• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    Edible coating for the preservation of pieces of fruit, its manufacturing and application process, the edible coating being constituted by an aqueous solution that is applied on the pieces of fruit covering them, where the aqueous solution comprises a polysaccharide base of carboxymethylcellulose, a source of calcium, an antioxidant agent and additionally an antimicrobial agent, and wherein the carboxymethylcellulose has a viscosity of more than 1,500 mpa.s and a low concentration, of between 0.025% to 1% by weight with respect to the total weight of the components of the aqueous solution. (Machine-translation by Google Translate, not legally binding)
    公开号:ES2540403A2
    申请号:ES201430011
    申请日:2014-01-07
    公开日:2015-07-09
    发明作者:María Alejandra ROJAS GRAÜ;Raquel URRUTIA LARRAZ;Maite ROYO LIZARBE;Javier OSÉS FERNÁNDEZ
    申请人:PRODUCTION AND INNOVATION ON EDIBLE COATINGS S L;PRODUCTION AND INNOVATION ON EDIBLE COATINGS SL;
    IPC主号:
    专利说明:

    DESCRIPTION

    EDIBLE COATING FOR THE CONSERVATION OF FRUIT TROZES, ITS MANUFACTURING AND APPLICATION PROCESS
     5
    Technical sector

    The present invention is related to the conservation of freshly cut fresh fruit, proposing an edible coating, for application on an industrial scale, which has a carboxymethyl cellulose polysaccharide base, to create a selective barrier to gas exchange and moisture loss, allowing to preserve the texture and flavor of freshly cut fruits. The coating is especially suitable for application on fruits susceptible to surface dehydration, such as for example apple, pear, peach, kiwi, nectarines or mango, although it can be applied on any type of fruit that in its industrial preparation process requires that the fruit be cut, peeled, chopped and finally packaged.

    State of the art

    Fresh fruit deteriorates rapidly and especially when the pulp of fruit 20 is exposed to environmental conditions, such as when the fruit is peeled and chopped, producing browning, softening, the appearance of unpleasant flavors and the growth of microorganisms that reduce the shelf life of freshly cut fruit.

    To slow down said deterioration reactions in the industrial processing of the fruit, the 25 washing, peeling, slicing and packaging operations are carried out in a cold chain with temperatures below 8ºC, thus reducing the respiratory rate of the cut tissues , keeping enzymes related to color changes and texture degradation processes latent, in addition to minimizing the growth of disrupting microorganisms. 30

    The use of preservatives has been used regularly, which, in combination with the use of low temperatures, helps preserve the fruit. Thus, the use of fruit preservatives based on calcium and antioxidant solutions comprising ascorbate and calcium among its components is known, as is the case of the Patents: US3754938A, US4011348, US4818549, WO1997023138, EP746207A1, DE3624035,
    ES2011757 and GB2100575.

    For example, WO1994012041 discloses a preservative to keep the fruit peeled and chopped fresh, comprising calcium ions, ascorbate ions and water, contemplating percentages of ascorbic acid and calcium chloride from 0.25% to 2% in 5 both cases. The preservative has metal ion complexers (identified as chelators), in a proportion of 0.5% or greater in dry weight, that is to say excluding water.

    On the other hand, document ES2307473 discloses a procedure for the preservation of peeled and chopped fresh fruit, in which the preservative it uses, as in the case of WO1994012041, consists of a solution comprising calcium ions, ions ascorbate and water, ascorbate and calcium ions being present in an ionic ratio equal to that of the aforementioned WO1994012041, but that, unlike this, the amount of metal ion chelators in the preservative is less than 0.5% in weight of 15 components, excluding water. In this document calcium ions are obtained from calcium hydroxide, calcium salt or mixture of both; while ascorbate ions are obtained from ascorbic acid, ascorbate salt or erythorbate. The possibility of using calcium ascorbate or calcium erythorbate as a source of calcium ions and ascorbate ions is also described. twenty

    It is well known that these antioxidant preservatives based on calcium salts make it possible to avoid enzymatic browning, extending the shelf life of the fruit. However, these compounds do not prevent other problems of cut fruits, such as the superficial dehydration suffered by the tissue once cut. 25

    For this reason, in recent years the use of edible coatings, especially polysaccharide base, which form a transparent film on the surface of the fruit, proliferating, allowing, on the one hand, to avoid the surface dehydration of the product, and, on the other hand, is proliferating. on the other hand, serve as transport of active ingredients, such as antioxidants and antimicrobials, thus allowing to extend the shelf life of cut fruits.

    These edible coatings of polysaccharide base can be formed by any polymer capable of gelling and forming a coating, the most commonly used within this group being maltodextrin, cellulosic derivatives such as methylcellulose and
    carboxymethyl cellulose, starches, carrageenans, pectin, alginate or gelane. These polymers are sold in powder form and are usually diluted in water to obtain an aqueous solution with which the fruit is coated.

    Within these polysaccharides, carboxymethyl cellulose has been widely used in post-harvest preservation of whole fruits and vegetables, often mixed with fatty acids to improve its barrier to gas and water exchange. For example, US5198254 discloses an edible coating for whole fruits, vegetables, or fungi, which in its composition employs carboxymethyl cellulose. The coating obtained with this solution is not suitable for the conservation of fresh cut fruit, since a film with low adhesion capacity and with a thickness that modifies the sensory characteristics of the freshly cut fruit is formed on the cut tissue, altering its texture and flavor

    It is therefore necessary an edible coating for freshly cut pieces of fresh fruit with a carboxymethyl cellulose polysaccharide base that is practically imperceptible to the consumer and that allows to maintain the texture and flavor of the pieces of fruit, as if they were freshly cut, during the as long as possible

    Object of the invention 20

    The object of the present invention is an edible coating for application on fresh fruit pieces that have been minimally processed by washing, peeling and chopping operations in their industrial processing. The invention also relates to the process of making the edible coating and its application on the pieces of fruit.

    The edible coating for the preservation of the pieces of fruit is constituted by an aqueous solution of polysaccharide base that is applied to coat the fruit once it has been washed, peeled and chopped in its industrial processing, being created through the application of the aqueous solution a protective barrier that preserves and prevents browning and surface dehydration of fruit pieces.

    The aqueous solution comprises carboxymethyl cellulose as a polysaccharide base, a source of calcium, an antioxidant agent and can additionally comprise an antimicrobial agent. The carboxymethyl cellulose is of high viscosity and is present in the solution
    aqueous in very low concentration. Specifically, carboxymethyl cellulose has a high viscosity, greater than 1,500 mPa.s and a low concentration, between 0.025% to 1% by weight with respect to the total weight of the components of the aqueous solution. Preferably the carboxymethyl cellulose has a concentration of between 0.1% to 0.75% by weight with respect to the total weight of the components of the aqueous solution. 5

    The aqueous solution, like the aforementioned background, is a solution in water of solid powdered components comprising calcium ions. Calcium is obtained from calcium ascorbate. Calcium ascorbate has a concentration of between 3% to 15% by weight with respect to the total weight of the components of the aqueous solution, and preferably a concentration between 4% to 12% by weight with respect to the total weight of the components of The aqueous solution.

    The aqueous solution incorporates as antioxidant agent citric acid, or a combination of citric acid and sodium ascorbate. The antimicrobial agent that may additionally contain the aqueous solution is malic acid.

    The concentration of citric acid alone, or in combination with malic acid, is greater than 0.5% by weight in relation to the total weight of the components of the aqueous solution, excluding water. twenty

    Citric acid and, if applicable, malic acid behave like metal ion chelators. It is known that chelators coordinate and sequester such ions, preventing them from being free for other processes, being able to act indirectly as antimicrobial agents. 25

    Citric acid has a concentration of between 0.5% and 30% by weight in relation to the total weight of the components of the aqueous solution, excluding water. Preferably a concentration of between 1% and 20% by weight in relation to the total weight of the components of the aqueous solution, excluding water.

    Sodium ascorbate has a concentration of between 10% and 50% by weight in relation to the total weight of the components of the aqueous solution, excluding water. Preferably a concentration of between 20% to 40% by weight in relation to the total weight of the components of the aqueous solution, excluding water. 35

    If malic acid is used as an antimicrobial agent, it has a concentration of between 0.5% and 20% by weight in relation to the total weight of the components of the aqueous solution, excluding water. Preferably a concentration of between 4% and 15% by weight in relation to the total weight of the components of the aqueous solution, excluding water. 5

    The process of manufacturing the edible coating of fruit pieces is also object of the invention, which consists of the following phases:

     Powder mixture of all the components formed by the polysaccharide, calcium, the antioxidant agent, and if appropriate the antimicrobial agent.
     Dilute the powder mixture in cold water at a temperature between 4 ° and 8 ° C, by constant stirring, until its dissolution is complete.

    The process of applying the edible coating to the fruit pieces comprises the following 15 phases:

     Wash, peel and chop the fruit, all in the environment of a temperature of 4 ° C.
     Apply the cold aqueous solution, between 4º and 8ºC, containing the polysaccharide, calcium, the antioxidant agent and, if appropriate, the antimicrobial agent, onto the fruit pieces, 20 being the contact time between the aqueous solution and the pieces of fruit between 40 seconds and 120 seconds.
     Remove excess coating from the aqueous solution.
     Pack the coated fruit.
     25
    The aqueous solution can be applied by immersing the fruit pieces in the aqueous solution, by spraying the aqueous solution on the fruit pieces, or by any other similar technique that allows the fruit pieces to be coated.

    In accordance with all this, an edible coating is obtained for the preservation of 30 pieces of fruit that is imperceptible to the user's eyesight and taste, and that by using carboxymethylcellulose of very high viscosity at very low concentration allows obtaining a polysaccharide matrix that It behaves properly as a sacrificing agent against the loss of moisture experienced by the cut fruit, allowing to preserve the texture and flavor of freshly cut fruits. 35

    Detailed description of the invention

    The edible coating of the invention is formed by an aqueous solution of polysaccharide base which is applied by coating the fruit pieces. The aqueous solution is obtained by diluting in cold water (4 ° - 8 ° C) carboxymethylcellulose, calcium, an antioxidant agent and additionally an antimicrobial agent.

    Calcium is obtained from calcium ascorbate, which acts by maintaining the texture of the pieces of fruit. The antioxidant agent is citric acid, or a combination of citric acid and sodium ascorbate, which allow to preserve the color of the fruit pieces and delay browning. The antimicrobial agent that can additionally incorporate the aqueous solution is malic acid, which functions as an inhibitor of the growth of microorganisms, molds and yeasts during the storage of fruit pieces.

    Below is a table, in no case limiting, with the components that may include the edible coating of the invention, as well as the percentages by weight in which it is intended to find those components in the aqueous solution. The percentages are expressed in% w / w (weight of the component in relation to the total weight of the respective aqueous solution). In one column the percentage by weight of each component is expressed excluding water from the aqueous solution, and in the other column the percentage 20 by weight of each component including water.

     % p / p (excluding water)% p / p (including water)

     Carboxymethylcellulose (CMC)  1% - 4% 0.1% - 0.75%
     Calcium ascorbate  50% - 90% 4% - 12%
     Citric acid  1% - 20% 0.2% - 2%
     Sodium ascorbate  20% - 40% 2% - 7%
     Malic acid  4% - 15% 0.5% - 2.5%



     25



    The carboxymethyl cellulose used is of high viscosity, the viscosity being greater than 1500 mPa.s. The measured viscosity is of a 1% w / w CMC aqueous solution, using a Nahita 801 N / SC88808 viscometer, with a spindle No. 2, at 12rpm and a temperature of 21 ° C.

    The relationship between the high viscosity of the carboxymethyl cellulose and the low concentration used makes it possible to obtain an edible coating for fruit pieces with adequate physical and chemical characteristics, which guarantees an adequate coating and
    preservation of the pieces of fruit, being imperceptible to the user, without the latter being able to appreciate it in sight, without providing any texture at the time of its intake and without providing different flavors to the fruit.

    Below are some non-limiting examples of edible coatings for 5 pieces of fruit according to the present invention.

    Example 1.- Effect of the use of an edible coating on the quality of apple pieces (Golden delicious) compared to the individual use of a polysaccharide or a mixture of antioxidants. 10

    Golden delicious variety apples were used, which were washed superficially and disinfected by immersion in a solution of sodium hypochlorite (80ppm). After disinfection, the apples were descorazonadas and cut manually into 8 pieces (quarters), which were immediately coated. fifteen

    In parallel, and in order to define the combined effect of the different components that are part of the edible coating, the following solutions were prepared: individual solutions of CMC 0.5% w / w, calcium ascorbate 6% w / w , and a 1% w / w citric acid solution. The viscosity of the CMC solution was 146 20 mPa.s., measured with a Nahita 801 N / SC88808 viscometer, using a # 2 spindle, at 30 rpm and a temperature of 21 ° C. A solution was also prepared containing the mixture of said components, CMC (0.5% w / w), calcium ascorbate (6% w / w) and citric acid (1% w / w), this mixture being considered the coating edible in question.
     25
    Individual solutions were prepared by dissolving 5.03g of CMC, 63.83g of calcium ascorbate or 10.09g of citric acid per liter of water. In the case of the edible coating, the solution was prepared by jointly dissolving 5.41g of CMC, 64.86g of calcium ascorbate and 10.81g of citric acid in a liter of water. In either case, the components were dissolved in water by constant stirring until complete dissolution, maintaining the temperature of both the water and the solution at 6 ° C until use as a coating.

    The apple pieces were immersed in each of the solutions for 1 minute. In the case of the control samples, the apple pieces were immersed in cold water 35 during the same period of time. After this, the samples were drained for 1
    minute in order to eliminate excess solution that could be superficially on the fruit. Finally, it was manually packaged in plastic tubs (PET), without the use of modified atmosphere, and stored at 4 ° C for 15 days.

    A sensory evaluation of the product was carried out in order to evaluate the individual effect of each of the components that are part of the coating compared to the synergistic effect of the mixture of said components as an edible coating. The evaluation scale was from 1 to 10, with 10 being the best score awarded to the evaluated parameter, that is, a product with the same quality as the freshly cut fruit and 1 being a very poor quality product (rejectable). The 10 parameters evaluated during the 15 days of storage were the color (being 10 total absence of browning), texture (being 10 a firm and crunchy texture), hydration (being 10 a total hydration of the product surface), as well as the general appearance that it presented during storage.
     fifteen
    The application of an edible coating composed of a mixture of CMC, citric acid and calcium ascorbate effectively maintained the quality of the apple pieces for 15 days of storage (Table 1).

    The absence of brown colorations on the surface of the product, as well as the maintenance of the surface hydration of the apple pieces were the two most relevant characteristics in the conservation of this fruit, which was obtained by a synergistic effect of the different components They make up the edible coating. However, when these components were used individually, the results were very different. For example, when only CMC was used as a coating agent, greater protection of apple pieces was observed against dehydration, but nevertheless the first browning symptoms appeared within a few hours of storage.

    In those apple pieces where a calcium ascorbate solution was used as a protective treatment of the fruit, a maintenance of the original color of the apple was observed during almost the entire storage period. However, the surface hydration of the apples was greatly affected, observing the first symptoms of dehydration from the first week of storage. The use of citric acid was not enough to maintain the visual quality of the apple pieces, the 35
    which presented symptoms of browning and dehydration a few days after storage.

    Table 1 also shows a marked deterioration of the apple pieces without treatment (control) from the first day of storage, with the presence of browning being the first symptom of quality loss observed.

    Table 1. Effect of the use of an edible coating based on carboxymethyl cellulose in maintaining the quality of minimally processed apple pieces.
     10
     Components  Storage days Color Texture Hydration General appearance
     Edible coating (0.5% CMC + 6% Calcium ascorbate + 1% citric acid)  1 10 10 10 Very good
     8  10 10 10 Very good
     fifteen  10 10 9 Good
     CMC (0.5% w / w)  1 7 10 10 Start of browning
     8  6 9 8 Pardeada but still hydrated
     fifteen  2 8 7 Pretty brown. Dehydration Start
     Calcium ascorbate (6% w / w)  1 10 10 10 Good
     8  9 8 5 Dehydrated
     fifteen  8 7 4 Very dehydrated, slightly soft and beginning of browning
     Citric Acid (1% w / w)  1 9 10 9 First symptoms of browning
     8  7 8 7 Brown and start of dehydration
     fifteen  4 7 5 Very browned and dehydrated
     Control  1 8 9 9 Start browning
     8  3 8 4 Very brown and dehydrated
     fifteen  1 7 2 Very bad looking, soft





     fifteen




     twenty




     25




     30


    Example 2.- Effect of an edible coating as a carrier of an antimicrobial agent on the shelf life of minimally processed pieces of kiwi.
     35
    Kiwis with an intermediate maturity state were used, which were initially washed and disinfected using a solution of sodium hypochlorite (80 ppm). After this disinfection process, the kiwis were mechanically peeled, cut longitudinally in the form of rooms and stored in refrigeration until the application of the edible coating. 5

    The edible coating was composed of a mixture of CMC, calcium ascorbate, citric acid and malic acid in different proportions: (1) 0.4% w / w CMC, 4% w / w calcium ascorbate and 2% w / w of citric acid; (2) 0.4% w / w CMC, 4% w / w calcium ascorbate, 2% w / w citric acid and 1% malic acid; (3) 0.4% w / w CMC, 4% w / w calcium ascorbate, 2% 10 w / w citric acid and 3% malic acid. To prepare these solutions, the following components necessary to prepare each of the formulations included in Table 4 were dissolved in 1 liter of water: (1) 4.27g CMC, 42.74g of calcium ascorbate, 21.37g of citric acid ; (2) 4.32g CMC, 43.20g of calcium ascorbate, 21.60g of citric acid, 10.80g of malic acid; (3) 4.42g CMC, 44.15g of calcium ascorbate, 22.08g of citric acid, 33.11g of malic acid, respectively. In either case, cold water (6 ° C) was used to dissolve the mixture of components using a mechanical stirring system until complete dissolution and hydration of the product. The average viscosity of the solutions containing 0.4% w / w CMC was 98 mPa.s. Viscosity measurements were made using a Nahita 801 N / SC88808 viscometer, with a spindle 20 No. 2, at 30 rpm and a temperature of 21 ° C.

    Once the coating forming solutions were obtained, these were used as individual baths to coat the pieces of kiwi. The application of any of the solutions was carried out by immersion of the product in the forming solutions of coating for 1 minute, the average temperature of said solutions being 6 ° C. After this period of time, the kiwis were drained for 1 minute and subsequently manually packed in plastic trays (PET), without the use of modified atmosphere. All samples were stored at 4 ° C for 10 days. In the case of control samples, the pieces of kiwi were subjected to a cold water bath for 1 minute and then packed under the same conditions as the coated kiwi. After 10 days of storage, a microbiological analysis was performed to determine the effectiveness of the edible coating as a carrier of an antimicrobial agent against the growth of aerobic mesophilic bacteria, molds and yeasts.
     35
    Table 2 shows the effect of the incorporation of an antimicrobial agent in the microbiological counts of minimally processed kiwifruit. The incorporation of 3% w / w of malic acid in an edible coating kept the levels of aerobic mesophiles, molds and yeasts up to two decimal cycles below compared to untreated kiwi, allowing to extend the shelf life of this product. 5

    Table 2. Microbiological shelf life of minimally processed pieces of kiwifruit treated with different formulations of edible coatings after 10 days of refrigerated storage.
     10

     Formulation  Molds and Yeasts Aerobic Mesophiles
     (CFU / g)
     1. CMC + Calcium ascorbate + Citric acid  1.04 x 106 6.12 x 104
     2. CMC + Calcium ascorbate + Citric acid + Malic acid (1% w / w)  2.85 x 105 1.47 x 104
     3. CMC + Calcium ascorbate + Citric acid + Malic acid (3% w / w)  7.80 x 104 4.34 x 103
     4. Control  6.95 x 106 2.36 x 105




     fifteen



    Example 3. Effect of the application of an edible coating on the shelf life of coated peach pieces. twenty

    Peaches with an intermediate maturity state were used, which were washed and disinfected using a solution of sodium hypochlorite (80 ppm). After this disinfection process, the peaches were cut longitudinally in the form of quarters, eliminating the internal bone. 25

    In parallel, the edible coating was prepared, which was composed of a mixture of CMC (0.1% w / w), calcium ascorbate (5% w / w), citric acid (1.5% w / w ) and sodium ascorbate (2.5% w / w), the average viscosity of the solution being 10 mPa.s. (values measured using a Nahita 801 N / SC88808 viscometer, with spindle 30 No. 1, at 30 rpm and a temperature of 21ºC). The edible coating was prepared by dissolving in a liter of water 1.10g of CMC; 55.01g calcium ascorbate; 16.50g of citric acid and 27.50g of sodium ascorbate. Said solution was prepared in cold water (6 ° C) by means of a stirring system until it was completely dissolved and hydrated and kept at the same temperature until its application. 35

    The peach pieces obtained were coated with the mixture of polysaccharide and antioxidant agents. For this, the cut fruit was submerged in said solution for 1 minute, drained during the same time and then packed in plastic trays (PET), without the use of modified atmosphere. Finally, the trays containing the fruit were stored in refrigeration (4ºC) for 12 days. Control samples 5 were prepared and stored in the same way, replacing the edible coating bath with a 6 ° C water bath.

    The quality characteristics of the coated peach pieces were established throughout the storage period by sensory evaluations. The 10 changes in color, texture, taste and smell were the main parameters evaluated. An evaluation scale of 1 to 10 was established, 10 being the best score awarded to the quality parameter evaluated, that is, the same quality as the freshly cut product and 1 being a low quality product.
     fifteen
    The main sensory characteristic preserved in the peach pieces was its original color, which remained with yellow tones and without the presence of dark colors (browning) during the 12 days of storage. In addition to the color, the surface hydration of the product was also preserved throughout the storage period, avoiding dehydration observed in the control samples, as can be seen in Table 3.

    Table 3. Evolution of the shelf life of minimally processed peaches through the use of an edible coating based on CMC and antioxidant agents.
     25
        Sample  Storage days Parameters evaluated
     Color  Texture Surface hydration Taste / Odor
     1 10 10 10 10
     Coated peaches  6 10 10 10 10
     12 10 9 9 9
     1 8 9 9 10
     Uncoated peaches  6 6 5 5 6
     (Control)  12 2 2 1 3





     30




    Example 4. Effect of the application of an edible coating on the quality of pear minimally processed.
    Conference variety pears were used, which were superficially washed and disinfected by immersion in a solution of sodium hypochlorite (80 ppm). After disinfection, the pears were descorazonadas and cut manually into 8 pieces (quarters), which were immediately coated.
     5
    The edible coating was composed of a mixture of CMC (0.5% w / w), calcium ascorbate (8% w / w), citric acid (0.3% w / w), sodium ascorbate (6% w / w / p) and malic acid (0.5% w / w). The coating was prepared by dissolving in 1 liter of cold water (6 ° C), 5.90g of CMC, 94.45g of calcium ascorbate, 3.54g of citric acid, 70.84g of sodium ascorbate and 5.90g of malic acid . The average viscosity of the solution was 146 mPa.s., 10 which was measured using a Nahita 801 N / SC88808 viscometer, using a # 2 spindle, at 30 rpm and a temperature of 21 ° C.

    The fruit was coated by immersing the pear pieces in the edible coating solution for 1 minute, which had been kept at 6 ° C. After this period of 15 time, the pear pieces were drained (1 minute) and immediately packed in trays (PET) without the use of modified atmosphere. In the same way, control samples were made whose only treatment was a cold water immersion following the same protocol as the coated samples. All pear trays were stored at 4 ° C for 12 days. twenty

    During the storage period, the pear pieces were sensory evaluated in order to establish the effect of using an edible coating on the color changes that this product undergoes after minimally processed. A sensory scale from 1 to 5 was applied to establish the degree of darkening of the samples, 25 representing the number 5 to a sample with total absence of browning (whitish color typical of a freshly cut pear) and number 1 those samples superficially very browned (intense brown tones).

    As can be seen in Table 4, the coated pear samples maintained their original color during the 12 days of storage, with a total absence of brown tones on the surface of the product. On the other hand, in those samples in which no conservative treatment (control) was applied, the presence of browning was observed from the first hours of storage. It is confirmed that the use of an edible coating as a transporter of antioxidant agents maintains the quality of the fruits cut during storage, thus extending the shelf life of the product.
    Table 4. Evolution of the degree of browning in pieces of minimally processed pear, using or not an edible coating.

        Sample  Storage days
     one  4 8 12
     Coated pears  5 5 5 5
     Uncoated (Control)  2 1 1 1


     5


    权利要求:
    Claims (13)
    [1]

    1.- Edible coating for the conservation of fruit pieces, consisting of an aqueous solution of polysaccharide base that is applied on the fruit pieces, characterized in that the aqueous solution comprises carboxymethyl cellulose as a polysaccharide base of the aqueous solution, a source of calcium , an antioxidant agent and additionally an antimicrobial agent, where carboxymethyl cellulose has a viscosity greater than 1,500 mPa.s and a low concentration, between 0.025% to 1% by weight with respect to the total weight of the components of the aqueous solution. 10

    [2]
    2. Edible coating for the preservation of fruit pieces, according to the first claim, characterized in that the carboxymethyl cellulose has a concentration of between 0.1% to 0.75% by weight with respect to the total weight of the components of the aqueous solution. fifteen

    [3]
    3. - Edible coating for the conservation of fruit pieces, according to the first claim, characterized in that the calcium is obtained from calcium ascorbate.

    [4]
    4. Edible coating for the conservation of fruit pieces, according to the third claim, characterized in that the calcium ascorbate has a concentration of between 3% to 15% by weight with respect to the total weight of the components of the aqueous solution.

    [5]
    5. Edible coating for the preservation of fruit pieces, according to the third claim, characterized in that calcium ascorbate has a concentration of between 4% and 12% by weight with respect to the total weight of the components of the aqueous solution.

    [6]
    6. Edible coating for the preservation of fruit pieces, according to the first claim, characterized in that the antioxidant agent is citric acid, or a combination of citric acid and sodium ascorbate, where citric acid behaves like an ion chelator. metallic

    [7]
    7. Edible coating for the preservation of fruit pieces, according to the first claim, characterized in that the antimicrobial agent is malic acid, the malic acid behaving as a metal ion chelator. 35

    [8]
    8. Edible coating for the preservation of fruit pieces, according to claims six and seven, characterized in that the concentration of citric acid alone, or in combination with malic acid, is greater than 0.5% by weight in relation to weight Total components of the aqueous solution, excluding water.
     5
    [9]
    9. Edible coating for the conservation of fruit pieces, according to claims six and seven, characterized in that the citric acid has a concentration of between 0.5% to 30% by weight in relation to the total weight of the components of the aqueous solution, excluding water, and where appropriate the malic acid has a concentration of between 0.5% and 20% by weight in relation to the total weight of the components 10 of the aqueous solution, excluding water.

    [10]
    10. Edible coating for the preservation of fruit pieces, according to claims six and seven, characterized in that the citric acid has a concentration of between 1% and 20% by weight in relation to the total weight of the components 15 of the solution aqueous, excluding water, and if applicable, malic acid has a concentration of between 4% and 15% by weight in relation to the total weight of the components of the aqueous solution, excluding water.

    [11]
    11.- Manufacturing process of the edible coating for the preservation of pieces of fruit described in the preceding claims, characterized in that said manufacturing process consists of the following phases:
     Mix in powder all the components formed by the polysaccharide, calcium, the antioxidant agent, and where appropriate the antimicrobial agent. 25
     Dilute the powder mixture in cold water at a temperature between 4 ° and 8 ° C, by constant stirring, until complete dissolution and obtain a cold aqueous solution.
    12- Application process of the edible coating for the preservation of pieces of fruit described in claims 1 to 10, characterized in that it comprises the following phases:
     Wash, peel and chop the fruit, all in the environment of a temperature of 4 ° C.
     Apply the cold aqueous solution, between 4º and 8º C, containing the polysaccharide, calcium, the antioxidant agent and the antimicrobial agent, where the contact time between the solution accuses and the pieces of fruit Fruit between 40 seconds and 120 seconds.
     Remove excess coating from the aqueous solution. 5
     Pack the coated fruit.

    [13]
    13.- Application process of the edible coating for the preservation of fruit pieces, according to the twelfth claim, characterized in that the application of the aqueous solution is carried out by spraying the aqueous solution on the fruit pieces. 10

    [14]
    14.- Application process of the edible coating for the preservation of fruit pieces, according to the twelfth claim, characterized in that the application of the aqueous solution is carried out by immersion of the fruit pieces in the aqueous solution.
    类似技术:
    公开号 | 公开日 | 专利标题
    ES2540403B1|2016-05-12|EDIBLE COATING FOR THE CONSERVATION OF FRUIT TROZES, ITS MANUFACTURING AND APPLICATION PROCESS
    ES2307473T3|2011-11-23|PROCEDURE FOR THE CONSERVATION OF FRESH FRUIT.
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    同族专利:
    公开号 | 公开日
    EP3092903A1|2016-11-16|
    ES2835951T3|2021-06-23|
    ES2540403R2|2015-07-30|
    CN105899082A|2016-08-24|
    US20160324174A1|2016-11-10|
    EP3092903A4|2017-09-06|
    PT3092903T|2020-12-15|
    JP2017501734A|2017-01-19|
    ES2540403B1|2016-05-12|
    CA2935324A1|2015-07-16|
    EP3092903B1|2020-09-09|
    WO2015104440A1|2015-07-16|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    US2894843A|1956-09-13|1959-07-14|George J Malecki|Preservation of comestibles with suspensions|
    US3754938A|1971-05-26|1973-08-28|Us Agriculture|Preservation of apple slices with a solution consisting of ascorbic acid calcium chloride and sodium bicarbonate|
    US4011348A|1972-05-25|1977-03-08|Diamond Fruit Growers, Inc.|Process for inhibiting browning of fruit|
    GB2100575B|1981-05-30|1984-12-12|Stokes Bomford|Methods of treating fruit and/or vegetables|
    DE3624035A1|1985-07-17|1987-02-05|Organogen Medizinisch Molekula|Composition for retaining the freshness of vegetables, lettuce and sliced fruit|
    US4818549A|1986-12-05|1989-04-04|Pepperidge Farm, Incorporated|Preservative method and preserved fruit or vegetable product, using citric acid, sodium and calcium chloride-containing preservative composition|
    CN1032997A|1987-11-09|1989-05-24|孟山都公司|Food presservative compositions|
    US5198254A|1991-04-03|1993-03-30|The United States Of America As Represented By The Secretary Of Agriculture|Composition and method of increasing stability of fruits, vegetables or fungi|
    WO1994012041A1|1992-11-30|1994-06-09|Fresh Processed Fruit Pty Limited|Preserving fruit and vegetables|
    NL9400320A|1994-03-02|1995-10-02|Hak Bv|A method of producing a foodstuff, a closed container filled with a foodstuff thus produced and the use of casein compounds.|
    AUPM677594A0|1994-07-12|1994-08-04|Daratech Pty Ltd|Preservation of exposed underground plant structures|
    AUPN725895A0|1995-12-21|1996-01-18|Australian Food Industry Science Centre|Preservation of exposed fresh fruit|
    GB9706300D0|1997-03-26|1997-05-14|Dalgety Plc|Edible films and coatings|
    US5939117A|1997-08-11|1999-08-17|Mantrose-Haeuser Co., Inc.|Methods for preserving fresh fruit and product thereof|
    ES2204330B1|2002-10-09|2005-03-01|La Morella Nuts, S.A.|DRIED FRUIT COVERED WITH AN EDIBLE COATING FILM AND ITS OBTAINING.|
    CN101185461B|2007-12-12|2010-12-08|贵州大学|Edible fruit and vegetable plastic wrap powder preparation and preparation method thereof|
    KR20100137074A|2009-06-22|2010-12-30|이원춘|Coating composition for preserving fruits and vegetables|
    CN101884348B|2010-07-14|2012-11-07|广东省农业科学院果树研究所|Coating material of fresh-cut papaw and refreshing method thereof|
    MX2011003856A|2011-04-11|2012-10-24|Univ Mexico Nacional Autonoma|Composition of solid lipid nanoparticles for the long-term conservation of fruits, vegetables, seeds, cereals and/or fresh foodstuffs using a coating.|
    EP2714777A4|2011-06-03|2014-11-26|Frank Gu|Polysaccharide-based hydrogel polymer and uses thereof|
    EP2763555B1|2011-10-07|2018-08-01|Fruitsymbiose Inc.|Composition and methods for improving organoleptic properties of food products|
    GB201120616D0|2011-11-30|2012-01-11|Nat Changhua University Of Education Dept Of Electrical Engineering|Composition|ES2604832B1|2015-09-04|2018-01-17|Production And Innovation On Edible Coatings S.L.|Edible IV range potato coating, procedure for application and potatoes coated with it|
    ES2607715B1|2015-10-01|2018-01-17|Solutex Na, Lcc|PROCESS FOR THE PREPARATION AND STABILIZATION OF EMULSIONS WITH OMEGA-3 THROUGH ISOMETRIC CRYSTAL NETWORKS OF CELLULOSE DERIVATIVES|
    WO2019173810A1|2018-03-09|2019-09-12|Tai Chih Cheng|Compositions for active treating and preventing plant diseases|
    US11191289B2|2018-04-30|2021-12-07|Kraft Foods Group Brands Llc|Spoonable smoothie and methods of production thereof|
    CN109717244A|2019-02-28|2019-05-07|浙江莱嘉聚贤生物科技有限公司|A kind of natural fresh-ness preserving agent for vegetable of high-efficiency antimicrobial and preparation method thereof|
    CN110100882A|2019-04-19|2019-08-09|杭州千岛湖纯浙农业开发有限公司|Fruit freshness preserving pulvis and preparation method thereof|
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