NO157815B - ACTIVATOR FOR FLUIDIZING HEAVY MOVING MATERIAL IN A CONTAINER. - Google Patents

Description

Method for improving the leachability of sulphite leachate in the production of precursor press pieces and granules.

It is known that sulphite liquor, in particular the calcium lignin sulphonate, can be used as a pressing aid in the production of precursor press pieces and granules.

It has now been shown that the progressive rationalization in the carbon fiber factories and the increasingly common use of automatic, e.g. punch card-controlled plants, has made it necessary that the press aids must be able to be stored and brought into the mixing process in exactly the same way as is the case with the other precursor components. It has now been shown that the storage of the sulphite liquor in storage containers encounters difficulties as, due to its hygroscopicity, the sulphite liquor is prone to lump formation and crust formation. This property also makes it difficult to supply it to the mixer via automatically controlled silo cells and dosing scales. This causes sticking and clogging of the supply channels and the equipment.

Consequently, that was the basis of the task

for the present invention to find a way to improve the leachability of sulphite leachate, respectively to prevent lump formation or crust formation in the supply channels and the apparatus.

From Norwegian patent no. 87 605 is there

known to increase the spreadability of a dust binding agent in the form of powdered sulphite tailings by adding mineral substances such as clay, finely ground slate, finely ground limestone or another stone flour. Most such rock meal will be harmful in an animal feed and they

(157815)

will not produce durable pressed pieces as the stone flour will not absorb humidity. When using swellable clay, the humidity will make the clay slippery and the pressed pieces will fall to pieces due to swelling.

According to the present invention, non-swellable clay is used as a pressing aid, which can absorb an excess of humidity without becoming slippery and without blowing the pressed pieces to pieces.

In the present method, the leachability of sulphite lye is improved for the production of pre-material pressed pieces and granules where mineral matter is added to the dried sulphite lye, which serves as a pressing aid, by adding non-swellable clay as such.

Non-swellable clay is understood in the first place

range of Bolus alba, kaolins, synthetic potassium aluminum silicates, illite and the like. As sulphite leachate, lignin sulphonates come from the alkaline earth metals, the alkali metals

including ammonium into consideration, insofar as they are unthinkable from a nutritional physiological point of view. Of particular importance for economic reasons is calcium or magnesium lignin sulphonate, or mixtures of these.

As is known, the pressing aid is added in an amount of a maximum of 3 percent of the precursor mixture. The content of the additive to the lignin sulphonate is between 3 and 30, preferably 5-15 per cent, calculated on the sulphite liquor. Surprisingly enough, it has been shown that the addition of non-swellable clay can be made more precisely with reference to the design examples below.

Example 1.

A culture of Bacillus bulgaricus and Streptococcus thermophilus was grown in a known manner in a water bath at 42° C. for 2 to 5 hours on skimmed milk. At this point the cultivation was interrupted and the culture cooled down to 15° C, after which it was shower dried at 60-65° C. When checked, it turned out that the bacteria in the thus produced dry powder were alive and viable.

Example 2.

40 g of the dry powder prepared according to example 1 was mixed carefully

with 1 kg of a commercial starter feed for chickens (S.L.R.).

The preparation thus prepared was tested with regard to feeding effect on 24-hour-old chickens with an average weight of 38.5 g. The animals were kept under favorable conditions in electrically heated and lighted brooders and divided into two experimental groups A and B, each comprising 50 animals.

Experimental group 1 was fed with plain

basic reason.

Experimental group II was fed with the above-mentioned mixture (S.L.R.), containing 4% of the dry powder prepared as in example 1. Both groups were additionally fed with free access to grain. F6rtilgan gene was checked in three different intervals as indicated in the table below.

The body weight of chickens at different times;

The body weight of chickens at different times is shown in the table below.

in

As. it can be seen from the above tables that after 62 days only insignificant variations in slaughter weight are found between the groups. The advance in average numbers per g consumption and per day was, however, different in the two groups. It was 2.60 g for group I and only 2.32 g for group II.

The addition of dry powder therefore results in a better utilization of the feed. Every chicken

points appear in the table below.

who received the dry powder additive according to the present invention consumed an average of 2.202 kg compared to 2.412 kg in the control group.

Example 3.

Since it was considered important to test the effect of the dry powder addition on chickens that have been fed under less favorable conditions than the previous experiment, the following experiment was carried out in a cold, dark barn with an earthen floor.

30 chickens were divided into two experimental groups A and B of 15 animals each. Experimental group A was fed with the same starting feed as in the previous experiment, and experimental group B with the same starting feed plus 4% dry powder prepared according to example 1 (S.L.R.). The results appear in the table below.

the leachability of the sulphite liquor to a high degree, without affecting the hygroscopicity of the sulphite liquor.

The improvement in the leachability of a sulphite liquor which is obtained according to the invention is otherwise not affected by the fact that it later absorbs water to the degree of saturation, with a calcium lignin sulphonate for example up to 10 per cent. This has the advantage that the storage of the sulphite liquor does not have to take place under special conditions, as the exclusion of moisture.

A further advantage of the addition of the non-swellable clay lies in the fact that the binding capacity of the sulphite liquor is maintained to its full extent. Despite the quantity- and weight-wise reduction of the sulphite liquor component by the addition of the non-swellable clay, an improved binding capacity occurs with many precursor mixtures, whereby a reduced rubbing from the press pieces as well as an increase in their degree of hardness is obtained. In addition to this, the press capacity can also be increased.

Example 1. 6 parts by weight of Bolus alba were mixed with 100 parts by weight of dried calcium lignin sulphonate. The flowability was examined as follows: 600 g of the powder to be tested was poured into a funnel with a 45° inclination and an outlet opening of 25 mm. Without addition of Bolus alba the calcium lignin sulphonate did not trickle through, while the expiration time with the addition of Bolus alba amounted to 46 seconds.

Example 2. 14 parts by weight of Bolus alba were mixed with 100 parts by weight of calcium lignin sulphonate. The run-out time was 32 seconds.

Claims (3)

1. Method for improving the flowability of sulphite leachate for the production of precursor press pieces and granules, where the dried sulphite leachate serving as a pressing aid is added to fine-grained mineral matter, characterized in that non-swellable clay is added as such. 2. Method according to claim 1, characterized in that Bolus alba is used as non-swellable clay. 3. Method according to claim 1 or 2, characterized in that a content of non-swellable clay is used in the pressing aid of 3-30, preferably 5-15 percent, calculated on the dried sulphite liquor.