HU194319B - Process for separating of fat from materials after pressing the fat and equipment for this process - Google Patents

Description

The present invention relates to a process for the selection of fat from a liquid mixture obtained from fat extrusion material, in particular skin slices, wherein the liquid mixture is continuously introduced into a settling tank, the non-greasy material is sedimented and the fat deposited continuously from the surface of the liquid mixture. The invention further relates to a device for carrying out the process, wherein the settling vessel is formed with an outlet opening in the lower part thereof and an inlet pipe connected to the middle part thereof, and an inlet flow opening at the surface of the liquid mixture.

Preparation of skins for dressing produces large quantities of skin slices containing fat, proteins and other substances. By pressing these slices of skin, one obtains a press cake which is predominantly proteinaceous and, on the other hand, a liquid mixture containing predominantly fat.

The liquid blend essentially forms a fat emulsion less stable with water, which also contains soluble proteins, dispersions of insoluble proteins, and various salts. This liquid mixture in the container automatically decomposes into two layers due to the different specific weights of the materials contained. The lower layer contains soluble and insoluble proteins as well as a small amount of fat in the aqueous solution of salts.

The top layer is predominantly composed of fat, water, and non-fatty substances, which are primarily soluble and insoluble proteins. Water and non-grease thus cause a high degree of contamination of the grease, which means that the grease cannot be used for industrial purposes without prior refining.

It is known to separate fat from the liquid mixture by reaction with sulfuric acid, wherein the liquid mixture is introduced into a settling vessel, 1 to 1.5% concentrated sulfuric acid is added per volume of the liquid mixture and the contents of the settling vessel are kept under stirring. The sulfuric acid reaction coagulates the non-fats, especially the proteinaceous constituents, and settles as a precipitate on the bottom of the settling tank. After coagulation and settling have been completed, the upper fat layer is introduced into a container and the lower, predominantly wastewater portion is discharged into the drain, and the sediment is used for further processing.

The settling tank is then refilled with a liquid mixture and the fat is removed! the process is repeated. Other acids may be used instead of sulfuric acid, for example hydrochloric acid, phosphoric acid, boric acid or other tannin solutions, calcium or zinc chloride.

In some cases, the entire contents of the settling tank are heated to enhance the effect of coagulation.

The disadvantage of this process is the low productivity and the need to use chemicals which, because of the latter, impede the cleanability and possible processing of the waste.

When heating is used, this process becomes very energy intensive.

There is also known a further process for separating palm oil from an aqueous mixture, wherein the aqueous liquid is continuously introduced into a flushing tank, and this aqueous mixture is also spontaneously decomposed into a lower, predominantly water-containing layer and an upper layer where the palm oil is sufficiently concentrated.

The palm oil thus separated is continuously introduced into the tank from the liquid level while the lower layer of the aqueous solution is continuously discharged as waste. The insoluble constituents settle on the bottom of the settling tank, from where they are removed for processing.

This known process is not suitable for the removal of fat from an aqueous solution having soluble proteinaceous constituents. Soluble proteins form a relatively stable emulsion with fat and water, from which fat is very difficult to separate.

It is known to provide a device for separating a palm oil from an aqueous solution having a settling tank having an inlet line connected to a central portion thereof, through which a collecting pipe is connected at the level of the aqueous solution. The inlet flow of the outlet pipe is connected to the lower part of the settling tank, where the fat content of the liquid is minimal. From here, the bypass line is led above the level of the liquid mixture.

The disadvantage of the solution is that the pump has to be used for the discharge line, thus increasing the costs.

In addition, due to pumping, undesirable movement of the liquid mixture is formed in the region of the outlet inlet, which prevents the insoluble material from settling on the bottom of the settling tank.

This defect is overcome by the process of the invention by continuously heating the upper fat layer of the liquid mixture to a temperature above 100 ° C.

The essence of the device according to the invention is that the outlet of the outlet conduit is formed at a sufficient distance from the thickness of the upper fat layer below the upper inlet of the collecting conduit.

A preferred embodiment is that the spacer rings are incorporated in the discharge line.

It is also advantageous to have an embodiment in which radiators are arranged in the entire cross-section of the settling tank between the upper inlet of the collecting pipe and the outlet of the outlet pipe.

The greater efficiency of the process of the present invention is that the uniform heating of the upper fat layer renders the dispersion of insoluble proteins in the fat unstable and the water from the upper fat layer evaporates.

The coagulated and dissolved protein constituents sink into the lower layer of the liquid mixture due to their specifically higher masses.

The greater efficiency of the device according to the invention lies in the fact that the waste layer to be discharged spontaneously flows through the outlet port of the outlet conduit without undesirably moving the liquid mixture in the region of the lower inlet port.

The heater only heats the upper fat layer, thus achieving high energy efficiency with relatively low energy consumption. The spacer rings make it easy to adjust the height of the lower inlet to the outlet guides to the actual thickness of the upper fat layer.

The process of the invention is carried out! By way of example] We will explain in more detail.

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1. Implementation! example:

The liquid mixture obtained by extrusion of the skin slices is continuously introduced into the middle part of the settling tank, whereby due to the different weight of the individual constituents, the two spontaneously divide into two layers.

The upper layer thus collects lighter fat, which is contaminated with water and proteinaceous ingredients.

The soils in the lower layer are predominantly so-called. non-fats remain which are aqueous solutions of various salts and contain little fat.

The entire upper fat layer was heated continuously and steadily to a temperature which is above the boiling point of water, preferably between 130 ^e C. At this temperature, the soluble proteins are thermally coagulated, the stability of the dispersion of the insoluble proteins is broken down, and the water is evaporated.

Thus, near the liquid level of the liquid mixture, the refined fat collects and is continuously fed into a container. . 20

The bottom layer of the liquid mixture is likewise continuously disposed of. The insoluble as well as the coagulated, initially soluble proteins are deposited on the bottom of the settling tank, from where they are released for further processing. The device according to the invention will be described in more detail with the aid of an exemplary embodiment. 1 is a schematic sectional view of the device according to the invention.

The device according to the invention has a settling tank 1, whose bottom part 11 is conically formed and has a sludge drain valve 12. In the central part of the settling tank 1 there is formed an inlet pipe 21 for the inlet pipe 2, above which the inlet opening 31 of the collecting pipe 3 is formed at the liquid level h of the liquid mixture.

In the lower part of the settling tank 1, the lower inlet 41 of the outlet conduit 4 is arranged above the sediment s, where the outlet conduit 4 is led vertically above the lower waste layer d outside the settling vessel 1. At the other end of the outlet conduit 4, an outlet opening 42 is provided. The outlet 42 is located below the upper inlet 31 of the collecting conduit 3 at a distance equal to the thickness t of the upper fat layer 40k. Spacer rings 43 are incorporated in the outlet conduit 4. Between the upper inlet 31 of the collecting line 3 and the outlet 42 of the outlet line 4, a radiator 5 is uniformly distributed over the entire cross-section of the settling tank 1. 45

The operation of the device according to the invention is described below.

The liquid mixture is continuously introduced into the settling tank J via the inlet line 2, whereby the liquid mixture is spontaneously distributed to the upper fat layer k and the lower zero layer d.

The heater 5 heats the upper fat layer k, whereupon the water is evaporated and the non-fat deposits are further deposited and deposited in the lower waste layer d as well as in the sediment s.

The deposited grease flows continuously into the reservoir through the upper inlet port 31 and the collecting line 3.

The lower waste layer d also automatically passes through the lower inlet 41 in accordance with the principle of a vessel traveling through the outlet conduit 4. Meanwhile, a minimum fat-containing waste layer d flows into the inlet 41 of the outlet conduit 4. The height of the lower inlet opening 41 is adjusted by inserting or removing the required number of spacer rings 43 to the actual thickness t of the upper fat layer k.

Deposited sediment is discharged as needed through a conduit with sludge drain valve 12 and transported for further processing.

The process and apparatus of the present invention can be used to continuously remove fats from a liquid mixture obtained by extrusion of skin slices.

Claims (4)

A process for separating fat from a liquid mixture obtained from fat extrusion material, in particular skin slices, wherein the liquid mixture is continuously introduced into a settling vessel, the non-greasy material is deposited and the fat deposited is continuously drained from the surface of the liquid mixture. Heat to a temperature above 100 ° C. Apparatus for carrying out the process according to claim 1, wherein the settling vessel is formed with a drainage port in its lower part and an inlet pipe in its middle portion and a collecting pipe inlet at the surface of the liquid mixture, characterized in that the discharge pipe (4) its outlet (42) is formed at a distance corresponding to the thickness of the upper fat layer below the upper inlet (31) of the collecting line (3). Apparatus according to claim 2, characterized in that: the outlet conduit (4) is provided with spacer rings (43). Apparatus according to claim 2, characterized in that radiators (5) are arranged in the entire cross-section of the settling tank (1) between the upper inlet (31) of the collecting pipe (3) and the outlet (42) of the outlet pipe (4). .