NO146382B - PROCEDURE FOR TREATING MEAT FROM WATER ANIMALS - Google Patents

Description

The present invention relates to a method for denaturing

eration of meat from aquatic animals with alcohol to remove fish

smell and achieve a meat-like texture.

From DE-PS 333,554 it is known to produce a crunchy foodstuff from fish meat, in which finely divided fish meat is treated with an aqueous, not more than 70% alcohol solution and then mixed with flour and amino acid which is produced by acid cleavage of protein. With this method, a breakdown product of the fish meat is obtained, which no longer exhibits the typical fish smell, but has in no way acquired the text

turn that ordinary meat has. Also according to GB-PS 784 905

fish meat can be treated with an alcohol with a pH value of

at least 8 and at most 12 to remove fishy smell and fishy taste.

Even with this method, however, a meat-like texture is not achieved.

Known technology thus shows that the inherent fishy smell in meat from sea animals can be removed to a large extent by treating the meat with alcohol between about 20°C and the boiling point of the alcohol solution.

However, a typical meat-like texture cannot be achieved

in this way.

It is therefore an object of the invention to indicate a method of

method for processing meat from sea animals in such a way that it gets a texture similar to ordinary meat, while at the same time the inherent fish smell is almost completely removed from the meat of aquatic animals.

The invention thus relates to a method for treatment

of meat from aquatic animals to obtain a product with a meat-like texture and mainly free of fishy smell, as the meat is chopped up into a paste-like mass and treated with alcohol

hole with 1 to 4 carbon atoms.

On this background, the method according to the invention

then, as a distinctive feature, sodium chloride or a fatty acid ester of sucrose as well as sodium bicarbonate or sodium polyphosphate is added to the meat when it is chopped up, and the processing down to alcohol fin-

takes place in two stages, namely in a first treatment stage at 0 to 20°C and a second treatment stage between 20°C and the boiling point of the alcohol solution in question, each of the treatment stages having a duration of at least 5 minutes.

In the first treatment step, the aquatic animal meat is given a

ture or consistency that corresponds to ordinary meat, while in the second treatment step it is degreased and freed from fishy smell, without the achieved meat-like texture being destroyed.

The present invention can be used for the treatment of all kinds of aquatic animals both from the sea and from fresh water, e.g. saltwater fish such as haddock, mackerel, cod, shark, horse mackerel, sardines and other fish species as well as squid of larger or smaller species, or freshwater fish such as perch, silver carp, pike, carp and crayfish etc. However, the invention is in no way considered limited to these species, which are only given as examples. The term "sea animal" is thus used here in a very comprehensive sense as a common term for fish, shellfish etc.

Of the indicated lower alcohols with 1 to 4 carbon atoms, non-toxic alcohols such as ethanol and isopropanol are particularly preferred. In cases where there are no problems with regard to toxicity or complete removal of solvent during or after drying, methanol can be used.

When carrying out the method of the invention, bones and entrails are removed from the aquatic animal in question. The aquatic animal meat is chopped up and, if necessary, placed in water, after which the water is removed. After that, table salt (sodium chloride) or a fatty acid ester of sucrose and sodium bicarbonate or sodium polyphosphate are added. The sodium chloride or the fatty acid ester of sucrose serves to dissolve actomyosin in the aquatic animal meat and give the proteins a certain texture when they are denatured with the help of said solvent. The sodium bicarbonate or polyphosphate helps to increase the protein's ability to retain water in the finished product. The seafood meat is crushed using a meat grinder to make the meat paste-like. It is then placed in a tank containing a suitable alcohol of 1 to 4 carbon atoms, which is maintained in the temperature range from and including 0°C to 20°C, preferably at 0 to 10°C. The aquatic animal meat is kept in contact with the alcohol for at least 5 minutes, preferably for 5 to 20 minutes, to denature the meat. During the denaturation process, the proteins in the tissue coagulate to a moderate degree and achieve a normal meat-like texture, which means a consistency similar to meat from livestock. The denatured aquatic meat is removed from the tank and the solvent is removed from the meat. The meat is then placed in a tank containing an alcohol of the above type which is kept in a temperature range between 20°C and the boiling point of the alcohol solution, preferably between 40°C and the respective boiling point. Here, too, the aquatic animal meat is kept in contact with the alcohol for at least 5 minutes, preferably 5 to 20 minutes, to degrease and remove odors from the meat. This degreasing and odor removal step can be used for the complete removal of fish odor not only from lean fish, but also from fish that contain large amounts of fat such as mackerel and sardines, where fish odor removal has so far been difficult. This treatment with alcohol at a high temperature does not make the aquatic animal meat too hard or cause the meat to lose its achieved texture similar to normal meat. A suitable amount of alcohol constitutes at least twice the weight of the aquatic animal meat to be treated in each of the two treatment steps according to the invention. The amount of alcohol used will of course depend to a certain extent on the fat content of the marine animal in question. With increasing fat content in the treating aquatic animal meat, the amount of alcohol used in the treatment should also increase.

In the case of aquatic animal meat with a high fat content, a suitable amount of alcohol during the treatment can thus be about 6 times the weight of the aquatic animal meat to be treated, in each of the two treatment steps according to the invention.

Although treatment of aquatic animal meat with alcohol at high temperature usually makes the meat too hard and different from ordinary meat, this disadvantage does not arise when carrying out the method of the invention. The reason for this is presumably that the prior treatment of the aquatic animal meat with a suitable alcohol at a temperature in the range from and including 0°C to 20°C gives the aquatic animal meat a texture similar to domestic animal meat, thereby fixing the meat in a state that is not easily changed .

The defatted aquatic animal meat that has been subject to deodorization is then treated to remove the remaining alcohol solution, e.g. by centrifugation, after which the meat is dried, e.g. until it has achieved a proportion of water of 25 percent by weight or less, by passing air over the aquatic animal meat, while forming meat proteins. When they achieved

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meat proteins are to be used as food, they are put in water for swelling and cooked with the addition of spices and the like. In this way, e.g. a product with a texture similar to a hamburger made of livestock meat is obtained.

The following design examples are given to further illustrate the present invention. If nothing else is directly stated, all shares, percentages, ratios and the like are stated by weight.

Example 1.

160 g of sodium chloride and 40 g of sodium bicarbonate were added to 8 kg of chopped haddock meat (crude fat content: about 3.5 to 5.5% converted to dry matter), and this mixture was kneaded using a kneader to make the meat paste-like.

This paste-like mixture was divided into four

equal parts and subjected to treatments A, to A^, as described below.

The first part was extruded from a chopper with an opening diameter of 3 mm into 4 liters of 95% by weight ethanol at 5°C. Li.!.-'.r 10 min. the sample was taken using a bamboo basket io; removal of the ethanol. The treated mixture was again placed in the chopper, extruded into 4 liters of 95% by weight ethanol at 5°C and stirred for 15 min. The mixture with ethanol was then placed in a centrifuge filter to remove the ethanol, and dried by supplying air over the filtrate.

The second part was subjected to the same treatment as in A^, except that the first treatment was carried out in 95% by weight ethanol at 5°C, while the subsequent treatment with 95% by weight ethanol was carried out at 40°C.

The third part was subjected to the same treatment as in A^, except that the first treatment was carried out in 95% by weight ethanol at 40°C, and the next treatment was also carried out in 95% by weight ethanol at a temperature of 40° C.

^i_

The fourth part was kneaded by hand in 6 liters of 95% by weight ethanol at 5°C, which after a stay of 15 min. was centrifuge filtered to remove the ethanol, after which the filtrate product was dried by supplying air.

The crude fat content of the dried solid obtained by

the various treatments A^ to A^, were found on a dry weight basis to be 0.36% for A^ 0.03% for A2, 0.04% for A3 and 0.19% for A^. It will be realized that these results show that considerably better degreasing was achieved by using the method of the invention (A2) than by the usual method (A^). Small cakes were made from the dried protein obtained by the treatments A^ to A^, and the fishy smell and texture of the products were assessed on the basis of sensory impressions.

Preparation of samples.

Dried protein (200 g) was placed in 2 liters of water for 30 min., after which excess water was removed by centrifugal filtration until the protein weight was 800 g. The water-swollen protein (800 g) was mixed with 350 g of finely chopped beef, 250 g of beef tallow, 250 g onion, 150 cm 3 bread crusts, 80 g butter, 10 cm <3> salt, 0.5 g pepper, 0.5 g flavoring with sodium glutamate, and 5 g beef broth. The mixture was fried in a frying pan for fried cakes.

Sensory tests ( A).

The fishy smell was assessed by a panel of 20 people within a value scale of 5 degrees, of which the value 5 represented the absence of a fishy smell and 1 represented the clear presence of a fishy smell. There was no statistically significant difference between the samples produced by the treatments A, and A^, as well as between the samples produced by the treatments and A^. However, there was a statistically significant difference between A^. A^ and "2 3'

It will be apparent from the results shown in the above table that considerable fishy smell remained in the protein obtained by the conventional method (A^), while the protein obtained by the method of the invention (A2) was almost completely free of fishy smell.

Sensory test ( B).

The samples' texture was judged by a panel of 20 people according to a value scale of 5 degrees, of which degree 5 represents a texture completely similar to normal meat texture and degree 1 represents a texture clearly :': >r :-■' ;'■. <■'•] ig from meat-texture .

There was no statistically significant difference between A^, A and

A^, but there was a statistically significant difference between A^.A2.A2 and A^.

It will be apparent from the results shown in the above-mentioned table that protein obtained by the method of the invention (A2) has a meat-like texture corresponding to that obtained by using the conventional method (A^).

Example 2.

12 liters of water at 5°C were added to 4 kg of chopped mackerel meat (crude fat content: about 25 to 55% on a dry matter basis). The mixture was stirred for 5 min., after which the water was removed.

-60 g of sodium chloride and 45 g of sodium bicarbonate were added to the fish meat, which was kneaded using a kneading device to make the meat paste-like. This paste-like mixture was

divided into two equal parts and subjected to different treatments, respectively B^ and B2, as described below.

The first part was extruded from a chopper through a nozzle opening with a diameter of 3 mm into 3 liters of 95% by weight ethanol at 5°C, after which the relevant fish meat after 10 min. waiting time was taken out using a bamboo basket to allow the ethanol to run off. The treated fish meat was put back into the chopper and extruded into 3 liters of 95% by weight ethanol at a temperature of 5°C. The mixture was stirred for 15 min, and the ethanol was then removed using a centrifugal filter. The product was then placed again in 3 liters of 95% by weight ethanol at 5°C,

stirred for 15 min., centrifugally filtered and finally dried by supplying air.

!2_

The other part was extruded from a chopper with an opening diameter of 3 mm into 3 liters of 95% by weight ethanol at 5°C, from which the meat was taken out after a 10-min stay, using a bamboo basket to remove ethanol. The treated fish meat was put back into the chopper, extruded in 3 liters of 95% ethanol by weight at 5°C, and stirred for 15 minutes. With continued stirring, the ethanol was heated to 75°C, and ethanol at this temperature was stirred for 15 min. The resulting mixture was immediately centrifugally filtered to remove the ethanol. The fish meat was then placed again in 3 liters of 95% by weight ethanol at 75°C and stirred for 15 minutes. The resulting mixture was immediately centrifuge filtered to remove the ethanol, and dried by supplying air. The crude fat content of the obtained dried product in treatments B^ and B2 was found to be 10.3% respectively

for B^ and 0.1% for B^, stated on a dry matter basis. It will be realized from these results that fish meat with a high fat content, such as mackerel, is difficult to degrease even by repeated treatment with an alcohol at low temperature, while degreasing to a significantly higher degree was achieved by the method of the invention (B,,) ■

Cakes were made from the dried protein obtained in the treatments B^ and B^, and the presence of fishy odor as well as the texture of the products were assessed based on direct sensory impressions.

Sensory test ( C).

The smell of fish was assessed in the same way as in the above-mentioned sensory test (A). The product obtained by treatment B-^ had a strong fishy smell and was unsuitable as food. In contrast, the product obtained in treatment B2 had a very weak fishy smell and could be used to a significant extent as a meat substitute.

Sensory test ( D).

The texture of the products was assessed in the same way as in the above-mentioned sensory test (B). There was no statistically significant difference in texture between the product produced according to the method of the invention (B2) and the product obtained by the conventional method (B^).

Example 3.

12 liters of water at 5°C were added to 4 kg of chopped sardine meat. The mixture was stirred for 5 minutes, after which the water was removed. The meat product thus obtained was then further finely chopped. 30 g of sucrose monopalmitate and 15 g of sodium polyphosphate were then added to the finely chopped fish meat, which was kneaded using a kneader to make the meat paste-like. This paste-like mixture was divided into two equal parts and subjected to different treatments, respectively and C2, as described below.

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The first part was extruded from a chopper through a nozzle opening with a diameter of 3 mm into 3 liters of 95% by weight ethanol at 5°C, after which, after a 10-minute waiting time, the fish meat in question was taken out in a bamboo basket to allow the ethanol to drain off. The treated fish meat was then put back into the chopper and extruded into 3 liters of 95% by weight ethanol at a temperature of 5°C. The mixture was stirred for 15 minutes and the ethanol was then removed using a centrifugal filter. The product was then again placed in 3 liters of 95% by weight ethanol at 5°C, stirred for 15 minutes, centrifugally filtered and finally dried by passing an air stream over the product.

^2

The other part was extruded from a chopper with an opening diameter of 3 mm into 3 liters of 95% by weight ethanol at 5°C, from which the meat was taken out after a 10-minute rest in a bamboo basket to remove the ethanol. The treated fish meat was put back into the chopper, extruded in 3 liters of 95% by weight ethanol at 5°C, and stirred for 15 minutes. With continued stirring, the ethanol was heated to 75°C, and further stirred for 15 minutes at this temperature. The mixture thus obtained was immediately centrifuge filtered to remove the ethanol. The fish meat was then placed again in 3 liters of 95% by weight ethanol at 75°C and stirred for 15 minutes. The resulting mixture was immediately centrifuge filtered to remove the ethanol, and dried by passing an air stream over the product. The crude fat content of the dried products obtained by the treatments and C« was found to be respectively 9.8% for and 0.12% for C^> stated on a dry matter basis. It will be realized from these results that fish meat with a high fat content, such as sardine meat, is difficult to degrease even by repeated treatment with an alcohol at a low temperature, while degreasing to a significantly higher degree was achieved by the method of the invention (C^)- The cakes were made from the dried protein products obtained from the treatments and C ? and the presence of a fishy smell as well as the texture of the products were assessed based on direct sensory impressions in the two cases.

Sensory Test (E)

The smell of fish was assessed in the same way as in the sensory test (A) mentioned above. The product obtained by treatment C had a strong fishy smell and was unsuitable as food. In contrast, the product obtained by treatment C_ had an extremely weak fishy smell and could be suitably used as a meat substitute.

Sensory test ( F).

The texture of the products was assessed in the same way as in the sensory test (B) mentioned above.

ue-c was no statistically significant difference in texture between the product produced according to the method of the invention (C^) and the product obtained by conventional alcohol treatment only at low temperature.

Claims (2)

1. Process for treating meat from aquatic animals to obtain a product with a meat-like texture and essentially free of fishy smell, the meat being chopped up into a paste-like mass and treated with alcohol with 1 to 4 carbon atoms, characterized in that sodium chloride or a fatty acid ester of sucrose as well as sodium bicarbonate or sodium polyphosphate is added to the meat during chopping, and the treatment with alcohol takes place in two stages, namely in a first treatment stage at 0 to 20°C and a second treatment stage between 20°C and the relevant alcohol solution boiling point, as each of the treatment steps has a duration of at least 5 minutes. 2. Method as stated in claim 1, characterized in that the temperature is 0 to 10°C in the first treatment step and 40°C to the boiling point of the alcohol solution in question in the second treatment step.