RU2077572C1 - Method of isolation and concentration of microbial protein mass and floatation apparatus for implementation of method - Google Patents

Abstract

FIELD: production of feed concentrates. SUBSTANCE: suspension is isolated from anaerobically fermented organic waste and saturated with air or gas with volume greater than half suspension volume. Two-step floatation is performed with pulverization of suspension in the first step and its aeration in the second step to form foam containing microbial protein mass and liquid enriched with heavy metal salts, which is removed. Apparatus is provided with, disposed on worm winds and under worm lower end, receivers with fittings and hydraulic gates to remove liquid from upper collar flowing from worm winds. One of ejection aerators is installed on fitting for introducing suspension into apparatus. EFFECT: improved procedure and design of apparatus. 6 cl, 4 dwg

Description

 The invention relates to agriculture and utilities, and is primarily intended for use in the preparation of a protein-vitamin feed concentrate containing mainly microbial protein mass extracted and concentrated from anaerobically discharged manure, litter and similar waste water from livestock and poultry farms and settlements with a high content of dissolved in them salts of heavy metals.

There is a method of isolating with thickening of microbial biomass of fodder yeast by two-stage flotation, according to which, before the second stage of flotation, the foam product is diluted with a solution of liquid glass at a temperature of 50 ^o -60 ^o C, while achieving only a 6.5-fold degree of thickening (ed. N 783340, CL C 12 N 1/02 1978).

 The known method cannot be rationally used to isolate and concentrate the microbial protein mass from anaerobically fermented manure and wastewater, because it does not provide the degree of condensation necessary for efficient drying with the least energy consumption, and the liquid glass solution used must then be removed from product.

The closest in its technical essence and the achieved result to the claimed one is a two-stage flotation method for the isolation and concentration of yeast microorganisms from a foamy yeast suspension containing up to 50% gas. according to which, at the second stage of flotation, flue gases with a temperature of 300 ^o -500 ^o C are introduced into the floated mass at a flow rate of 3-5 volumes greater than the volume of the floated mass. (author's certificate. USSR N 1674560, class C 12 N 1/02 1988).

 However, this method does not provide, when foaming the floatable suspension, the separation of heavy metal salts dissolved therein, flowing from the dried foam back into the flotation chamber, thereby saturating the floated substrate with heavy metal salts.

 The problem to which this invention is directed, is to increase the efficiency and concentration of microbial protein mass from anaerobically fermented manure and droppings. The technical result according to this invention is to ensure that the flotation method of obtaining higher quality with the lowest content of salts of heavy metals and the most concentrated protein mass from anaerobically fermented organic waste.

 The essence of the invention lies in the fact that in the method of isolation and concentration of microbial protein mass from anaerobically fermented manure, litter wastewater, including two-stage flotation with the spraying of the floated suspension at the first stage and with its aeration at the second stage, from anaerobically fermented wastewater by centrifugation or a similar method a liquid suspension phase is isolated, which, before the first flotation step, is saturated with air or gas in a volume of more than 50% of the volume of the suspension, sprayed and then the bulk mass is concentrated with the simultaneous release of heavy metal salts from it, in addition, the foam containing microbial protein mass formed simultaneously in both stages of flotation is removed under vacuum, the method is carried out in two or more steps to the desired concentration of the suspension, which subsequently provides it effective drying.

Distinctive features of this invention give the following technical result:
1. Saturation with air or gas of the liquid phase before flotation in a volume of more than 50% of the volume of the liquid phase, with its further atomization provides a more complete separation of the microbial mass from the liquid medium.

 2. The concentration of protein mass with the simultaneous release of salts of heavy metals from it can significantly reduce the content of salts of heavy metals in the product.

 3. The simultaneous withdrawal of the foam formed during the two-stage flotation under vacuum gives a more complete concentration of the microbial mass and reduces its moisture content.

 4. The process in several stages allows you to achieve the desired concentration of the suspension, to ensure its effective drying.

 The method is as follows.

 The initial product, mainly consisting of anaerobically fermented organic waste (manure. Litter, etc.) is separated, for example, by centrifugation into solid and liquid phases, the last of which is saturated with air in a volume of more than 50 volumes of the liquid phase, sprayed and then concentrated with the release of salt solutions heavy metals, and the separated concentrate is removed under vacuum, while part of the sprayed liquid phase from the second stage of flotation is also saturated with air or gas to separate the protein concentrate in the form of foam and release from it salts of heavy metals. simultaneously with the foam of the first stage of flotation. As a result of the implementation of the method in the resulting microbial biomass, concentrated in the form of foam and then precipitated into a liquid of lower humidity, the content of heavy metals in a single flotation decreases by 25-30% or more and by 45-55% after the second stage compared to their content in initial suspension.

 The liquid phase of anaerobically fermented organic waste entering the flotation (manure, litter. Straw, tops and stems of various plants, rotten and damaged fruits, etc.) thickens with single-stage floatation 3-4 times to bring the amount of dry matter in the concentrate to 10 -10.5%, and after the second stage of flotation, the amount of dry matter in concentrated microbial biomass reaches 18-19.5%, which significantly reduces the energy consumption for its subsequent drying.

 To implement this method, a flotation apparatus is proposed.

 A device for foam flotation is known, according to which the recirculated portion of the floated aqueous mineral pulp is further aerated, while the fresh suspension entering the flotation is introduced into the flotator without any treatment. At the same time, the device is designed so that only a pressure-free air duct is integrated into the line of the recirculation-floated water mineral pulp, air from which foams the non-poplable fraction of the pulp and through the drain threshold at the top of the flotator, both foam compositions are removed from the independently pop-up and air-propelled non-pop-up fractions from the flotator (US patent B 4472271, CL B 03 D 1/14, 1984). This device cannot be used to isolate and concentrate the microbial protein mass from anaerobically fermented manure and droppings, i.e. when it is used, it is not only possible to separate dissolved salts of heavy metals from the foam, but also mineral inclusions that are present in the drains.

 A known apparatus for isolating and concentrating microorganisms from a culture fluid is provided in the upper part with a shell with screw turns fixed inside it, along which the microbial mass discharged in the form of foam and concentrated at the same time is supplied to a defoamer placed on top of the shell (ed. USSR USSR N 644826, CL C 12 N 1/10 1975). This device is the closest to the claimed achieved results and technical implementation. However, the disadvantage of the known apparatus is the lack of any devices for draining the screw flowing from the turns of the screw formed during concentrated drying of the foam of the liquid containing dissolved salts of heavy metals, and the lack of means for aerating the culture fluid (suspension) introduced into the apparatus and effective suction and deposition foam.

 The problem to which this invention is directed to the implementation of the above method is to increase the efficiency of isolation and concentration of microbial protein mass from anaerobically digested manure and droppings, and to reduce the content of heavy metal salts in the product.

 The technical result of this invention provides an increase in the degree of separation of solutions of salts of heavy metals and an increase in the concentration of microbial protein mass.

 The essence of the invention lies in the fact that in a flotation apparatus for implementing the aforementioned method, which includes a nozzle for supplying and spraying the suspension, an upper shell with screw turns fixed in it, an antifoam and ejection aerators on the lower shell, an ejection aerator is installed on the suspension inlet nozzle into the apparatus, and on the turns of the screw and under its lower end there are receivers of liquid flowing down from the turns of the screw of the screw, equipped with nozzles with hydraulic locks for draining the liquid from the upper shell of the apparatus, while at the side of the shell, in relation to the direction and in the continuation of the auger turn, a foam outlet pipe is installed, under which a defoamer communicating with the cavity of the pipe is made, in addition, an antifoam is made of an ejector with a cyclone, over which a trap of foam residues with a drainage tube connected to the liquid drain pipe is installed from cyclone.

Distinctive features and advantages of this unit are as follows:
1. Installing a suspension inlet on the nozzle to the ejection aerator allows to saturate the liquid with air at the first stage of flotation, which leads to an increase in the microbial mass in the foam and its more complete subsequent concentration.

 2. Installation on the turns of the screw under its lower end of the receivers of the liquid flowing from the turns of the screw of the screw, equipped with nozzles with hydraulic locks for draining the liquid from the upper shell of the apparatus, allows you to remove heavy metal salts from the apparatus without draining them into the lower shell and re-flotation.

 3. Installing a foam discharge pipe under which a defoamer is installed on top of the shell, with respect to the direction and continuation of the screw auger, leads to the withdrawal of concentrate with less resistance, which in turn leads to a reduction in energy consumption during transportation of the concentrate.

 4. The implementation of an antifoam from the ejector with a cyclone, over which a trap of foam residues is installed with a drain pipe connected to a pipe for removing liquid from the cyclone, makes it possible to reduce energy consumption and more fully form a liquid from the foam (that is, remove air from the foam). The installation of a sealant for the residual foam allows you to more fully drain the exhaust air, and introduce the liquid into the concentrate.

 In FIG. 1 is a schematic sectional view showing a flotation apparatus for isolating and concentrating microbial protein mass from the liquid phase (suspension) of anaerobically digested effluents, made according to the invention; in FIG. 2, section AA in FIG. one; in FIG. 3 and 4, sections BB and BB in FIG. one.

The housing of the flotation apparatus has two shells:
lower shell 1, in which an ejection aerator 2 is mounted, communicating through a pump 3 with a recirculation fluid nozzle 4, an emptying nozzle 5, a water trap 6 for outputting the clarified substrate 6, and a substrate inlet nozzle with an annular perforated atomizer 7, from the outside of which the ejection aerator 8 is mounted ;
the upper shell 9 with the screw 10 fixed inside, on the turns of which receivers 11 of the flowing liquid are made with hydraulic locks 12 attached to them. On the top, the shell 9 has a foam nozzle 13, along which the defoamer, is made, under which the defoamer is made, under which the ejector 14, the cyclone 15 and the trap 16 of the remaining foam having a drainage tube 17 connected to the pipe 18 of the discharge of liquid concentrate from cyclone 15.

 The implementation of the method in a flotation apparatus is as follows.

 Anaerobically fermented manure, manure and similar effluents by centrifugation, separation, filtration, passage through a hydrocyclone, etc., are divided into solid and liquid (suspension) phases, the last of which contains the largest amount of microbial protein mass in combination with dissolved in it salts of heavy metals. The suspension isolated from anaerobically fermented wastewater is pumped to the flotation pump, where it is saturated with air or gas in a volume of more than 50% of the volume of the suspension before entering the flotation apparatus (Fig. 1). Aeration of the suspension is carried out in an ejection aerator 8 installed on the inlet pipe with the annular nozzle 7. The foam leaving the pressure from the annular perforated nozzle in the form of an upward directed torch, with partially foamed jets of liquid, partially exfoliates above the atomizer, the liquid flows down into the shell 1, and more light foam is then sucked into the upper shell 9 and rises upward along its auger 10.

 The liquid that got into the lower shell 1 from the jets is then aerated in the ejection aerator 2, where it is pumped from the pipe 4 of the recirculated liquid by the pump 3. The foam formed from the liquid recirculated in the lower shell 1 also enters the upper shell 9 and, together with the foam from the atomizer 7, rises upward through the turns of the screw 10 into the foam branch pipe 13.

 When the foam rises along the turns of the screw 10, it is partially drained (concentrated), and the liquid that flows into it, containing the salts of heavy metals dissolved in it, is collected on the turns of the screw and under its lower end into receivers 11 equipped with hydraulic locks 12, through which from flotation apparatus.

 The clarified recirculated suspension is withdrawn from the lower shell 1 through a water trap 6.

 The foam raised along the turns of the screw 10 is removed from the shell 9 under vacuum through the pipe 13 into an antifoam consisting of an ejector 14, a cyclone 15 and a trap 16 of the foam residues. In cyclone 15, the foam is precipitated, and the air with its residues is discharged to the trap 16, where the remaining foam is deposited in the liquid, which is poured through the drain pipe 17 into the pipe 18 for draining the liquid (concentrate) leaving the cyclone 15.

 The second stage of the method is carried out by one flotation apparatus repeatedly using an intermediate storage tank of the concentrate of the first flotation stage or two sequentially operating flotation apparatuses. The subsequent stages of condensation of the biomass concentrate are similarly carried out to ensure its most effective drying.

 The removal from the floated suspension according to the invention of a liquid with heavy metal salts dissolved in it, used as a liquid fertilizer, improves the quality of the finished product, which is in a paste-like or dried loose state a protein-vitamin supplement to animal and poultry feeds.

Claims (1)

1 1. A method for isolating and concentrating microbial protein mass, which involves two-stage flotation with spraying the culture fluid in the first stage and aeration in the second, the formation of a foam containing microbial protein mass and a liquid enriched with heavy metal salts, quenching of the foam and isolation of microbial protein concentrate, characterized in that anaerobically fermented organic waste is used as the culture fluid, from which a suspension is isolated before flotation, the last before the first stage of flotation is saturated with air or gas in a volume of more than 50% of the volume of the suspension, and after the formation of the foam, the liquid enriched in salts of heavy metals is removed. 2 2. The method according to claim 1, characterized in that the foam after its formation is removed into the defoamer under discharge 2 3. The method according to claim 1 or 2, characterized in that the process is carried out repeatedly to the desired concentration of microbial protein concentrate. 2 4. A flotation apparatus for isolating and concentrating the microbial protein mass, containing a nozzle for input and spray suspension, the upper shell with screw coils fixed in it, antifoam and ejection aerators, characterized in that it is equipped with receivers placed on the screw coils and under its lower end with nozzles and water traps for draining liquid from the upper shell that flows from the screw coils, and one of the ejection aerators is installed on the nozzle for introducing the suspension into the apparatus.2 5. The apparatus according to claim 4, characterized in that it is equipped with a nozzle mounted at the top of the shell in the direction and throughout the end of the upper turn of the screw m for the removal of foam, while the antifoam is installed under the nozzle and communicates with its cavity.2 6. The apparatus according to claim 4 or 5, characterized in that it is equipped with a trap for foam residues with a drain pipe connected to the nozzle for discharging liquid from the cyclone, and the trap the remaining foam is installed above the defoamer, made in the form of an ejector with a cyclone.

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