules, modified potato flakes or granules produced therefrom and their use.

Potato flakes are a form of dehydrated potatoes. An advantage of dehydration is that potatoes in this form can be made shelf stable, but the use for making processed potato products is thereby hardly limited. Potato flakes are used in food, for example snacks, extruded and fried potato products. Also modified potato flakes are known, which are nutritionally important because they are often enriched with fiber and prebiotic substances.

A slightly modified form of potato flakes are potato granules, which in the manufacturing process differ from potato flakes merely in that they are dried on fluidized bed and air-laid dryers, while drum drying is carried out to produce potato flakes. Potato flakes swell immediately upon addition of water, while potato granules still contain undamaged starch granules, so that swelling can only be achieved by boiling. The present invention expressly relates to both methods of making modified potato flakes and modified potato granules.

Drying potato mashed potatoes on drum dryers to produce potato flakes has been known since the beginning of the 20th century. Since then, the procedures have been optimized. Essentially, the potatoes for the production of potato flakes are first washed, peeled and possibly cleaned. The potatoes thus obtained are then cut into small pieces and blanched, the potato slices are kept for about 20 minutes at a temperature of 70-75 ° C. The blanching step ensures that the starch gelatinizes in the cells. Thereafter, the potato slices are cooled so that the cell walls are not damaged. Subsequent cooking of the potato slices by means of steam is carried out to a degree of softness which allows passage or musing with little cell destruction. Subsequently, additives are added which improve the durability of the dried final product. The product is finally fed to a roller dryer and dried there. A detailed illustration of the potato flake production process can be found in Willard, MJ, Hix, VM and Kluge, G., Dehydrated Mashed Potatoes - Potato Flakes. In: Potato Processing, 4th Edition, Talburt, WF and Smith, O. Ed. New York: Nostrand Reinhold, 1987, pp. 557-612.

For fiber enrichment of potato flakes, it is still common to omit the mentioned in the above-described method peeling the potatoes, so that the whole potato with shell is fed to the process, so the flakes contain the whole potato. Common ingredients to potato flakes are to facilitate the further processing by being already added to the mass and thus can be distributed homogeneously. This saves tedious addition of such ingredients in the finishing process. Such ingredients include, for example, spices, fats and emulsifiers.

However, the method known from the prior art has several disadvantages. Thus, for example, eliminates an optimal sorting of potato qualities. Green and damaged potatoes get into the process, the quality and the color of the final product are unfavorable. A major disadvantage is that glycoalkaloids, which naturally contain the potatoes and can not be destroyed by thermal treatment, must be removed mechanically with the shell material and the outer tuber layers and thus at least partially remain in the potato flakes produced. As a result, a health impairment for sensitive persons can not be ruled out. Even hygienic requirements are no longer met by today's standards by the known methods. Another disadvantage is that the shells of potatoes are made of lignin, which is actually not a dietary fiber for the human body, since lignin is a woody substance. To the fiber In the nutritional sense, non-digestible natural polymers, whose basic bodies mostly consist of various sugars or carbohydrate derivatives, but can also consist of other basic components, count in the nutritional sense. Known examples of plant origin are cellulose, hemicelluloses, pectins, lignin, but also other natural polymers such as inulin, a fructose polymer that is classified as a dietary fiber because it is first metabolised in the colon.

Process aids used in the known processes, both for the flocculation and granule production process as well as for the production of the final products, are without exception potato foreign and thus distort the natural character of the potato flakes and the end products produced therefrom.

It is an object of the present invention to provide a process for the preparation of modified potato flakes or granules, with which the disadvantages of the prior art can be overcome. In particular, a method is to be provided which results in an improved product quality, which achieves both considered in nutritional physiological fiber enrichment, and improved processing properties of the produced potato flakes or granules to desired end products.

Likewise, novel modified potato flakes or potato granules are to be provided and applications for these can be shown.

The objects are achieved by a method for the production of modified potato flakes or modified potato granules according to claim 1, modified potato flakes or potato granules according to claim 15 and possible uses according to claim 22. Preferred embodiments emerge from the respective subclaims.

Surprisingly, it has been found that the modified potato flakes or potato granules produced by the process according to the invention not only have an increased fiber content, but also with regard to their processing properties are significantly improved. Processing advantages include the increase in cold viscosity, the formation of a peak in the so-called hot viscosity and the increase in water-binding capacity. Thus, a product can be produced which exhibits a faster formation of the hot viscosity. This is an important basic parameter, for example in the snack industry.

It is also possible with the method according to the invention to compensate for varietal, crop-related or seasonal fluctuations and to produce potato flakes or granulated products standardized to a hitherto impossible extent and extent.

A variety of fibers can be added to the modified potato flakes or granules according to the invention. Corresponding fibrous materials can be selected from vegetable or non-vegetable fibers in order to positively influence the properties such as fiber content (prebiotic, health effect), application properties, such as water binding or lipophobia. Fibers may be selected, for example, from potatoes, legumes such as peas, beans, lupines, sugarcane, sugar beet, bamboo, bran from various cereals such as wheat, rye, barley, sorghum, corn, triticae, rice, or their pure fibers, Citrus fruits, such as lemons, oranges, limes, and other fruits and vegetables, such as apples, pears, carrots. Even fibers of non-vegetable origin can achieve the stated advantages according to the invention. Examples are natural polymers of alginate (derived from marine algae) and called Carageenan. Also especially fibers produced in an upstream production process, such as pure cellulose, carboxymethylated cellulose (CMC), microcrystalline cellulose (MCC), gum arabicum and mixtures of all mentioned fibers can be used.

The addition of potato fibers is particularly preferred, as this preserves the beneficial, healthy character of the potato product. The use of potato fibers has the further advantage that they do not have to be declared according to food law and are not alien to scientific or nutritional physiology. In a particularly preferred embodiment, in the process according to the invention, the drying in step i) can be optimized by previously mixing with previously dried fibers.

According to the invention may also be provided alternatively or additionally, that the mixing described above is not limited to the mixing with fibrous materials. Rather, in general, an already prepared, dried end product after step b) and before step i) can be supplied in a certain proportionate amount. The proportion of the added, dried end product in the inventive method can be readily adjusted by a person skilled in the art on the basis of the intended use. Likewise, the proportion of the end product dried after step i) which is to be recirculated to the process can easily be determined by a person skilled in the art, taking into account an optimum process sequence. Particularly preferred is the proportionate recycling of a dried end product in the production of modified potato granules, but can also be used in the production of modified potato flakes.

The return of the already dried product can serve, among other things, to facilitate the drying itself. For example, it is possible to add so much already dried product that the subsequent drying in step i) can be carried out in a single drying step and does not have to be dried several times (for example in air-layer or fluidized bed dryers) or the drying time (for example in drum dryers) must necessarily be increased (for example, by a longer residence time on the roller, for example by a slower speed or by increased steam temperature for drying), which can extremely negatively affect the functional and nutritional properties of the dried potato product. Drying step i) can be minimized in particular by adding dried fibers, which simplifies the process technology and reduces the production costs.

For the product quality of modified potato flakes and granules, the content of reducing sugars is also essential, since they lead to the formation of acrylamide in the flakes, whose content in heated products can be increased many times over. When heating Processes give reducing sugars in the manufacture of the finished products, for example, stack chips from potato flakes, an undesirable strong browning. Since the fibers contain no reducing sugars, they proportionately reduce their content (acrylamide and brown color) in the modified potato flakes and granules according to the invention and their finished products produced therefrom.

The following is a detailed description of an embodiment of the method according to the invention based on an addition of potato fibers as fibers. One skilled in the art will readily recognize that potato fibers can be readily substituted for other fibrous materials that appear obvious to those skilled in the art. The following detailed description is made with reference to the drawings, in which:

Fig. 1 shows a flow chart for a preferred embodiment of the method according to the invention;

Fig. 2 is a graph showing values of the hot viscosity of potato flakes having different contents of potato fibers as a function of time; and

Figure 3 shows a graph plotting values for the cold viscosity of potato flakes having different levels of potato fibers as a function of time.

In the process of the invention, potatoes are first thoroughly washed, whereupon, for example, by steam, lye or brush peeler the shell of the potatoes to a desired extent, substantially completely or only partially, can be removed. Here, if necessary, green potatoes, tendrils and stones are removed, which are to be regarded as impurities. The peeled and cleaned, sorted potatoes are now cut into thick slices of about 1 cm in diameter, resulting in a uniform energy transfer during subsequent blanching and cooling steps. Basically, the blanching step, which may be carried out at about 70 to 75 ° C for about 20 minutes, is optional and may be omitted as well as the cooling step, which is then referred to as a so-called "Low Leach-Process" speaks as less starch is washed out When blanching, the starch granules gel and retrograde again on subsequent cooling, which takes place at a temperature below 24 ° C and lasts about 20 minutes and the doughs made therefrom less sticky, which improves the processability.

After cooling, steam cooking is performed to allow subsequent passage of the potato pieces to a nutmeg. The cooking time varies greatly and depends very much on the starch content of the potatoes. The marbling or passing of the potato pieces can be done, for example, with rotating perforated cylinders. In a subsequent step additives may be added, for example, to improve the processability, such as emulsifiers, but also fat, preservatives, flavorings and spices. The final drying is advantageously carried out on drum dryers, wherein the Mus is evenly distributed with the aid of, for example, 4 to 6 application rollers on the drying roller. At the same time mistakes are removed from the muscular mass, because they adhere there and are stripped off. The mus is dried in the form of a thin film, scraped off a knife over the entire length of the roller and then can be ground, for example, and then packaged.

For the production of potato granules, the final drying can be done instead of on rolls in fluidized bed and flight dryer. The flakes or granules produced according to the invention do not differ in any way with regard to their advantageous properties, but merely represent a different form of the potato products modified according to the invention.

In contrast to the processes known from the prior art, the process according to the invention for the production of modified potato flakes or granules has an additional step in which fibrous substances are added and mixed substantially homogeneously with the process product present at the time of addition. In particular, fibers with defined properties and compositions can be added and thus the fiber content in the product can be freely adjusted. A limitation on shell components as fiber content is no longer given. Thus, the quantity limit is lifted, and it can be generated products with higher fiber content.

The addition of fibrous materials, in particular potato fibers, can be carried out at any process step between the peeling (step b)) and the drying (step i)) of the potatoes. However, it makes most sense to do this at the process step where the least amount of effort is required to homogeneously combine the potato and pulp mass. Preference is given to the point of addition after passing or muses, wherein from the potatoes, which are already peeled, cut, blanched, chilled and cooked, a mushy potato mass has arisen, into which the potato fibers can be dosed with a simple mixing element and incorporated homogeneously. This can be done together with the other conventional additives in one step or before or after the addition of the usual additives.

The form in which the potato fibers can be present can be varied. First, natural, non-dried fibers can be added, with their moisture content, as given from the manufacturing process. Another possibility is to first dry the potato fibers, which makes them very stable on storage. You can the potato mass to be dried to potato flakes in this dry form or by the potato fibers are first put back into water, preferably in a water-to-fiber ratio, which corresponds to the natural before drying the fibers in moist Form of the potato flake pulp are added. Combinations of wet, dried and rehydrated fibers can also be used. If dry potato fibers are used, the following drying step can be optimized. It should again be noted that, of course, in addition to potato fibers, all fibers can be used in dry, moist and / or rehydrated form, which are considered suitable for a person skilled in the art as suitable for the purposes of the invention.

By adding dry fibers, the water content of the potato pulp to be evaporated during drying decreases according to the dry matter content of the fibers and the mixing ratio of potato mass and fibers, which reduces the drying costs and the energy consumption. Surprisingly, it has been found that further the drying capacity when used of a drum dryer increases disproportionately compared to increasing the dry matter content by adding the dry fibers, which also represents a contribution to environmental protection due to the lower specific energy consumption.

By the inventive method can be specifically the content of reducing sugars, the content of fiber, the peak and the course of the hot viscosity, the course and the level of cold viscosity, the water binding capacity, the acrylamide in heated, especially deep-fried, end products, the fat intake at Frying, etc., control. The metered addition of dry fibers can be done for example via a gear vane pump, which allows precise metering. In principle, however, any other conveying member suitable for powder metering may be used in combination with a batch controller. After metering in the vegetable fibers, a mixing step is preferably carried out. This may for example be a mixing section of about 1 to 10 m, preferably 8-10 m in length, for example in the form of a screw mixer, on which the added fibers mix with the potato paste and an adjustment of the water content takes place between the components, or even active mixing element, such as a paddle mixer. After a sufficient residence time for mixing, the mixture can then be fed to a roller dryer and dried, whereby the capacity (yield / h) increases, although the speed is reduced. This process step increases the water-binding capacity and the formation of the hot viscosity.

Fibers in an aqueous, mushy consistency can also be easily and precisely dosed. For this purpose, eccentric screw pumps are suitable, but other forced conveying elements can be used.

The increased water-binding capacity of the potato flakes and granulates modified according to the invention makes it possible for the end product to maintain a juicier texture over a longer period of time. At the same time, the lipophobic structure of the dough prevents too much fat from penetrating the product during frying, which makes it less fat. The potato flakes of the invention may have a fiber content of about 22.6 to about 24.2% by weight, based on the total weight of the potato flakes, at a potato fiber content of about 10% (measured as Total Dietary Fiber, TDF, according to AOAC 991.43). , compared to a fiber content of 7.0 wt .-% in potato flakes without added fiber, which obviously the nutritional value of erfϊndunsgemäß produced potato flakes is significantly increased.

The following examples further illustrate the advantages of the subject matter of the present invention without being limited to the embodiments disclosed therein.

Example 1: Capacity increase

Dry fibers and rehydrated fibers

Potato fibers are admixed in the process according to the present invention to the potato juice obtained after step g). Since these blended potato fibers have a dry matter content (DS) of 90 to 95%, they proportionately reduce the amount of water to be evaporated on a roller dryer, which increases its production capacity. It has surprisingly been found that the capacity increase is disproportionate, which saves energy and thus reduces manufacturing costs and environmental impact. Results for the capacity increase when using a drum dryer for potato mousse products with different fiber content are given in Table 1.

Table 1

Percentage of fibers (% by weight) 0 3.2 9.6 16.0 19.2

Water reduction in the Mus fiber mixture (% by weight) 0 2.3 6.6 10.3 12.1

Capacity (kg / h) 9.43 9.80 10.43 11.37 10.93

Capacity increase (% by weight) 0 3.9 10.6 20.6 15.9

Disproportionate capacity increase (% by weight) 0 1.3 4.0 10.3 3.8

Capacity increase relative (%) 0 33.3 37.7 50.0 23.9 Example 2: Hot Viscosity

The hot viscosity evaluates the reconstructive behavior, swelling capacity and the influence of the temperature on the product viscosity. It is given in brabender units (BE).

455 g of water and 45 g of sample are mixed with a hand mixer at speed 2 for 20 seconds. The mass is placed in a measuring head, which serves as a viscometer Viscograph E Brabender. The device setting is as follows:

Measuring range: 700 cm

Starting temperature: 25 ° C

Heating rate: l, 5 ° C / min

Maximum temperature: 95 ° C

Holding time: 10 min

Cooling phase: up to 50 ° C

Cooling rate: l, 5 ° C / min

FIG. 2 shows the hot viscosities for native potato flakes and some potato flakes modified according to the invention. The data of the fiber contents relate to weight percent of the dry matter.

Example 3: Cold Viscosity

Cold viscosity assesses the ability to form a viscoelastic network. The cold viscosity is also given in Brabender units (BE). It is measured over a period of 10 minutes at a constant temperature of 20 ° C. For this purpose, 350 g of water and 50 g of sample are mixed with a hand mixer at speed 2 for 20 seconds. The mass is placed in a measuring pot, which serves as a viscometer Viscograph E Brabender. The device setting is as follows:

Measuring range: 700 cm

Starting temperature: 2O ⁰ C

Measuring time: 10 min

Fig. 3 shows the cold viscosities for native potato flakes and some modified according to the invention potato flakes. The data of the fiber contents relate to weight percent of the dry matter.

Example 4: Reducing sugars

The content of reducing sugars is the limiting parameter for the use of flakes for stacked chip production. It must not exceed 3 wt .-% in any case, since otherwise an excessive browning of the products occurs. The use of wet fibers in flakes according to the method according to the invention reduces the content of reducing sugars, as can be seen from the following Table 2.

Table 2

Content Wet fibers in potato flakes (% DM) 0 12 21 30 Content reducing sugars (% glucose) 0.07 0.06 0.045 0.04

Example 5: Acrylamide The low content of acrylamide in modified potato flakes prepared according to the invention and stack chips produced therefrom is shown in Table 3 in comparison with conventional potato flakes and stacked chips produced therefrom. Since the detection limit for acrylamide in potato flakes is 40 μg / kg, but the real content is lower, no statement can be made about the actual content. Crucial for the advantage and for the health of the consumer, however, is the acrylamide content in the end products produced from the potato flakes, for example stacked chips. Here, the reduction in acrylamide content correlates with the increasing addition of potato fibers in an impressive way.

Table 3

Product acrylamide content (μg / kg)

Potato flakes without fibers <40

Potato flakes with 10% fibers <40

Potato flakes with 16% fibers <40

Potato flakes stacked chips 131 Potato flake chips with 10% fibers 56

Potato flakes stacked with 16% fibers <4

Example 6: Production of potato chips

The use of potato flakes produced according to the invention reduces the nutrient density of products and / or reduces the absorption of fat. Also, products with novel texture are possible. This is described using the example of the production of potato chips using the modified potato flakes, compared to a basic recipe with conventional potato flakes:

Basic recipe with potato flakes with 9.6% potato fibers

Potato flakes Standard 26% Potato flakes 9.6% Fibers 23%

Potato starch 13% potato starch 30%

Monosodium glutamate 2% monosodium glutamate 3%

Salt 1% salt 2%

Water iced 58% water iced 42% The ingredients are mixed in a stirred tank with a Teigknethaken. Then water is mixed in and kneaded for 10 minutes. Thereafter, the dough is rolled to a thickness of 0.35 mm. Dough pieces of 60 mm diameter will be gouged and fried at 180 ⁰ C for 35 to 50 seconds. The color values of the chips with the potato flakes produced according to the invention were significantly more pleasant than in the base formulation, ie the color remained yellow-orange compared to an orange-brown for potato chips which were produced according to the base recipe.

The features of the invention disclosed in the foregoing description, in the claims and in the drawings may be essential both individually and in any combination for the realization of the invention in its various embodiments.

Claims

claims

A process for producing modified potato flakes or modified potato granules comprising the steps of:

a) washing potatoes;

b) removing the shell and possibly impurities;

c) optional mincing of the potatoes;

d) optionally blanching the potatoes;

e) optionally cooling the potatoes when step d) is carried out;

f) steam cooking the potatoes;

g) Passing or musts of the steam-cooked potatoes;

h) optionally adding additives other than fibrous materials; and

i) drying the obtained muses,

characterized in that after step b) and before step i) fibrous materials are added in at least one further step and mixed substantially homogeneously in a present at the time of addition of the process product.

2. The method according to claim 1, characterized in that the shell is removed using steam, alkali and / or brush peelers in step b).

3. The method according to claim 1 or 2, characterized in that in step c) the potatoes are cut into slices of a thickness of about 1 cm.

4. The method according to any one of the preceding claims, characterized in that the blanching in step d) takes place at 70-75 ° C for about 20 minutes.

5. The method according to any one of the preceding claims, characterized in that the cooling takes place in step e) to a temperature of below 24 ° C, preferably the cooling takes about 20 minutes.

6. The method according to any one of the preceding claims, characterized in that the passing or muses of the potatoes in step g) takes place via rotating perforated cylinder.

7. The method according to any one of the preceding claims, characterized in that step i) takes place via a roller drying and / or fluidized bed and air layer drying.

8. The method according to any one of the preceding claims, characterized in that the fibrous substances are dried and / or added as a slurry, optionally in separate steps.

9. The method according to claim 8, characterized in that dry fibers are added via a gear vane pump and / or a paddle mixer.

10. The method according to claim 8, characterized in that the addition of fibrous materials as a slurry on forced conveying elements, preferably an eccentric screw, takes place.

11. The method according to any one of claims 8 to 10, characterized in that the pulp of the fibers has a water content of 10 to 90 wt .-%, based on the total weight of the pulp.

12. The method according to any one of the preceding claims, characterized in that the addition of the fibers after step g) takes place.

13. The method according to any one of the preceding claims, characterized in that the mixing of the fibrous materials in the process product via screw mixer and / or paddle mixer.

14. Modified potato flakes or modified potato granules, obtainable by a process according to claims 1 to 13.

15. Modified potato flakes or modified potato granules according to claim 14, characterized in that the fibers comprise vegetable and / or non-vegetable fibers.

16. Modified potato flakes or modified potato granules according to claim 15, characterized in that the fibers are selected from the group of fibers from potato, legumes, especially peas, beans, lupins, sugar cane, sugar beet, bamboo, bran from cereals such as wheat, rye , Barley, oats, corn, triticale, rice, pure cereal fibers, citrus fruits, especially lemons, oranges, limes, apples, pears, carrots, alginate, carageenan, cellulose, carboxymethylated cellulose, microcrystalline cellulose, gum arabic and mixtures thereof.

17. Modified potato flakes or modified potato granules according to claim 16, characterized in that the fibers are potato fibers.

18. Modified potato flakes or modified potato granules according to any one of claims 15 to 17, characterized in that the fibers in an amount of less than 50 wt .-%, preferably less than 25 wt .-%, particularly preferably from 5 to 20 wt. %, based on the total weight of the modified potato fibers.

19. Modified potato flakes or modified potato granules according to any one of claims 15 to 18, characterized in that they also contain additives.

20. Modified potato flakes or modified potato granules according to claim 19, characterized in that the additives are selected from emulsifiers, preservatives, fats, spices, flavors and mixtures thereof.

21. Use of modified potato fibers or modified potato granules according to any one of claims 14 to 20 in food.

Use according to claim 21 in directly or indirectly expanded snacks, snack foods, bakery products, fried potato products, mashed potatoes, frozen products, meat and sausage products and functional foods.