DD234571A3 - PROCESS FOR THE ENZYMATIC REMOVAL OF LIQUID ORGANIC PRODUCTS - Google Patents

Abstract

The invention relates to the conversion of organic compounds contained in liquid by-products into stable reaction products. It is particularly suitable for sewage and sludge treatment. The aim of the invention is to achieve a high degradation performance and good Entwaesserungseigenschaften. According to the invention, the organic waste products are provided in a first reactor with 0.005 to 0.5%, based on the organic dry substance, of a chelating agent, preferably the diammonium and / or triammonium salt of nitrilotriacetic acid, and mixed for 0.5 to 6 hours. Thereafter, they are introduced in a second reactor with the addition of 0.1 to 1%, based on the organic dry substance, hydrolytic enzymes in a second reactor with a raised by at least 10 K temperature level and stirred there for 0.5 to 10 hours.

Description

Field of application of the invention

The invention relates to the conversion of dissolved or suspended in liquids organic compounds in stable reaction products, in particular in carbon dioxide and water with the addition of enzymes. The inventive method is particularly suitable for the stabilization of sewage sludge and manure and for the treatment of organically polluted wastewater.

Characteristic of the known technical solutions

In practice, organic media such as sewage sludge and manure are successfully treated by anaerobic, aerobic and enzymatic stabilization processes. The enzymatic processes introduced only in recent years allow a significant shortening of the stabilization times of previously several days (5 to 70 days) of the anaerobic and aerobic processes to a few hours, which is, however, paid for with an increased expenditure of energy, since the degradation processes catalyzed by the enzyme preparations in the mud or in the slurry only at higher temperatures (30 to 60 ° C) with success. In addition, a considerable use of foreign enzymes is required. Furthermore, many changes in the microorganisms that proliferate during the initial phase and during the enzymatic stabilization cause many undesired effects, such as impaired thickening and dewatering, so that enzymatically stabilized sludges and liquid manure usually have worse drainage properties than sludge and manure stabilized by the conventional processes ,

The treatment of organically contaminated wastewater is usually carried out according to the known activation process. A major disadvantage of this method is the significant new formation of biomass. This disadvantage can so far only be remedied by extending the ventilation time.

Highly concentrated organic industrial wastewater is usually treated by means of extremely high-burden biological processes ("intensive biology") .This so-called "intensive biological" treatment converts a high percentage (often more than 50%) of the degradable organic matter into biomass, which is regularly removed from the system Excess sludge must be removed, otherwise the efficiency of the process is low. The removal of the excess biomass is always very problematic in the "intensive biological" method, since the microorganisms grow here only as single cells or as very small complexes that hardly settle in the normally sized secondary clarifier.

Object of the invention

The aim of the invention is to achieve a high degradation efficiency with small amounts of foreign enzymes, to improve the drainage properties of the enzymatically stabilized sludge and manure and to minimize the (heat) energy required for the enzymatic stabilization process in such a way that compared to the conventional stabilization processes (Faulung, aerobic stabilization) no disadvantages in terms of drainage behavior and energy expenditure more result.

Furthermore, the production of excess sludge in activated sludge plants should be reduced, in particular the biomass concentrates should be lowered in intensive biological processes and a well settable sludge should be produced.

Explanation of the essence of the invention

The object of the invention is to stimulate the change in the activity of the degradation of the organic ingredients of the effluents effective microorganism populations so that it comes in nutrient-containing environment to material losses of the organisms and thereby the production of biomass is prevented.

The object is achieved erfindur.gsgemäß characterized in that the organic microorganisms containing waste products in a first reactor with 0.005 to 0.5%, based on the organic dry matter, a Cheiatbildners, preferably the diammonium and / or triammonium salt of nitrilotriacetic provided 0.5 to 6 h are mixed and then with 0.1 to 1%, based on the organic dry substance, of hydrolytic enzymes in a second reactor with a raised by at least 10K temperature level of 30 to 60 ⁰ C are introduced and there 0.5 be stirred until 10h.

The feed from the first to the second reactor is preferably carried out intermittently.

In a particular embodiment of the invention, the organic substances in the second reactor are intensively aerated. With sufficient oxygen supply, the necessary temperature level without external energy supply sets.

The following procedure is chosen for the degradation of liquid waste products of low concentration:

The liquid waste products are mixed in a ventilation tank with a microorganism suspension, then the microorganism suspension is concentrated with water separation. Thereafter, the treatment with the chelating agent and the enzymes in the manner described above, wherein a partial degradation of the supplied biomass is effected. The remaining microorganism suspension is returned to the aeration tank.

The mode of action of the method is as follows:

The chelating agent causes a weakening of the structure of the cell walls of the microorganisms, so that they can be dissolved under appropriate stress. In the second reaction stage, an environment which first promotes the change of the fuel, then the autolysis or sporulation of the microorganisms originating from the first reaction stage, is formed. In addition to residues of sludge constituents, it contains, in particular, the low molecular weight compounds (sugars, amino acids, fatty acids, alcohols, etc.) which have arisen from the enzymatic hydrolysis of the macromolecules of the organic waste product and microbially readily metabolizable microorganisms or their already self-autolysed microorganisms or their fragments spores.

When the microorganism population pretreated with the chelating agent is introduced into this medium, a temperature shock occurs as a result of the temperature difference of at least 10K, which spontaneously stimulates the microbial metabolism and respirates the low molecular weight hydrolysis products of the organic by-product and the low molecular weight compounds from the cell digestions become. As a result of the greater promotion of the operating rather than the metabolism of the building material, the microorganisms in the reaction medium are finally affected by loss of material, i. they starve and go into self-dissolution (autolysis stage) or

finally spilled. -

By the released from the autolyzed microorganisms intracellular enzyme systems, an intensification of the hydrolysis of the organic macromolecules is achieved. As a result, significant amounts Fremdenzyme be saved. The microbial respiration, mainly from the enzymatic degradation of the organic macromolecules or the low molecular weight compounds originating from the cell disruptions (especially the hydrophilic colloids) considerably improves the thickening and dewatering behavior of the treated organic medium. At the same time the organic load of the resulting turbidity is greatly reduced, whereby a trouble-free utilization of the turbidity is possible.

embodiments

The invention will be explained below with reference to four exemplary embodiments:

To 15m ³ sewage sludge with a solids content of 4% 30 g of a pre-dissolved in about 101 tap water mixture of the diammonium and triammonium salt of nitrilotriacetic acid are added with stirring. After half an hour, the pretreated sludge is added at intervals of 15 minutes in portions to the reactor, which already contains 55 ° C preheated sludge.

The reaction time in the reactor is 3 hours. Per cubic meter of pretreated sludge will be 60g in approx.

the TOOfachen amount of tap water predissolved complex enzyme preparations containing ß-glucanase, amylases, proteases and lipases, constantly added. The sludge in the reactor is constantly circulated by a pump, and with the supply of external energy (eg steam) the required reaction temperature is obtained.

The stabilized sludge passing through the reactor has good settling properties. In the downstream thickener fall about 60% of the starting sludge as sludge slurry at a residence time of about 2 hours, so that the volume of the stabilized sludge decreases to 40% of the initial volume. The thickened stabilized sludge is now brought to drainage sites or artificially dehydrated, while the sludge is fed to the biological part of the treatment plant for harmless disposal.

10 m ^{3 of} liquid manure with 6% solids are mixed with 45 g of trinitrated salt of nitrilotriacetic acid dissolved in about 151 tap water and, after thorough mixing, stored for 1 to 3 hours. Thereafter, the manure containing the chelating agent is added at intervals of 5 minutes in portions to the stabilizing reactor, in which there is already preheated to 33 ° C manure. The reaction time in the reactor is 8 hours. Per cubic meter of manure containing chelate, 90 g of an enzyme preparation which contains complex β-glucanase, amylases, proteases and lipases and which is complex in about 100 times the amount of tap water are constantly metered in. An intensive aerator circulates the liquid manure in the reactor and supplies it with oxygen. The slurry temperature rises to about 40 ⁰ C and then remains fairly constant.

As indicated in Example 1, the stabilized material (here the manure) is thickened in a thickener and can now be dehydrated on dry sites or artificially. The volume of slurry stabilized in this way decreases by approximately 40 to 50% in comparison to the untreated material in the thickener. The accumulating pulp is to be recycled.

50m ³ organically highly contaminated waste water from a rendering plant with a BOD5 of about 7000mg / l and with a high protein and fat content are mixed with 10g of the triammonium salt of nitrilotriacetic acid in about 5I tap water. After one hour, the chelating agent-containing and organically highly polluted wastewater is added in increments of 20 minutes in portions to the intensive biological precursor, in which preheated wastewater is already at 33 ° C. At a reaction time of 5 hours and the presence of β-glucanase, protease and lipase, the enzymatic hydrolysis and microbial degradation of the main organic load of the wastewater to be treated takes place. 10 g ß-glucanase, protease and lipase, which have been pre-dissolved in 500 times the amount of tap water, are metered in per cubic meter of waste water. The ventilation of the intensive biological precursor is carried out with a high-performance aerator, Since the heat of oxidation formed to maintain the required reaction temperature of 33 ° C is not sufficient, the reaction medium is additionally heated with steam.

The enzymatically-microbially prepurified wastewater is passed to separate the incurred sludge and the other settleable substances through a normal sized secondary clarifier and fed to further treatment of a revitalization stage, where the biodegradation of the BOD ₅ residual load takes place to the desired limit.

100m ³ / h wastewater with a BS3 ₅ of 400 mg / l and a temperature of 18 ⁰ C are aerated in an activated sludge tank for 0.5 h with 100m ³ / h activated sludge. The wastewater ingredients are adsorbed by the mud flakes. In a secondary clarifier, the activated sludge is separated. The activated sludge is then mixed with ² g / m ^{3 of} a mixture of the diammonium and triammonium salt of nitrilotriacetic acid for 0.5 h. Thereafter, the activated sludge is introduced with the addition of 4 g / m ^{3 of} enzyme preparations in a covered aeration tank, which has a temperature of 32 ° C. The activated sludge is returned to the aeration tank after 1 h of aeration time.

Claims (4)

Invention claim: 1. A process for the decomposition of dissolved or suspended in liquids organic substances with the addition of enzyme preparations and complex ions, characterized in that the substances in a first reactor with 0.005 to 0.5%, based on the organic dry matter, provided a Cheiatbildners and then with 0.1 to 1%, based on the organic dry substance, hydrolytic enzymes in a second reactor with a raised by at least 10 K temperature level of 30 to 60 ° C are introduced and stirred there for 0.5 to 10 h. 2. The method according to item 1, characterized in that the organic substances are mixed in the first reactor with a mixture of diammonium and triammonium salt or only the triammonium salt of nitrilotriacetic acid as chelating 0.5 to 6 h. 3. The method according to item 1, characterized in that the organic substances are aerated intensively in the second reactor. 4. The method according to point 1, characterized in that biomass suspended in the first reactor is mixed with the chelating agent and treated in the second reactor under aerobic conditions with enzymes, wherein the suspended biomass is recycled back into the aeration basin.