NO885781L - PRE-MATERIAL MATERIAL AND PROCEDURE FOR PREPARING THEREOF, AND PRE-MIXING CONTAINING THE PREMIUM MATERIAL, AND PROCEDURE FOR PREPARING THEREOF. - Google Patents

Abstract

A pre-raw material contains vapor-blasted, lignocellulosic, granular natural material. The feedstock is prepared by granulating the vapor-blasted natural material by forcing the natural material through a die.

Description

The present invention relates to a raw material containing steam-exploded, lignocellulosic, natural material. The invention also relates to a method for producing a premix that contains the starting raw material, as well as a method for producing the starting material.

Lignocellulosic natural material, such as wood, plant stems, straw, grain husks and similar natural material contains as main components: cellulose, hemicellulose and lignin. Cellulose and hemicellulose are carbohydrates, while lignin is an aromatic, cross-linked polymer.

The use of lignocellulosic raw material, especially wood, for the fSr raw material is limited by the wood's compact structure, which effectively prevents the action of an animal's digestive enzymes. In order for cellulose and hemicellulose to be used as e.g. raw materials, they should be isolated from the wood either directly by extraction or by the wood being chemically decomposed, whereby the carbohydrates are decomposed into monomeric products. In the case of hydrolysis, the decomposition reactions and condensation reactions between carbohydrates and lignin cause yield loss. Furthermore, hydrolysis has an unfavorable effect on the part of the wood substance that forms the residue after hydrolysis. This solid is changed by hydrolysis, e.g. by cellulose boiling, to such an extent that any other use of it than burning becomes almost impossible. Its use for feeding animals in particular cannot be considered.

The use of enzymes to decompose the carbohydrates in wood biomass is made difficult by the low availability of the enzyme molecules. The enzyme's average molecular size is over 50 Å, while the average pore size for wood fibers is approx. 30 Å. For that reason, the enzyme molecules cannot penetrate the fiber wall and hydrolysis of the carbohydrates cannot take place at the rate at which the enzyme decomposes the freely available carbohydrate polymer. Furthermore, the cellulose's high crystallinity contributes to making access difficult for the enzymes, i.e. that the large enzyme molecule can only act on the surface of the crystal, whereby the hydrolysis reaction will be quantitatively slow.

To solve these problems, the so-called steam explosion method has been developed, whereby a lignocellulosic, natural material is exposed to high temperature, e.g. 200 + 20°C, and high pressure, e.g. 20+5 bar, for from 1 to 10 minutes, after which, during a short period of time, it is transferred to a lower pressure, e.g. 1 bar. This causes the water in the lignocellulosic material to evaporate and chemical bonds in the lignocellulosic material to be split. The result is a porous, fibrous material from which cellulose, hemicellulose and lignin can be isolated, e.g. by extraction. The steam-exploded, lignocellulosic, natural material can be treated, e.g. by extraction, to remove xylan solution, e.g. with the aim of producing xylose and also xylitol, such as is known in the field. The extra-hardened biomass thus obtained can be used as such for raw material. In the present description, steam-expanded lignocellulosic, natural material is meant fiber material that has been produced and steam-expanded in the manner described above, and/or biomass that has been obtained, e.g. in connection with the extraction of the material thus obtained.

The use of steam-exploded lignocellulosic, natural material as raw material is made difficult by its porous, very space-consuming structure, in other words its bulk density, which in the dry state is of the order of 0.1 kg/dm3. The steam-blasted, natural material is difficult to handle. It requires a lot of storage space. Its miscibility with other feedstocks is poor, and even after mixing is achieved, conventional feedstocks tend to separate from the steam-exploded natural material.

The purpose of the present invention is to eliminate the disadvantages mentioned above.

The purpose of the invention is more precisely to produce a raw material containing lignocellulosic, natural material, a method for its production, a mixture containing steam-exploded, lignocellulosic, natural material, as well as a method for producing the mixture.

The characteristic features of the invention appear from the following claims.

The invention is based on the unexpected observation made during research work that steam-exploded, lignocellulosic, natural material can be granulated as it is, largely without the addition of a granulating agent, i.e. that the steam-exploded, lignocellulosic, natural material is simply pressed through a matrix, whereby it is granulated. The bulk density of the granulated product that is thereby obtained is significantly higher than that of the steam-exploded, natural material used as raw material. For that reason, the steam-exploded, natural material can be stored, handled, transported and mixed in granular form in a significantly simpler way than in non-granular form. The invention provides new possibilities for the use of steam-exploded, lignocellulosic, natural material for the production of raw material and corresponding premixes.

It is particularly surprising that steam-exploded biomass, e.g.

when it is granulated as described above, when pelletizing premixes functions in such a way that it is not necessary to add any binder to the fSr raw material in order to obtain pellets with satisfactory strength properties. This means that when in connection with the pelletisation of steam blasted, natural

material, i.e. fibers or biomass, lignocellulose is used as granulating agent, pellets with completely satisfactory strength properties can be obtained without a binder. In addition, steam-exploded biomass has nutritional value when used as a binder. Lignosulfonates, which were previously used as binders, have no nutritional value.

The steam-exploded, lignocellulosic, natural material or biomass is produced by treating plant material containing lignocellulose, such as hardwood shavings, straw, corn husks or similar natural material, in the manner described above, e.g. as described in US patent documents 4,461,648 and 4,136,206 as well as in Finnish patent document 860,045. After treatment, the product obtained can be filtered, and the filter residue can be dried and granulated. It is advantageous to grind the granular mass and screen it if necessary. The average particle size for the fractions is approx. 0.4 mm or approx. 0.9 mm. Finally, the granulated product is mixed with a pre-raw material mixture, which may be granulated.

The dried, steam-blasted, natural material, e.g. biomass, is a relatively fluffy light material with a bulk density of the order of 0.1 kg/dm<3>. Granulation of the biomass can be carried out by any granulation method known in the field, such as extrusion, with a pelletizing machine with a ring nozzle, or by any other method or apparatus known in the field. The moisture content during granulation is e.g. less than 12% and e.g. more than 12% by weight. It is not necessary in connection with granulation to add any binder to the biomass, in other words the steam-exploded fiber material as such forms pellets and is granulated during the granulation. After the granulation phase, the granules are cooled, whereby the moisture content in the granulated product is e.g. less than 10% by weight. The unit weight of the product is approx. 0.5 kg/dm<3>.

The granulated and advantageously sieved, steam-blasted, natural material, or biomass, is mixed into a normal premix, e.g. 2.5-30% by weight with advantage 5-25% by weight steam-exploded, natural material and 70-97.5% by weight, with advantage 75-95% by weight, other raw material. The mixture is pelletized in a conventional pre-pelletizing device. Pelletization can be carried out using any granulation method and/or apparatus known in the art, such as by extrusion, with a pelletizing machine with a ring nozzle, or by means of any other granulator. As a result, pellets are obtained which are durable and strong without the addition of a binder and which are suitable for storage and use as animal feed.

The feed according to the invention can contain, i.e. that when producing animal feed by the method according to the invention, any feed raw material that is known in connection with granulated feed, e.g. in quantities known in the field, e.g. different types of grain such as wheat, barley, rye, harrow, corn etc., protein such as animal protein, fish protein, plant protein, protein formed by mushroom mycelia etc., carbohydrates, various types of sugar, by-products from the sugar industry, starch etc., fat such as animal fat, vegetable fat and vegetable oils etc, trace elements such as minerals, vitamins etc, enzymes, e.g. natural enzymes and/or added enzymes etc, as well as other fSr raw materials used in the animal feed industry for mixtures or additives to feed. These are known from the above-mentioned references.

The hardness, strength, crushing and/or grinding properties of the lining according to the invention and/or produced according to the invention were largely equivalent in tests to the properties of the comparative, conventional lining.

Due to the invention, steam-exploded natural material, i.e. biomass, can be used in a simple way as raw material using conventional pre-production techniques. The lining according to the invention and produced by the method according to the invention has been shown in lining tests to be just as good as that produced in a conventional way.

The invention will be described in detail in the following with the help of embodiment examples.

Example 1, Steam explosion

Birch shavings with a moisture content of 50% by weight were treated in a Stake Technology steam blasting apparatus at 200°C for approx. 4 minutes. The mass obtained was filtered by pressure filtration and dried, residual moisture content less than 5%. Analytical data from the mass are given in table 1.

The steam-exploded and dried fibers thus obtained are pelletized in an Amandus Kahl plate matrix pelletizer, moisture content e.g. from 10 to 12% by weight, and had a moisture content of less than 10% by weight after drying. The pellets were ground and the ground product was sieved through a Mogensen sieve. The coarse product thus obtained had a particle size of 0.86 mm and the finely divided product an average particle size of 0.42 mm.

Example 2, Production of pre-pellets and feeding trials

A series of cattle and pig fodder with different amounts of biomass in the range 0-30% by weight was prepared for pelletisation and feeding trials. The pre-raw materials were mixed in a conventional ring die pelletizing machine. The material thus obtained was granulated using a conventional coilar type granulator.

Premixes without the fiber component were used as a comparison product, while 0.5% lignosulfonate-based binder ("Serlabondex") was used as binder in the pig forages and 2% in the cattle forages.

The properties of the fSr pellets produced in this way were tested by measuring the hardness, strength, crushing and pneumatic grinding of the pellets.

The composition of the pig feed that was used as base fodder is given in table 2, where column A/B relates to the base fodder to which steam-exploded, lignocellulosic fibers obtained from birch shavings were added, and column PE-TR2 relates to commercial feed containing 0.5% lignosulfonate as binder. Table 3 shows the composition of milk peat used as a base for the tests, column C/D relates to base to which steam-exploded, lignocellulosic fibers were added, and column KM-14S correspondingly relates to containing "Serla Bondex" as binder.

Table 4 shows pelletization tests with pig fodder A, in table 5 pelletization tests with pig fodder B, in table 6 pelletization tests with pig fodder A/B containing 1.5% lignosulfonate and pig fodder PE-TR2, in table 7 pelletization tests with milk peat fodder C containing the coarse birch fiber fraction, table 8 pelletization tests with milk wheat fSr D containing finely divided birch fiber fraction and table 9 pelletization tests with milk wheat fSr KM-14S without birch fiber content.

From the results, it can be observed that the strength of the foam pellets according to the invention and produced by the method according to the invention in all tests was at least as good as the firmness properties when using conventional binders. Furthermore, according to the test results, the fSr pellets obtained with the coarse fiber fraction, i.e. the average particle size of the steam-exploded and granulated natural material 0.86 mm, had less firmness and durability than those obtained with the finely divided fiber fraction, i.e. the average particle size of the steam-exploded and granulated, natural material 0.42 mm.

It turned out in an operational trial that up to 30% of cattle feed could consist of steam-exploded, natural material according to the invention without this causing the feed to become less palatable or the animal's growth rate to be worse.

According to the tests, the fSr according to the invention and produced by the method according to the invention has in every respect the same quality as the fSr containing conventional binder and which was used as a reference.

Claims (8)

1. Pre-raw material containing steam-exploded, lignocellulosic, natural material, characterized in that the pre-raw material is granulated. 2. Pre-raw material in accordance with claim 1, characterized in that the granulated pre-raw material is mostly free of added granulating agent. 3. Process for the production of raw material containing steam-exploded, lignocellulosic, natural material, characterized in that the steam-exploded, natural material is granulated by pressing the natural material through a matrix. 4. Method in accordance with claim 3, characterized in that the granulation is carried out largely without a granulating agent. 5. FSr mixture containing steam-exploded, lignocellulosic, natural material, characterized in that the fSr mixture contains 2.5-30% by weight of granulated, steam-exploded, lignocellulosic, natural material and 70-97.5% by weight conventional fSr raw materials. 6. Premix in accordance with claim 5, characterized in that the fSr mixture contains 5-25% by weight steam-exploded, lignocellulosic, natural material and 75-95% by weight conventional fSr raw materials. 7. FSR mixture in accordance with claim 5 or 6, characterized in that the FSR mixture is mostly without addition of granulating agent. 8. Process for producing a fSr mixture containing steam-exploded, lignocellulosic, natural material, characterized in that the steam-exploded, lignocellulosic, natural material is granulated by pressing it through a matrix, after which it is ground, and that 70- 97.5% by weight conventional raw material, and that the resulting mixture is granulated by pressing it through a matrix.