Production of fish meal. Production of fishmeal by direct drying method. Making flour from lean raw materials

Agriculture is the main industry where fishmeal is used. As a valuable component of compound feed, its nutrients, vitamins and trace elements contribute to the acceleration of the growth and development of pigs, cows and poultry. For gardeners and gardeners, fertilization from waste of soft tissues, bones and shells of the inhabitants of the seas and oceans serves as an irreplaceable assistant in the cultivation of various crops.

Fishmeal is a source of a huge amount of vitamins and minerals

Qualitative and quantitative composition

Fishmeal is a substance in the form of a powder or granules obtained by drying and grinding fish processing waste, as well as from the remnants of cutting marine mammals and seafood. About one ton of finished product is obtained from six tons of muscles, bones and adipose tissue, the quality of which depends on the composition of the feedstock. Usually it is anchovy, pollock, flounder, herring, mackerel, sardine, meat of whales, pinnipeds and crustaceans. In flour with a fat mass fraction of more than 8%, stabilizing additives of the antioxidant ethoxyquin are necessarily present.


In fact, fish meal is the remains of fish and other marine life

Products manufactured in Russian Federation, must meet the requirements of GOST 2116-2000 "Feed meal from fish, marine mammals, crustaceans and invertebrates." For research, samples are taken from several lots with different production times. This allows you to identify violations even before they go on sale.

The chemical composition of the product is shown in the table:

The main indicator of the quality of fishbone meal is fat content. The correct balance of fats in the body stimulates the production of antibodies that fight pathogenic microbes. Proteins are sources of easily digestible protein, which is 95% digestible. Flour includes proteins and amino acids, is rich in vitamins A, B, D, E, contains calcium, phosphorus, iron, iodine and successfully complements the components of plant origin in compound feed.

Calcium is responsible for the formation bone tissue, phosphorus accelerates growth, iodine is necessary for the thyroid gland. Vitamin A is involved in redox processes in the formation of new cells. B vitamins are responsible for the functioning of the nervous and cardiovascular systems, vitamin D promotes the absorption of phosphorus. A number of amino acids such as cystine, methionine, lysine and threonine are involved in building muscle fibers. Polyunsaturated acids are responsible for the production of progesterone, which has a beneficial effect on reproductive capacity.

Product manufacturing technology

The production of fishmeal is one of the important areas of fish processing in the national economy. Every year, the world produces from 5 to 7 million tons of this necessary product, which is produced in one of two main ways:

  1. Commercial. The process is carried out directly on the vessel from the catch. Unfrozen fish and its cutting waste are taken. The raw materials are not the most selective, but the quality of such a product is much higher, since there are no chemical additives in the composition. The main disadvantage is the content in the finished flour from 2 to 5% of the impurities of sand that gets into the nets.
  2. Coastal. The fish caught and frozen during the fishery is processed in special factories already on land. It is more efficient in terms of the average daily processing of raw materials, but the main drawback is the presence of extraneous chemical components. The maximum possible protein content is about 70%, but in reality these values ​​are rare.

There are a couple of well-known ways to produce fishmeal: processing fish waste directly on board and processing onshore.

The manufacturing technology has not undergone significant changes over the years and is carried out in several stages:

  1. Cleaning the fish mass from debris and dirt. Special devices are used to remove metal impurities.
  2. Grinding of raw materials. Fish cutters and crushers various designs allow to facilitate the release of fat and water. The resulting fragments are easily exposed to high temperatures.
  3. Cooking. Crushed raw materials are loaded into heated drums equipped with stirring blades and processed for about 30 minutes until a viscous semi-liquid mass is obtained.
  4. Pressing. The use of devices of various designs allows you to divide the boiled composition into fatty, water and protein components. It turns out pulp with a moisture content of about 50%, and the fat-containing liquid is collected to obtain fish oil.

For quite a long time, the process and technology of fishmeal production do not change
  1. Drying. There are two ways to remove moisture from the pulp: fire and steam. In the first case, the resulting flour becomes black, since the protein burns out under the influence of flue gases. When processing with hot steam, a higher quality is achieved: protein reserves are practically not lost, but the process itself is associated with energy costs and increases the cost of production.
  2. Grinding dried minced meat. The mass is ground in impact crushers and sieved. The size of the grains depends on the moisture content.
  3. Packaging in containers. Electronic or mechanical scales are used for weighing, and bags made of fabric, polypropylene, multilayer paper, jute fiber, plastic bags or special containers are used for packaging.

The production technology is simple, but it is problematic to implement it at home, since special equipment is required: presses, dryers, conveyors, crushers. This affects the quality and cost of the finished product.

World market overview

Flour is produced in different volumes by almost all countries that have sea or ocean borders. Its appearance and quality depends on the type of fauna in a particular fishing zone. For example, Chile uses horse mackerel and anchovy as raw materials, while Japan uses sardines. Peru, Mauritania, Thailand and Morocco are considered the world's largest producers.

The first place in the ranking belongs to Peru. But when trying to analyze why the annual amount of flour products produced in this country (more than a million tons) exceeds the volume of live fish catch, a number of questions arise about the use of chemical additives. In second place is Mauritania, which, when processing various varieties of fish, achieves a protein content of 62 to 67%.


Fishmeal is produced in all countries with access to the sea or ocean

Imported flour is expensive, so Russian farmers are increasingly inclined to purchase products from domestic producers. Its price is lower, and the quality is practically not inferior to the Chilean and Peruvian counterparts.

Application for the needs of animal husbandry

The product of processing fish waste has found wide distribution in various sectors of agriculture. Its use in fur farming helps to improve the consumer qualities of rabbit and nutria fur. Fish feed meal has proven itself well on farms for breeding pigs, cows, chickens, quails and other birds.

When feeding animals pay attention to the following product features:

  1. Composition. Real flour contains calcium, phosphorus and salt. The presence of feathers, meat and bone waste, soybean meal, urea makes it useless to comply with the recommended dosages.
  2. Freshness. When stored in hot, unventilated warehouses or under the open sun, the oxidation reaction of fats takes place, as evidenced by the smell of rancid old lard. Such a product is prohibited for use, since it causes irreversible changes in the digestive organs and ends in death.

When used in poultry farming, fishmeal allows chicks to grow quickly, gain weight, and also support immunity. In the diet of chickens, the additive is from 5 to 10%, adult birds - from 2 to 5%. Chickens lay more often and digest food better, and eggs become more nutritious. Healthy broilers gain weight well. It is important to balance the diet and drastically reduce the amount of additives 2 weeks before slaughter, otherwise chicken and eggs will acquire a specific taste and smell.


Fishmeal is a necessary component of compound feed in animal husbandry, affecting the correct and full development of livestock and poultry

The effect of use in pig breeding is expressed in improving the appetite and immunity of the livestock. For piglets, dietary supplements from 5 to 15% are recommended, for adults - from 2 to 4%. In sows, the birth rate and survival rate of offspring increase, boars become more productive, and piglets with piglets develop faster and gain weight. Fresh fish waste is also used as feed, and they are excluded from the menu 2 months before slaughter.

Fish bone meal is good for large cattle at all stages of development. The share of calves and young animals in feed ranges from 3 to 7%, and of adult animals - from 1 to 3%. Daily supplements to the diet of pregnant cows increase fertility, enhance offspring health, improve milk quality, and calves grow well. Meat breeds develop rapidly and gain weight, have flourishing health and good digestion. Breeders are fertile and hardy, have strong immunity. 2 months before slaughter, the use of the additive is discontinued.

Domestic cats and dogs willingly consume fishmeal as part of ready-made feed mixtures, while dosage instructions are indicated by the manufacturer on the packaging. A beneficial effect on immunity and development, strengthening bones and muscles, improving the quality of wool is achieved due to the high content of fats, vitamins and amino acids.

Use in crop production

The use of fishmeal in orchards and vegetable gardens has a beneficial effect on the composition of the soil, helps to increase yields and improve the quality of vegetables and fruits. Fertilizer enhances the processes of cell metabolism, and during the growing season compensates for the loss of nitrogen and phosphorus. It is permissible to apply and one or two weeks after the end of the harvest, then the powder or granules are evenly scattered over the site before digging.

It is believed that meal from fish bones contains more phosphorus, and from soft parts - nitrogen. All useful components will remain in the soil until spring and will become a top dressing for crops when planted next year. The properties of flour are enhanced when used together with wood ash and nitroammophos. Such fertilization is useful for nightshade crops, the yield of which immediately responds to the lack of phosphorus in the soil.


Fishmeal is also used in plant growing as a fertilizer for the soil.

When using fish bone meal for feeding various horticultural crops are guided by simple rules:

  1. Potato. Fertilizer is applied to the soil a week before the planned planting of seed. Consumption is 100 g per 1 sq. meter of territory.
  2. Tomatoes. In the process of planting seedlings, up to 40 g of flour is placed in each hole. It is recommended to add bird droppings to enhance the effect.
  3. Fruit or ornamental trees. Top dressing is used for adult plants with a frequency of 1 every 3 years and a dosage of up to 200 g of fertilizer per 1 sq. meter of the surface of the trunk circle.
  4. Berry In early spring 100 g of flour per 1 sq. meter of plantation, and when transplanting bushes and when propagating by cuttings, the consumption is reduced to 50 g per hole. Additionally, bird droppings are used.
  5. Bulbous plants and flowers. Fertilized in the spring at the rate of 50 g of flour per 1 sq. meter of soil. Perennials respond well to such feeding, and when planting annual crops, they are brought in for digging.

It is necessary to observe the correct proportions of fertilization for certain types of plants.

Fertilizer based on fish bone meal is well suited for loosening black soil, loam and calcareous soils. The indication for use is the lack of phosphorus and calcium compounds. Therefore, before starting feeding, soil analysis is performed to determine the level of acidity and the composition of macronutrients.

Excess nutrients is contraindicated in the same way as a deficiency, and negatively affects the quality and quantity of the crop. On clay and waterlogged soils, as well as in sandy soil, flour is poorly absorbed by the root system of plants, and its use is useless.

Basic storage rules

Stacks of bags or containers of fishbone meal are kept in well-ventilated areas that have been treated against pests. Storage areas are protected from ingress sun rays, the negative effects of moisture and heat. Storage periods are recommended by manufacturers and are:

  • 1 year - for products with a fat content of less than 14%;
  • 6 months - for flour with a fat content of more than 14% and a water content of not more than 8%.

As the storage time increases, the characteristics of the product deteriorate. So, for a month under normal conditions, the amount of protein decreases by 12%. When maintaining negative temperatures, protein losses are minimal, but the stability of the powder is significantly reduced. Crude fat is oxidized, its mass fraction is reduced by one third, and this is the main reason for the loss of product quality.


For proper storage of fishmeal, it is necessary to observe the temperature regime and monitor the humidity in the room.

The storage rooms must be optimum humidity air from 60 to 70%. In damp, unventilated warehouses, flour is actively saturated with water vapor, and in excessively dry ones, on the contrary, it gives them away. At high humidity and temperature, vitamins are destroyed, and as a result of the interaction of the components, free fatty acids, peroxide compounds and ammonia are released. These unwanted chemical reactions turn healthy flour into a harmful and even dangerous substance, so the product is not subject to long-term storage.

Fishmeal obtained by the direct drying method is characterized by high quality, especially when the raw material is dried under vacuum. The disadvantage of this scheme is that the finished product is obtained with a high fat content in the flour, and the fat is oxidized during storage. As studies by L.N. Egorova, V.I. Treshcheva and others have shown, the quality of fat is well preserved when antioxidants, such as ionol, are added to the flour.

The method proposed by VNIRO for stabilization of high-fat fish meal by introducing 0.1% butyloxytoluene (BOT) into it provides an increase in the weight of animals, which in monetary terms is 2 - 3 times higher than the costs associated with the introduction of an antioxidant into the fat meal.

Making flour from lean raw materials

The production of fishmeal by direct drying from lean raw materials is carried out in installations operating mainly under vacuum, without preliminary cooking and pressing. In vacuum drying plants, during the cooking process, raw materials are sterilized and bones softened. Obtaining fishmeal by this method is carried out at different temperatures depending on the composition of raw materials and requires careful control and strict adherence to the established regime. The consumption of raw materials and the output of finished products in the production of fish and crab feed meal and fat by the method of direct drying on ship installations is given in table. thirty.

* (The consumption rate of raw materials per unit of production refers to the flour yield.)

Loading of raw materials and unloading of a product in installations operating according to this scheme are carried out periodically. The drying process must be carried out intensively, since prolonged heat treatment leads to a decrease in the nutritional value of the product as a result of fat oxidation.

Vacuum drying plants... In fig. 37 shows a ship-type vacuum drying plant, consisting of two drying drums. Drying is carried out in two cycles. This prevents the formation of a surface crust and ensures proper drying. To completely stop the access of air inside the apparatus, glands are arranged in the bearings supporting the agitator axis. The material to be dried is heated with steam through a steam jacket. The material to be dried is loaded into the cylinder through the loading door; the hatch is tightly closed, steam is allowed into the steam jacket and at the same time a wet-air pump is turned on, which creates a vacuum in the dryer. First, drying is carried out under vacuum in the upper drum until complete boiling and partial removal of moisture, avoiding the formation of lumps.

After removing a significant part of the water from the material, when the adhesive solution is not yet too thick, the discharge port is opened and the material is passed into the lower cylinder. In the lower cylinder, drying is carried out with a one-sided flow of the material to be dried.

The loaded material enters the inclined auger, with the help of which it slowly rises up and, having reached the loading door, is again poured into the lower drying cylinder. This ensures continuous material movement, periodic cooling and prevention of lump formation. The agitators inside the drying drums have inclined blades that slowly move the material to be dried along the cylinder to the opposite end, where it enters the auger again. From the screw, the material is recycled to the same drying drum. The continuous process of work provides a dry semi-finished product suitable for further processing at extraction plants, where fat is extracted from it and fish meal is produced.

Production of flour from fatty raw materials

Obtaining fishmeal from fatty raw materials direct drying under vacuum is carried out according to the scheme developed by Giprorybprom and VNIRO and tested in production conditions at BMRT "N. Ostrovsky".

In vacuum drying installations of the "Progress" type, drying begins with uncoiling and sterilization of raw materials. This process is carried out at a high temperature with a pressure inside the apparatus of up to 1.5 atm and is accompanied by abundant release of glue broths, the concentration of which depends on the properties of the feedstock. Sterilizing, for example, raw seabass waste produces more concentrated glue broths than sterilizing raw cod waste.

As a result of drying, the glue broths thicken and bind the dried mass into lumps. When the contents are stirred with a stirrer, the lumps in the drum turn into pellets, are enveloped on top by the fat released during cooking and cannot be dried when half-baked. In the new mode, sterilization is excluded. It was found that fatty perch raw materials are easily boiled down at a temperature of 70 - 80 ° C, even without preliminary crushing. If the temperature at the beginning of the process is maintained above 80 ° C, pellets are formed. This circumstance must be taken into account and ensured that the temperature at the beginning of the drying process is not higher than 80 ° C.

When processing fatty raw materials with signs of autolysis, sterilization is carried out in the middle of drying, since by that time more than 60% of moisture will be removed from the raw materials and residual moisture will no longer be able to release glue broths.

Technology system shown in Fig. 38, provides for the supply of fatty raw materials to the receiving hopper, where it is accumulated for batch loading of the drying drum (2.5 T). At the same time, it is monitored that the slopes available in the bunker ensure the removal of water. Periodic loading of raw materials from the raw bunker into the drying drum is carried out using an auger laid along the bottom of the raw bunker. Before starting the unloading auger, the drying drum is warmed up.

To do this, open the valve for supplying steam to the drum jacket and the valve for discharging condensate through the bypass condensate line; warming up is carried out for 15 - 20 min at a steam pressure in the supply line of 1.5 at... As soon as the pressure in the drum jacket is brought to 0.5 at, close the valve and then, during the entire drying process, the condensate is directed only through the water drain with the valves open. For the period of drying, the unit is disconnected from the feed bin by a shutter.

Drying is carried out under vacuum without preliminary boiling of raw materials. The creation of a vacuum in the drying drum is carried out by starting up a condensing unit, then a vacuum pump. To do this, first open the valves on the suction and discharge sides of the warm water pump, then the supply valve cold water and immediately start the warm water pump. First 80 min drying is carried out under vacuum 300 - 400 mm rt. st... at a steam pressure in the supply line of 1.5 at while maintaining the pressure of tap water at the inlet to the condenser at 1 - 2 at.

In this mode, the temperature of the juice steam gradually rises to 80 ° C and is further maintained at this level. Particular care is taken to ensure that the vacuum does not drop and the drying temperature does not rise in order to avoid the abundant release of existing adhesives from the raw material, which leads to the formation of damp lumps and pellets in the dryer. The vacuum and drying temperature are controlled by means of air valves installed on the juice steam line and the air line of the vacuum pumps.

In the first phase of drying for 80 min moisture from the raw material is released quite intensively, therefore, at this stage of drying, the drying drum is heated only through a steam jacket. During the transition to the second stage of drying, the pressure of the heating steam on the main line is simultaneously increased to 2 - 3 at and the vacuum is brought to 400 - 500 mm rt. st.

From the moment of transition to the second phase, drying continues for 3 h... The completion of the drying process is characterized by a decrease in the ammeter reading from 65 - 60 to 40 - 35 at, self-leveling of the heating steam pressure readings on the steam jacket pressure gauge with the pressure reading on the steam supply line.

The dried meat is discharged from the drum in the following sequence. First, the heating steam is shut off, then the stirrer, vacuum pump and condensation unit are turned on, after which the unloading hatch is opened and the mixer is turned back on. The complete discharge cycle of the drying drum does not exceed 10 min.

The dried meat is pressed immediately after being unloaded from the drum, while it is still hot.

After pressing the pulp, the product usually contains 8 to 10% moisture.

Work on hydraulic presses is carried out in the following sequence. First, the ramming line is closed with a valve, then the high pressure valve is opened, after which the hydraulic pump is turned on. The valve is closed at this time. When the piston is at a distance of 8 cm from the upper edge of the mirror, turn off the hydraulic pump, put a perforated plate and a napkin on the piston platform. Turn on the horizontal and vertical augers for feeding the dryer to the press, fill the free volume of the zer with it, cover the dryer with a napkin on top, cover with a perforated plate, and then with a napkin, and only then open the valve and lower the press piston (by 8 cm). The free space formed in the upper part of the zer is again filled with a dryer in the same sequence until the press zer is filled along its entire height.

To increase the load of the zer, the dryer is tamped, for which the entire charge of the press is covered with a thick metal plate (dish), the valve is closed and the tamping valve is opened. Turn on the hydraulic pump again and turn the four-way valve to the tamping position. In this position, the rammer piston goes down, compacts the dryer and thereby frees up space in the mill for additional loading of the dryer. Upon reaching: a pressure of about 100 at the four-way valve is switched to the opposite position, the free volume of the zer is loaded again and the pressing is started. First 10 - 20 min the pressing process is carried out at a pressure of 250 at, and then go to the third stage of pressure. Pressing is carried out 30 - 60 min at a pressure of 450 at.

To obtain finished marketable products, fishmeal briquettes undergo primary coarse crushing, then grinding in conventional hammer-type mills. The resulting fishmeal is fed by a special bucket elevator to magnetic separators to remove ferro-impurities, and then to a feeding device for filling closed-type paper bags with flour.

The best containers for are six-layer paper, length 78 cm, width 42 cm with diameter (GOST 2227 - 65), capacity 24 Kg .

The use of this scheme for obtaining finished marketable products and mechanized packaging of fishmeal reduces by more than three times the weight of one container, facilitates the work of RMU operators, completely eliminates the operations of sewing (tying) bags, increases the utilization rate of the hold capacity and increases the economic effect of the production of fishmeal and fat.

Good results are obtained fat processing scheme (fig. 39), created on BMRT 441, through which the fat from the press is sent to the sludge in the fat-heating boilers. It is drained from the boilers one by one, and the fat from one boiler is drained into the fat tank, while in the second boiler the fat settles until the first boiler is refilled.

Installations providing obtaining feed meal in the so-called fluidized bed based on direct action high temperature air-gas mixture for raw materials. The installation, developed by the Technical Institute of Thermophysics of the Academy of Sciences of the Ukrainian SSR for the production of flour in a fluidized bed (Fig. 40), consists of a screw feeder with a variable speed, a working chamber in which there are three zones (a zone for preliminary grinding of raw materials and two zones of joint grinding and drying ). A rotor passes through the chamber, on which the cutters are fixed, rotating at different increasing speeds in each zone (in the first zone, the speed of rotation of the cutters is allowed up to 9 m / sec, in the second 25 m / sec and in the third 36 m / sec).

The inlet part of the working chamber is connected to the chamber furnace, and the outlet part is connected to a centrifugal separator and a cyclone. This whole system works under vacuum, which is created by a fan.

The installation works as follows. The raw material is fed in a continuous flow to the feeder, which transfers it to the pre-grinding zone of the working chamber. In this zone, the raw material is roughly crushed, after which it goes to the zone of joint grinding and heat treatment. At the same time, the coolant, which is formed during the combustion of diesel oil, enters this zone by direct flow.

When the raw material enters the spray funnel, it is instantly crushed by the blows of the cutters and, in a dispersed state, is mixed with the coolant, turning, as it were, into a two-phase dispersed system. Due to the creation of a huge surface of interaction of the solid phase with the gaseous medium, instant evaporation of moisture is ensured.

The rate of moisture removal from the product with such a rapid interaction of the heat carrier depends on the intensity of the formation of a film layer on the surface of the product particle. The formation of a thin layer of the shell prevents the free escape of water vapor from the particle until an excess pressure arises inside it. As soon as the stress of the surface shell of the particle exceeds the ultimate strength, the particle explodes, as it were, and a new surface is formed, and then full or necessary moisture release from the product particles is already ensured (the drying process is accelerated).

The dispersion of the crushed raw material practically becomes equal to the dispersion of the finished product and the intensity of drying increases sharply.


Rice. 40. Technological scheme for the production of fishmeal in a "fluidized bed" of direct drying: 1 - the body of the feeder-dispenser; 2 - conveyor of the feeder-dispenser; 3 - activator; 4 - knife drum; 5 - screw conveyor; 6 - micro-dispenser; 7 - furnace part frame; 8 - fuel equipment; 9 - firebox; 10 - shredder body; 11 - grinder rotor; 12 - grinder cooling fan; 14 - cyclone battery; 15 - fan; 16 - airlock; 17 - storny auger; 18 - vertical auger; 19 - drive station; 20 - holder; 21 - magnetic separator; 22 - control cabinet; 23 - fuel tank

It was found that the fineness of the crushed raw material approaches the fineness of the finished product as a result of giving the cutting edges of the cutters the following peripheral speed ω:

where D- the diameter of the rotor along the cutting edges;

NS- the number of revolutions of the rotor.

The crushed and dried raw materials from the working chamber are pneumatically conveyed in the waste heat carrier flow to the centrifugal separator, where the dried particles are separated. Small particles in the form of a finished product enter the cyclones, settle and enter the hopper, and large particles from the centrifugal separator in a closed cycle return to the working chamber for grinding.

The finished product has a moisture content of no more than 10%, particle size from 0.1 to 3 mm , the temperature of the coolant at the entrance to the working chamber is in the range from 700 to 1000 ° C. The exhaust gas at the outlet from the working chamber has a temperature of 120 - 150 ° C.

The coolant consumption is 1.6 m 3 on 1 Kg raw materials, and the volume of waste gases does not exceed 3.5 m 3 on 1 Kg raw materials. During operation, electricity is consumed to drive the rotor 9 kW, exhaust fan - 10 kW fan - 7 kW and the feeder - 0.6 kW.


The technology adopted for this installation provides a metered supply of raw materials, removal of metal and other inclusions from raw materials, grinding, removal of surface moisture from the particles of raw materials with hot air, pressing, introduction of an antioxidant, joint grinding and drying of raw materials in a dispersed state, separation of a dry product from a heat carrier, cooling and removal of ferro-impurities from the obtained dry product, as well as packaging, weighing and packaging of fish meal.

All processes for the production of fishmeal on this unit are carried out in a certain technological procedure according to a given program. mm e automatic control. The raw material to be processed enters the receiving hopper, from where it is continuously flowed through the feeder-dispenser onto the belt, and then into the grinder. To remove metal and other foreign inclusions, there is a separator chamber in the lower part of the dosing feeder, in which the pulp contents are separated due to the difference in specific gravity.

Metallic impurities are deposited in fresh water, and the raw material is fed by conveyor scrapers to the knife drum for preliminary crushing to pieces no more than 100 mm, then with the auger into the intake throat of the chopper.

Removal of surface moisture from raw materials is carried out in two stages - by feeding hot air into the casing of the knife drum and squeezing the raw materials in the conical part of the feeding screw. The squeezed out raw material is moved by the auger to the intake throat of the grinder, then by the screw feeder it is pushed to the knife heads of the first grinding zone. A certain dose of antioxidant from a microdispenser enters the receiving throat together with the raw material.

Drying is carried out with a vacuum in the cyclone - working chamber - furnace system, created by a special fan (supplying the heating agent in the form of a mixture of combustion products of liquid fuel and air to the working chamber simultaneously with the raw material).

In the working chamber, the drying process takes place simultaneously with the grinding process. In this case, the crushed raw material moves along the chamber by the flow of the coolant, successively passing through the first, second and third zones of the chamber, where it is subjected to multiple grinding and forced removal of moisture.

In the process of turbulent interaction of the coolant with finely ground raw materials, a two-phase dispersed system is formed, in which the solid phase has a huge surface of direct interaction with the coolant, which provides accelerated removal of moisture and obtaining a conditioned dry product.

The dry product is removed by the flow of the heat carrier through the pipeline into two coupled cyclones, in which the precipitation of dry particles occurs. The coolant, passing through the cyclones, is discharged into the atmosphere through the fan, and the finished product through the sluice gates, collecting and vertical screws in a cooled form enters the package.

V recent times Air-lift dryers were used to dehydrate wet fish particles transported through a vertical drying chamber with a stream of hot air, the temperature of which can be relatively high, but does not cause the product to burn.

The technological scheme for the production of fishmeal and fat by a centrifugal method without pressing, based on heating equipment with flue gases (instead of steam), is shown in Fig. 41.

This scheme provides crushing of raw materials to a dispersed state and separation of the boiled mass into solid and liquid phases, excluding pressing.

Raw material enters the crusher 1 with a wide feed opening, which makes it possible to grind large fish with hard bones into a homogeneous mass to a dispersed state, easily fed into the feed tank 2 equipped with level controls. From the feed tank, the crushed raw materials are fed to the cooker for boiling. 3 from where by pump 4 fed into horizontal centrifuge and solids separator 5 replacing the press in these installations. The resulting fat-containing liquid is heated in a heat exchanger 6 , after which it is fed into a self-discharging separator 7 equipped with an automatic movement. Dense mass with a moisture content of 60 - 65% is fed from a horizontal centrifuge to the dryer 8 , then for grinding in a hammer mill 9 ... Flue gas generator 10 ensures the supply of heat generated as a result of oil combustion in the furnace to the brewer and dryer. Exhaust flue gases are supplied to the air heater through a special ventilation system. 11 where the air supplied for production purposes is heated. The unit is equipped with a cyclone 12 for catching flour dust, equipped with a fan 13 for supplying exhaust air for deodorization. Technological process control is carried out automatically 14 .

The flue gases produced in the furnace are blown in by a fan through the brewer and dryer. The brewer and dryer are made in the form of horizontally rotating cylinders with longitudinal pipes, inside of which flue gases pass, while maintaining the required temperature regime for cooking the raw material and drying it (Fig. 42).

The pipes are expanded at both ends so that the supplied flue gases do not come into direct contact with the material to be welded and dried. The rotating drums of the brewer and dryer are enclosed in a jacket that has flue gas inlets and outlets. The heated tubes of the brewer and dryers are equipped with flat steel scrapers, the width of which is less than the diameter of the tubes. When the drum rotates, the scrapers also rotate inside the pipes and, at the same time, automatically remove soot from the surface, thereby ensuring normal heat transfer. The rotor is closed so that it is practically impossible for the outside cold air to enter the flue gases that heat the brewer and dryer.

The brewer and drying drum rotate at a speed of 3 - 3.5 about/ min using a worm gear.

The feed conveyor of such a fat-and-butter plant has a variable speed drive, which can be set depending on the type of raw materials being processed and the productivity of the plant.

This fat and butter plant produces light fishmeal with a low fat content and a high protein content. The design of the plant equipment, the layout and use of the necessary devices, including the automation of production process control, are made taking into account the latest achievements of science and technology.

The production of fishmeal and fat by the centrifugal method provides: the continuity of the process and the ability to work with different raw materials by type, size and grade; obtaining fishmeal with a low fat content, regardless of the freshness and fat content of the processed raw materials; carrying out thermal processes for the production of fish meal and fat by heating with flue gases at low consumption fresh water for processing fat by separation; application of equipment with low operating cost for this process.

Fish-and-meat installations of the "Centrifish" system are combined into lines with a capacity of 600, 450, 300 and 150 T per day for raw materials. Each line with a capacity of 300 T per day it is equipped with two powerful dryers and the necessary set of fat and flour equipment. These plants, as well as plants operating according to the direct drying scheme, ensure the full use of raw materials and the receipt of whole feed meal. They work on flue gases obtained from burning oil in generators of a special design. The main indicators of the installations of the "Centrifish" system are given in table. 31.

Technological scheme for the production of fish meal and fat on continuously operating aggregated fat-and-flour installations of the "Tor" system of the "Don-Tor" company, used in the domestic industry and working according to a predetermined program mm e with automatic control and regulation of production processes, is shown in Fig. 43.

mm e: 1 - raw material hopper; 2 - bunker auger; 3 - cooking pot; 4 - press; 5 - pulp crushers; b - drying drum; 7 - magnetic separator; 8 - drying screw; 9 - mill; 10 - cyclone; 11 - automatic scales with a sewing machine; 12 - reservoir of pre-press broth; 13 - vibrating sieve; 14 - reservoir (second) for pre-press broth; 15 - Alfa Laval centrifuge; 16 - pump, glue water and sludge; 17 - pump for fat; 18 - fan; 19 - cyclone ">
Rice. 43. Aggregated installation of the company "Don-Tor", operating and controlled automatically according to a given program mm e: 1 - raw material hopper; 2- bunker auger; 3 - cooking pot; 4 - press; 5 - pulp crushers; b - drying drum; 7 - magnetic separator; 8 - auger ey-schenki; 9 - mill; 10 - cyclone; 11 - automatic scales with a sewing machine; 12 - reservoir of pre-press broth; 13 - vibrating sieve; 14 - reservoir (second) for pre-press broth; 15 - Alfa Laval centrifuge; 16 - pump, glue water and sludge; 17 - pump for fat; 18 - fan; 19 - cyclone

The raw material sent for processing enters the fish cutter, which consists of a welded quadrangular body, in which there are fixed combs of rectangular knives. In the slots of the fixed knives, there are movable plug-in knives of the massive rotor. Rotor makes 1430 about/ min , drive power 5.5 kW... The crushed raw material enters the auger hopper, from where it is sent for boiling to a continuously operating brewer. In the hopper of the brewer there is a capacitive level sensor that shows the filling level of the brewer with raw materials and automatically regulates the supply of raw materials to the brewer. The hollow auger of the brewer is driven by an electric motor with a power of 9.67 kW through a speed variator and reducer.

The cooked mass of fish is automatically transferred to the screw press, the cast iron press grates of which have tapered holes with a diameter of 15/12 mm... Inside the grilles there are stainless steel pads with perforation with a diameter of 2 mm ... The press is driven by an electric motor with a power of 5.5 kW through a variator and a two-stage gearbox. The speed is automatically adjusted.

In the transition pipe from the brewer to the press there are sensors - one of them serves to maintain the required level of the boiled mass, the other to measure the temperature of the boiled mass entering the press.

The issue of crushing the pulp coming out of the press has been successfully resolved. For this, a hammer crusher with a massive disc rotor is installed in the outlet of the press, on which hammers are hinged, breaking the pulp clods before entering the drying drum. The crusher is driven by an individual electric motor with a power of 1.3 kW.

The dryer body has a steam jacket, into which steam is supplied under pressure 3 - 4 at... Heating steam is also fed into the tubular rotor of the drying drum, equipped with spiral and scraper blades, with the help of which the material to be dried moves along the drum to the unloading window. The rotor of the drying drum is driven by an electric motor with a power of 5.5 kW through a gearbox and chain drive.

Through the regulating gate at the end of the drying drum, the dryer is discharged by special rotor blades into an inclined discharge auger for transfer to a magnetic separator. The auger body is enclosed in a jacket through which a flow-through sea ​​water to cool the dryer.

The screw drive consists of a planetary gearbox and an electric motor with a power of 0.5 kW located at the top of the auger directly below the magnetic separator. The dried food, passing through a magnetic separator, enters the mill with hammers hinged on the rotor in a uniform flow.

The resulting flour goes through a special sieve of the mill into a common pan with a fan. From the pallet, flour together with air is discharged by a high-pressure fan into a cyclone for separating flour from air, weighing and packaging.

The mill and the fan are a single unit on one shaft with a 4 kW drive. Drive motor makes 2200 about/ min , and the rotor of the mill and the fan impeller 4500 about/ min .

The shaft, on which the rotor and the impeller are located, rotates in roller bearings. The rest of the mechanisms of the drying drum, brewer, screws and screw press rotate in plain bearings. The flour is sucked from the pallet together with the air by the fan and fed to the cyclone, where it is deposited and sent to the receiving hopper of the automatic scales. The mass of a portion of flour can be adjusted from 20 to 100 Kg... The scales are equipped with a registering counting mechanism and a manual lever clamp for fastening kraft bags. Thus, the accounting of finished products is fully automated.

Pressing broth from the press is drained by gravity into an open tank with a capacity of 0.09 m 3, equipped with a low level float switch and a pump for supplying broth to the separator.

The vibrating separator is a vibrating sieve with a built-in 0.37 electric motor kW... Separated solid particles of protein-bone tissue are returned to the drying drum in a continuous flow, and the broth is removed into a closed tank with a capacity of 0.06 m 3 where it is heated with live steam to 85 ° C and processed in a batch separator to separate fat.

During the drying process, water vapor is removed from the dryer into the atmosphere through a special cyclone. The cyclone is equipped with a hermetic collector for capturing dried particles carried away with the steam.

The collector and filter are fixed together with the cyclone and are periodically cleaned.


The technological process is regulated and controlled from a common panel installed next to the brewer and the press. A pressure gauge measuring the steam pressure in the supply line and thermometers measuring the temperature of the boiled mass and vapors sucked out of the drying drum are placed on the common board. The board includes a mnemonic diagram and toggle switches for switching on all engines of the grease plant.

Domestic aggregated fat-and-oil plants of the VNIEKIProdmash system have a capacity of 30 - 35 and 60 - 70 tons per day for raw materials. The main fat-and-oil equipment is combined into two independent units. The first block includes a brewer and a dryer, the second block - a vacuum evaporator for obtaining concentrated broth.

The raw material enters the fish cutter, where it is crushed, then into the hopper with a metering auger and into the brewer. Raw materials are cooked with both deaf and live steam. The boiled mass from the brewer enters a twin-screw press to separate the broth from the pulp (up to 50% moisture content).

The squeezed mass, loosened by a special device, is fed into the dryer with highly developed heating surfaces of the body and shaft, heated by deaf steam. The moisture evaporating from the material to be dried is removed by a fan with a cyclone.

The product, dried to standard moisture content, is poured from the lower outlet of the dryer to the platform of the vibrating conveyor, which in a uniform layer feeds it to the platform (bottom) with built-in permanent magnets to remove ferro-impurities from the dryer. The dryer is sucked by the fan of the mill installation through a special sleeve into the crushing drum of the mechanism.

The fishmeal with air flow through the pipeline enters the two upper cyclones with a sluice gate. From the second cyclone through the chute, the product goes to packaging in kraft bags. In pneumatic transport, flour is cooled to a temperature of 30 ° C with cold air.

The broth from the press is pumped into a horizontal settling centrifuge to separate the suspended protein. Solids enter the dryer through openings in the top of the dryer. The broth is pumped into the clarified broth compartment, where it is heated to a temperature of 20 - 28 ° C and enters the fat separator. The resulting fat is pumped into a tank (separate for fat), where it is heated to a temperature of 85 - 95 ° C and sent to the fat separator for final cleaning.

The skim broth from the first (mud) separator is pumped into the tank in the skim broth compartment, where it is heated and pumped into a two-stage evaporation plant.

The resulting concentrated broth is removed by a pump through a special pipeline into the loosened pulp and mixed with it. The mixture obtained in this way enters the dryer.

The invention is intended for use in feed production, for the preparation of fish feed meal from low-value fish raw materials. The method includes grinding raw materials in a fish cutter, processing the crushed raw materials with a solution of acetic or citric acid with a concentration of 0.1-5.0%, cooking the raw materials, which is carried out in two stages at a temperature in the range of 60-95 o C. Then the mass is centrifuged, then sent to drying, separated broth - for further processing. The processing of raw materials crushed in fish cutting with acid, acetic or citric acid, causes the muscle tissue of small fat-containing fish to thicken, which, in turn, contributes to a better separation of fish oil with pre-pressed broth during the process of centrifugation of the cooked mass. The resulting feed meal is characterized by a higher protein content and a reduced fat content, which makes it of higher quality. It is intended for use in fish farming for feeding fry such as salmon fish.

The invention relates to the fishing industry, in particular to methods for the production of fishmeal mainly from low-value fish raw materials. Fish feed meal is made from various raw materials: fish and waste from fish processing for food products, pre-pressed fish broths, shrimp raw materials, etc. Depending on the raw material used different ways making flour. There is a known method of making feed flour in direct drying plants, in which, after drying, a pressing operation is performed, and then the compacted raw materials are ground and purified from metal impurities. Also known centrifugal drying method for the manufacture of feed meal (see. Instructions for the manufacture of feed meal. 99 - In the collection of VNIRO "Technological instructions for processing fish". Vol. 2 - M .: Kolos, 1994). This method involves the following operations: raw material grinding, cooking, centrifugation, drying, cooling and packaging. Fish feed meal in accordance with GOST 2116-82 must have the following content: mass fraction of crude protein in fish meal not less than 50%, mass fraction of fat not more than 10%. The lower the fat content of the flour, the better the feed flour. When making feed meal for fish farming, for example, it is recommended to use raw materials with a fat mass fraction of not more than 4% in order to obtain a meal with the lowest fat content. Consequently, the fat separation operation in the process of making fish meal has the greatest impact on the quality of the resulting product. Known methods of making flour include additional processing of products in order to reduce the fat content. A known method for the production of fish meal for poultry, in which raw materials (fresh and frozen sardine, horse mackerel, mackerel, herring, anchovy) are processed in an acidic medium, after which a centrifugation operation is performed (see US Pat. RF 1836030, A 23 K 1 / 10 from 23.01.91). In this method, the raw material is subject to separation until separate fractions of bone and meat tissues are obtained, and exposure to an acidic medium is carried out for each fraction separately. The quality of the resulting product, and therefore its price, also depends on the protein content in the flour, with an increase in the protein content, the nutritional value of the flour increases. The main task that was solved in the development of the proposed method was the use of low-value fish raw materials to obtain high-quality flour with a high protein content and low fat content. The inventive method relates to centrifugal drying methods and includes the above operations. The difference between the proposed method is that before the cooking operation, the crushed raw material is treated with a solution of acetic or citric acid with a concentration of 0.1 - 5.0%, then cooking is carried out at a temperature in the range of 60-95 o C. At the same time, the initial cooking is carried out at a temperature of 60 -70 o C, followed by exposure for 10-15 minutes. Then, the temperature is increased by 20-25 o C, followed by holding the mass for 10-15 minutes. The proposed method allows you to obtain feed flour with high levels (fat and protein content), exceeding the recommended GOST 2116-82 "Feed meal from fish, marine mammals, crustaceans and invertebrates. Specifications", from more fat-containing raw materials, such as capelin or small herring (the fat content in the raw material is 12-18%). The processing of raw materials crushed in fish cutting with acid, acetic or citric acid, causes the muscle tissue of small fat-containing fish to thicken, which, in turn, contributes to a better separation of fish oil with pre-pressed broth during the process of centrifugation of the cooked mass. The concentration of the acid solution from 0.1 to 5% makes it possible to process a mass consisting of a soft bone structure and a muscle structure of weak consistency to a state suitable for centrifugation. The heat treatment of raw materials in two stages in the temperature range from 60 o C to 95 o C allows you to provide a gentle cooking mode, which is very important in the case of using fish tender in consistency. This prevents the production of a mushy mass, from which water separates poorly, and contributes to the implementation of the most efficient centrifugation regime. Brief exposure of acid-treated raw materials to high temperatures also allows for more efficient separation of pre-press broth containing significant amounts of fish oil. This, in turn, reduces the amount of fish oil in the final product - flour. Thus, the claimed combination of essential features ensures the achievement of a different technical result, namely the production of high-quality fish meal with a high protein content from low-value raw materials that have a high fat content, for example, capelin and small herring. The analysis of the sources revealed during the search for information showed that the claimed set of essential features is unknown from the prior art, which confirms the compliance of the proposed solution with the "novelty" criterion. Since the claimed set of essential features makes it possible to obtain a new technical result different from that provided by the known methods, it can be argued that the claimed technical solution meets the criterion of "inventive step". The proposed technical solution is technically feasible (industrially applicable), which is confirmed by the information below. The essence of the proposed method is as follows. After defrosting, the raw materials are crushed to pieces no more than 3 cm in size. In the case of using small fish, capelin or herring, small raw materials can be used without grinding. Then the raw material is irrigated with a solution of acetic or citric acid. The concentration and amount of acid is determined based on the type and volume of processed raw materials. The acid treatment time is also determined by the amount of fish processed. Heat treatment of raw materials is carried out first at a temperature of 60-70 o C, followed by an increase to 95 o C. In this case, the raw material is kept for a short time 10-15 minutes after the first cooking, as well as after increasing the temperature. Further, the processed mass is fed to a centrifuge, using the usual equipment used in fisheries. After centrifugation, the pulp is sent for drying, and the separated broth - for further processing, the solution - for reuse... Finished products are packaged. Example 1. In the production of fish meal from 425 kg of capelin, the raw material was kept for 30 minutes in 1200 l of a solution of acetic acid of 0.5% concentration. After the strainer screw, the mass was sent to cooking, while the heat treatment was carried out in two stages: Stage 1 - heating to 65 o C and cooking for 10 minutes; Stage 2 - heating the cooked mass to 85 o C and holding at this temperature for 15 minutes. The finished product output amounted to 80.7 kg of feed meal. The composition of the obtained feed meal: proteins - 70.8%, fish oil - 6.4%, moisture - 7.3%. Example 2. In the production of fish meal from 470 kg of Atlantic herring, actively feeding on calanus, the herring was kept for 45 minutes in 1000 l of 0.1% acetic acid solution. Heat treatment in two stages: Stage 1 - heating to 70 o C and cooking for 5 minutes; Stage 2 - heating to 90 o C and holding for 10 minutes. Fish meal output - 87 kg. The composition of fish meal: protein - 70.5%, fat - 6.0%, moisture - 8.1%. The proposed method provides an increased rate of output of finished products. The resulting feed meal is characterized by a higher protein content and a reduced fat content, which makes it of higher quality. Feed meal with such a fat and protein content is intended for use in fish farming for feeding fry, for example, salmon fish, if the shelf life does not exceed the permissible for these purposes. With a long shelf life, such flour is used in pig farms in the North. The proposed method is simple to implement and does not require the development of additional equipment. Acetic or citric acid is approved for use in the food industry. Expansion of the species range of raw materials for the production of fishmeal makes it possible to solve an important national economic problem - the breeding of valuable fish species, for example, salmon.

Claim

A method of obtaining fish feed meal, including grinding raw materials in a fish cutter, processing it with acetic or citric acid, cooking, centrifuging the cooked mass, drying and packaging, characterized in that before cooking, the crushed raw materials are processed with a solution of acetic or citric acid with a concentration of 0.1-5 , 0%, cooking is carried out in two stages at a temperature in the range of 60-95 o C.

The sphere of agriculture, due to the complicated relations with foreign partners, is actively developing today. And this gives excellent chances for entrepreneurs to develop in this direction by launching manufacturing enterprises for the production of products in demand here. And if the decision has come to open a business in this particular niche, then it is worth thinking about buying equipment for the production of fishmeal and starting to supply a valuable component to the market for. Fishmeal is one of the most valuable (and therefore expensive) components in every compound feed for livestock and poultry. The powder obtained during processing is mixed with the bulk of the feed to give it special nutritional properties.

Our business valuation:

Initial investments - from 1,500,000 rubles.

Market saturation is low.

The complexity of starting a business is 6/10.

And despite the fact that the process of obtaining finished products, thanks to fully automated equipment, is quite simple, an entrepreneur should work out a business plan for the production of fishmeal. So in the future it will be much easier to conduct your business, taking into account the costs of doing business and the income received. What should be considered here?

Prospects and problems of direction

There are very few fishmeal enterprises in Russia. And this is mainly due to the difficulties in the supply of raw materials. The fact is that a large amount of it is sent abroad. And then there is only one way out - to conclude contracts for regular supplies of a sufficient amount of raw materials for processing with several suppliers at once. And then, with minimal competition in the market, you can start a fairly profitable business.

A third of the fishmeal produced in Russia is sold to foreign customers. And it turns out that our compatriots, overpaying a significant amount, buy the Russian product abroad. And many farmers will gladly purchase it from a local manufacturer. A huge sales market is the main advantage of this direction.

The production of fish feed meal is considered a profitable business due to the relatively high price of this additive. And this is due to the properties that it possesses. And when offering finished products to your potential customers, you can appeal precisely to their value for animals.

The composition of fishmeal is as follows:

  • protein,
  • unsaturated fatty acids,
  • vitamins,
  • trace elements.

In order to reduce the costs of launching an enterprise and minimize financial risks, it is better if a small-capacity enterprise is organized. Thus, the mini-line will not be idle due to interruptions in the supply of raw materials, and the manufactured products will not stale in warehouses.

Fish meal technology

The mini-factory for the production of fishmeal will process fish raw materials within its walls. And it can be not only whole carcasses, but also waste from fish processing enterprises - bones, skin, offal.

Considering that it is even possible to process fishmeal to obtain fishmeal, many fish factories equip a separate workshop with special equipment in order to receive additional income from the sale of a valuable additive for compound feed. It turns out that fish processing enterprises can become generally waste-free.

The very same technology for the production of fishmeal is as follows:

  • Cleaning of raw materials from impurities (debris, dirt).
  • Grinding of raw materials.
  • Cooking fish raw materials.
  • Regrinding of cooked raw materials into minced meat.
  • Dehydration of minced fish.
  • Drying minced fish.
  • Final grinding of the resulting product into flour.
  • Packing fishmeal into containers.

And fish feed meal is not the only product that can be obtained in the process of processing raw materials. After dehydration of minced fish, water and fat remain in the tanks. It is the second component that is valuable - it can also be sold to farmers as a useful feed additive. But that's getting medical fish fat within the walls of the mini-workshop it is unlikely that it will work, since here one more Production Line for cleaning a technical product.

Technical equipment of the workshop

This industry is actively developing today, and therefore, there are many names of machines and devices on the market for obtaining a quality product. And the price of equipment for the production of fishmeal will depend on its performance and the degree of equipment. On average, a small-capacity workshop can be fully equipped with machines for 800,000-1500,000 rubles.

Production line for obtaining fish meal and technical fish oil

The complete fishmeal production line is equipped with the following machines:

  • Bins for raw materials, minced meat and finished products.
  • Chopper.
  • Drying tank.
  • Filling machine.

To reduce the cost of technical equipment of the plant, it is possible to purchase a line without a filling machine, and to carry out the work manually using dispensers. But this method is very labor intensive, and more time will be spent on the process of obtaining the finished product. Wanting to save money, it is better to buy Chinese-made fishmeal equipment - it costs much less than the same Russian or European machines.

Requirements for the production area

To accommodate a low-power line, a separate building with an area of ​​100-200 m2 is required. Not only the workshop itself will be located here, but also warehouses for storing finished products and rooms for personnel.

At the exit, we will not receive food product, therefore, there will be no particularly stringent requirements from the supervisory authorities for the production workshop. But there must be ventilation, water, electricity, sewerage. But the temperature and humidity indicators in the finished product warehouse should be given special attention, since when flour is stored in improper conditions, it can lose its properties and presentation.

The profitability of the planned business

The sale of fishmeal, if the distribution channels are well established, very soon you will begin to bring high incomes to the entrepreneur. And contracts for the wholesale of the finished product can contribute to this. But large customers prefer to cooperate with trusted manufacturers, and therefore, even at the very beginning of their activities, it is better to certify the products received within the walls of the plant.

The use of fishmeal is quite wide - there should be no problems with marketing. But immediately go to regional market sales are unlikely to work - at first it is worth betting on local buyers.

Average wholesale price of fishmeal per Russian market is ≈35-60 rubles / kg. At the same time, the production cost is much lower - 15-40 rubles / kg. And even taking into account the fact that an entrepreneur will spend at least 1,500,000 rubles to start a business. (equipping the shop, purchasing raw materials, preparing the premises for work), all costs with such a high cost of manufactured products can be recouped literally in 1 season.

In the fish industry, a link is provided for the final processing of production wastes, in particular, bones, which are a storehouse of animal protein. With the help of special equipment, they are first dehydrated and then turned into flour. The final natural product is a valuable component of the diet on which domestic animals are fed.

Basically, livestock farms consume fishmeal, which comes to us from abroad and, naturally, costs a lot. However, its production can be adjusted with us! As they say, there would be only fish, and equipment for the production of fish meal can be purchased at DiPiProm.

Equipment for the production of fishmeal: the impossible is possible

We are pleased to offer several options for versatile lines of our own production, with the help of which you can turn any waste from fishing and meat processing into valuable feed for animals. For example, such a variant of equipment for the production of fish meal, such as the DPP-16AM, can be used for the manufacture of equally demanded bone meal.

You can order a line from us that works on steam and electricity, which is very convenient. For the operation of the line presented in another modification, only electricity is used.

The price depends on the configuration. Since we manufacture this equipment ourselves, we manage to control its quality and keep the cost at an acceptable level.