RU2343712C2 - Method of obtaining fodder product from slimy precipitates of sewage water treatment plants - Google Patents

Abstract

FIELD: agricultural industry.

SUBSTANCE: method consists in using biological sludge as the main fodder product component whereto added and mixed therewith are auxiliary components. Biological sludge is subject to separation or natural fermentation during 0.5-6 months; after auxiliary components have been added and mixed, mixture is homogenised or reduced to fragments; sea water or salt solution is added to the mixture in the ratio of dry mixture to sea water or salt solution 1:2-3, and then mixture is heat-treated at temperature of 98-105°C for not less than 30 minutes; at that auxiliary components are chosen from the following group: powdered fish, powdered alga and fodder yeast, which are added to biological sludge at the following ratio, wt %: biological sludge - 50.0-70.0, auxiliary components - 50.0-30.0.

EFFECT: improving growth of young non-pigmented and pigmented trepang fish.

2 cl, 1 tbl, 1 ex

Description

The invention relates to the field of processing silty sediments, including sewage treatment plants, to ensure their disposal and obtain a feed product for the needs of mariculture, in particular for breeding holothurians.

In connection with the increase in demand for such seafood as sea cucumber, sea urchin, crab, and a sharp decrease in their commercial stocks, there was a need for commercial cultivation of these species and replenishment of natural populations due to artificial reproduction. The main problem of the reproduction of any animal species is the availability of an effective feed base. Currently, fodder is not produced commercially in our country for holothurians due to the lack of reproducible manufacturing technology. The lack of complete fodder, allowing to maintain a high growth rate of juvenile sea cucumber and to obtain marketable products in a shorter time, is a limiting factor in the artificial breeding of sea cucumber and other mariculture objects.

A known method of growing trepang larvae to the sedimentation stage by keeping them in sea water and feeding, which is carried out with a feed containing dissolved organic matter, live heterotrophic bacteria and food yeast (AS SU No. 789073, IPC A01K 61/00, 1979).

The components of this feed are introduced separately, which complicates the feeding process; all components, being alive, require stabilization of water temperature and round-the-clock lighting. The process of preparing the components of the feed is energy-intensive, expensive and capricious, in addition, the drawback of the feed is its use only until the stage of receipt of the settled juveniles, at the further stages of breeding it is unsuitable and is not technologically advanced for large-scale reproduction of trepang.

The closest in technical essence to the claimed method is a method of obtaining fish feed, which is obtained by mixing the ingredients of plant and animal origin and biomass of microorganisms, which are used activated sludge digesters obtained by cleaning fish hatcheries from the remains of unused feed, in the amount of 1-2 % of the total mass of feed (a.s. SU No. 1353376, IPC A01K 61/00, 11.23.87).

The disadvantages of this feed are the following: activated sludge is used only obtained from the cleaning of hatcheries from the remains of unused feed, which significantly limits the possibility of large-scale production; for anaerobic digestion, a thermophilic methanogenic association of microorganisms is used, which must be selected for a long time, which is also a limiting factor in production; 1-2% of activated sludge is added to the recipe, which indicates the use of sludge as an additional, but not the main component and does not significantly reduce the cost.

Holothuria by type of food are collecting detritophage-soil-eater. Detritus is dead particles of organic origin and organic matter adsorbed on the surface of mineral suspensions, and is in a single complex with saprophytic microorganisms inhabiting it. It has been established that saprophytes in the composition of bottom sludge are the main source of nutrients for the body of trepang.

A large number of saprophytes contains activated sludge generated and used in sewage treatment plants during biological or combined wastewater treatment, and is a part of aeration tanks, as a main component, its use in the manufacturing technology of feed products will create the feed necessary for the reproduction of valuable marine invertebrates ( trepang, sea urchins, crab, etc.).

The purpose of the invention is the creation of cheap physiologically complete feeds, including for the young of different age, holothurians, based on bacterial wastewater treatment plants.

The goal is achieved by the fact that for the manufacture of feed, activated sludge from sewage treatment plants that have been separated or naturally fermented for 0.5-6 months in the silt fields of sewage treatment plants, with the addition of additional components (fish and algae flour, fodder yeast, is used as the main raw material) ), with a ratio of wt.%, activated sludge: additional components equal to 50.0-70.0: 50.0-30.0, stirring, homogenizing or grinding to particle sizes from 1 μm to 5 mm, adding sea water or saline solution in accordance wearing dry weight: sea water or saline equal to 1: 2-3, heat treatment at a temperature of 98-105 ° C for at least 30 minutes.

The novelty and originality of the method is as follows.

The method we are implementing for the recycling of wastewater treatment plants operating according to the scheme of biological or combined wastewater treatment, using activated sludge as the main cleaning component of saprophytic microorganisms, allows us to obtain a “microbial biomass” for use as a full-dose and / or additional source of food nutrients, in particular, the Far Eastern echinoderms and as an intermediate product and the main component for the manufacture of feed products for some groups of farm animals.

The technological scheme for producing "microbial biomass" as a final product or semi-finished product includes the following technological steps: collecting activated sludge in open tanks, separation, concentration of microbial biomass by removing excess moisture or natural fermentation, during which an accumulation of low molecular weight polypeptide proteins that are easily digestible the body of the animal by the decomposition of saprophytic microorganisms under the action of its own microbial enzymes, ultraviolet marketing rays and other factors, and partial dehydration. Fermentation takes place in specially dug pits in natural conditions, without involving additional labor and material costs. The duration of the process will depend on the volume of the pit, the temperature regime of the environment, the degree of production of activated sludge and other various factors, the final condition is to bring activated sludge to the desired condition.

The next step is to obtain the feed product as the final product of the treatment plant waste treatment involves adding additional components according to the mixture recipe in the ratio of the main component and additional, wt.%:

Active sludge 50.0-70.0 Additional component 50.00-30.00

When using feed products containing less than 50 wt.% Activated sludge, the desired physiological effect on the growth of echinoderms does not occur, when using more than 70 wt.%, Growth also slows down.

Mixing, for uniform distribution of the components of the mixture, grinding or homogenization to particle sizes from 1 μm to 5 mm, which is associated with the physiological characteristics of holothurians, with a size of less than 1 μm, the feed product forms a colloid, and with a particle size of more than 5 mm is not available in size for feeding larvae and juveniles.

Adding to the milled or homogenized semifinished seawater or saline (salinity 25-33 _^0/00) in a ratio of dry mixture: sea water / brine 1: 2-3 allows a brew and stimulates feed intake.

The next step is heat treatment followed by cooling in vivo. Heat treatment of the feed product occurs by cooking with constant stirring at a boiling point equal to 98-105 ° C for at least 30 minutes, during which partial removal of water from the product occurs, inactivation of microbial enzymes, disinfection, and a number of other physicochemical and biological changes, which entails the stabilization of product quality indicators during storage, ease of use, safety, etc. The duration of the cooking process of the feed product less than 30 minutes leads to incomplete heating, which does not guarantee stability during storage.

If necessary, long-term storage of the obtained feed product is carried out by freezing, which provides an increase in shelf life, stable quality and makes it possible to longer and longer transport the resulting product.

Example 1. We take 100 kg of activated sludge, pour it into a hole dug for this and leave it for 3 months for fermentation in natural weather conditions. At the end of the fermentation, we take 24 kg of sludge, mix with 10 kg of fish meal, 5 kg of algal flour and 2 kg of fodder yeast, mix thoroughly and homogenize to a particle size of 5 microns, add 82 kg of seawater and cook for 30 minutes from the moment of boiling, with constant stirring. Next, the feed product was cooled and packaged.

The results of feeding the young trepang with the developed feed are presented in table 1, from which it follows that the use of a feed product based on activated sludge allows more than 3 times increase the growth of unpigmented young trepang and more than 2 times - pigmented. In addition, it was found that the feed had a positive effect on the larvae survival, which was expressed in the fact that when juvenile sea cucumber was reared in production pools for 4 months, at the same initial density, the survival rate of the settled sea cucumber trephine in control pools was 4 times less than with an experienced one, where the feeding took place with the developed feed.

The products are wet mixed feeds, in which the main component is a completely new component of microbial origin, for divorced mariculture objects, which allows them to be bred not only until the settling stage, but also at further stages of development (viable larva, juveniles).

The originality of feed production on the basis of wastewater treatment plants consists in the simplicity of manufacture and does not require specialized expensive equipment. The production technology of feed based on the waste of treatment facilities allows you to create feed that accelerates the growth rate of juvenile trepang, to reduce the cost of the growing process by reducing the cost of feed.

The main raw material (activated sludge) is free of charge, therefore, the cost of producing feed will be the sum of the cost of additionally introduced ingredients, remuneration of workers, depreciation of technological equipment and payment of energy resources.

Claims (2)

1. A method of obtaining a feed product from sludge from sewage treatment plants, comprising using activated sludge as the main component of the feed product, into which additional components are added and mixed, characterized in that the activated sludge is subjected to separation or natural fermentation for 0.5-6 months , after adding additional components and mixing, the mixture is homogenized or crushed, sea water or saline solution is added in the ratio dry mixture: sea water or saline solution, equal to No 1: 2-3, and subjected to heat treatment at a temperature of 98-105 ° C for at least 30 minutes, while the additional components are selected from the group: fish meal, algal flour and fodder yeast. 2. The method according to claim 1, characterized in that the components are added to the activated sludge in a ratio, wt.%:
activated sludge 50.0-70.0 additional components 50.0-30.0