DE2655614A1 - METHODS FOR WASTE WATER PURIFICATION - Google Patents

Description

PATENT LAWYERS

/ fetzS & örner <L

D-1 BERLIN-DAHLEM 33 PODBIELSKIALLEE

-6 ♦

D-8 MUNICH 22 WIDENMAYERSTRASSE 49

BATTELLE MEMORIAL INSTITUTE

BERLIN: DIPL.-ING. R. MÜLLER-BORNER

MUNICH: DIPL.-ING. HANS-HEINRICH WEY DIPI ING. EKKEHARD KORNER

Berlin, December 6, 1976

Process for wastewater treatment

(France No. 75 37493 of December 8, 1975)

10 pages of description. 8 claims 1 sheet of drawing

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BERLIN: TELEPHONE (O3O) 8312O88 CABLE: PROPINDUS TELEX O184O57 MUNICH: TELEPHONE (089) 22 55 85
CABLE: PROPINDUS ■ TELEX O5 24-244

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The present invention relates to a method for purifying wastewater containing biodegradable waste.

There are already processes for biological wastewater treatment known to contain biodegradable waste. Examples for these procedures are the so-called. "Verrieselungsverfahren", the so-called "Lagooning procedure" flagunage) and a procedure, that consists in performing a pre-cleaning, followed by a purification followed by treatment on bacterial filters or in aeration basins in the presence of natural microflora.

Several of these processes, such as the lagoon process and the trickling process not only allow to reduce the pollution of organic pollutants in the treated waters, but also to reduce this pollution for the enrichment of the soil with humus.

Other biological cleaning processes, such as cleaning on bacterial filters, do not allow an increase in the value of the organic load because they result in their complete biological degradation (except for CO ₂ and H ₃ O).

Certain biological cleaning processes, such as cleaning in aeration basins, result in the generation of a significant amount of activated sludge, which poses the problem of clarifying this sludge. This clarification is generally carried out either by triggering the anaerobic, bacterial digestion of the activated sludge, which brings about the release of mineral loads, which are also a source of pollution, but also the release of methane, which can be recovered, be it through dehydration or incineration of the activated sludge.

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On the other hand, it has been suggested. Protozoa on the activated sludge let it take effect. For example, accordingly a method described in US Pat. No. 3,711,392 evaluated the effect of the protozoa in order to reduce the growth of the pathogenic To restrict bacteria and that of bacteria not useful in the biological purification process. Corresponding Another cleaning process, described in particular in FR-PS 1 425 703, is the object of the action of the protozoa to remove the mass reproductive bacteria from the residual water, which are not deposited in the clarifier.

So far, the complete use of the biomass by microorganisms not known as a nutrient of a protozoal culture such that an amount of increased protozoal biomass in view of the use of the latter as a protein source is generated.

All of the aforementioned methods of wastewater treatment therefore lead to an at least partial loss of solar energy accumulated in the polluting organic loads.

The object of the present invention is to enable an increase in the value of the organic waste in the form of proteins, which can be used with regard to animal or human nutrition, with the production of activated sludge is avoided.

To solve this problem, a method is proposed according to the invention, in which a culture of microorganisms is grown which can multiply in the presence of this waste water and are suitable by using these waters as a culture agent and by maintaining the growth of these microorganisms in an exponential phase, entirely by protozoa

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to be absorbed, leaving a biomass of microorganisms is created; in which this biomass is used completely as a nutrient medium for a protozoal culture, so that a protozoal biomass is formed; and by separating the latter from the purified water.

This microorganism culture is preferably selected from aerobic bacterial cultures and yeast cultures.

For example, a culture can be used as an aerobic bacterial culture use one of the strains of the following bacteria: Pseudomonas sp and Brevibacterium sp or a mixed culture of aerobes Bacteria.

As a yeast culture you can, for example, yeast mushrooms of the Torula variety use.

As a microorganism culture one can also use mixtures of aerobic Use bacteria and yeasts.

In general, any microorganism culture can be used which is contained in the water to be treated in the presence of Can multiply waste and on the other hand are able to be completely absorbed by protozoa.

A culture of at least one stem of hairy protozoa is preferably used as the protozoal culture. The hairy protozoa have the advantage of having a non-rigid outer membrane which is essentially Protean in nature, as will later Extraction operations for these proteins could make unnecessary or at least such operations with a view to the use this would facilitate protozoa for food purposes.

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The method according to the invention can be carried out in various ways be carried out, for example in the form of a cleaning of the so-called "continuous multistage" type or in the form of a cleaning of the so-called "mixed-stationary" type.

Further details, advantages and applications of the invention are shown below with reference to FIG Embodiments explained in detail. Show it

1 shows a block diagram of the continuous "multi-stage" cleaning,

2 shows a block diagram of the "mixed stationary" cleaning.

When carrying out the cleaning according to the scheme shown in Fig. 1, a cleaning reactor 5 (consisting from one or more aeration basins) at the same time and in continuously supplied with wastewater to be cleaned, which comes from a storage tank 1, with liquid mineral agent, which comes from a memory 2 and is intended to determine the content of mineral salts in the bacterial culture medium in the reactor 5 to a reasonable value with a spreading agent the bacterial culture coming from a memory 3, and with an acidic or basic liquid that comes from a memory 4 and is intended to continuously increase the pH of the culture medium in the reactor 5 to keep an optimal value for the growth of the bacteria.

The corresponding flow rates from the memory 1 to 4 Liquids flowing into the reactor 5 are automatically controlled in such a way that the bacterial culture agent optimal concentrations of waste, mineral salts and bak-

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series as well as pH values for the multiplication of bacteria in an exponential manner phase are transferred.

The bacterial biomass obtained in the reactor '5 is in continuous Way with the aqueous medium in which it is dissolved is passed into a reactor 6 to convert this bacterial biomass into protozoa.

The reactor 6 is fed with a propagation medium of the protozoal culture coming from a reservoir 7.

The one obtained by converting the bacterial biomass into protozoa Protozoal biomass in reactor 6 is continuously mixed with the aqueous medium in which it is dissolved in a separator 8, where the separation of the purified water takes place, which is directed into a suitable collector 9 is, and the protozoal biomass, which is directed into a collector Io and then dried at 11.

According to the method of implementation of Fig. 2, purification takes place thanks to the growth in the same medium of a culture of microorganisms chosen from aerobic bacteria and yeasts, this culture being fed at the expense of organic pollution on the waste and a culture of protozoa which is fed by dissolving the bacterial biomass in a reactor 5 ¹ , which in practice can consist of one or more aeration basins.

The reactor 5 ¹ is fed with wastewater to be cleaned, with liquid medium for adjusting the mineral salt content, with expulsion medium for bacterial culture and with liquid medium for adjusting the pH value, which are supplied from stores 1, 2, 3 and 4, respectively with propagation medium for the protozoan culture from a reservoir 7 ¹ .

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In contrast to the embodiment of the method according to FIG. 1, the reactor 5 'is fed with bacterial Culture does not take place continuously, but in a discontinuous manner, so that in the end a protozoal biomass is obtained, that does not contain dissolved bacteria.

The protozoal biomass obtained in the reactor 5 'is with the aqueous medium in which it is dissolved, passed into a separator 8 *, where the separation of the purified water that is in a suitable collector 9 'is passed, and the protozoal biomass takes place, which is passed into a collector 10 'and dried at 11'.

example 1

Purification of wastewater from the type of liquid waste in of the dairy, with a content of 1 g / l lactose and also the following ions in concentrations given in grams containing per liter:

Nitrogen expressed in NH.

K ⁺

Na ^H Mg " ¹ Approx

Fe Mn Cu Cl SO

3+ 2+

0.067

0.01

0.048 0.012 0.005 0.003 0.0005 0.0002 0.225 0.042

and 0.121 grams per liter of P ₂ ° c

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The original load with organic substances of the waste to be treated, measured by its chemical oxygen demand (DC 0), is 1123 mg 0 ₂ / l.

The cleaning takes place in the manner shown in Fig. 1 under the following conditions:

- Liquid mineral medium (storage tank 2): aqueous ammonium chloride solution with a concentration and a volume corresponding to 0.19 g / l in reactor 5 (corresponding to a Nitrogen content of 0.05 g / l and a carbon / nitrogen ratio (C / N) equal to 8 in the bacterial growth medium of the reactor 5).

- Medium of propagation of the bacterial culture (storage 3): Pseudomonas sp strain.

- Production yield of the bacterial biomass in relation to the carbohydratesη: 45% by weight.

- Medium of propagation of the protozoan culture (storage 7): Tetrahymena pyriformis strain.

- Total cleaning yield: 92.8% (based on the chemical oxygen demand -DCO = 80 mg O2 / I - of the water after treatment}.

Yield of protozoa (storage 11): 200 kg dry matter

3 with an original waste water volume of 1,000 m.

This amount of protozoa contains about 100 kg of proteins high nutritional value with the following composition of amino acids in percent by weight:

Leucine: 7.9 Isoleucine: 5.3 Valine _: 4.9 Threonine: 8.5

Methionine: 1.9

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Arginine: 4.8
Histidine: 2.8
Phenylalamin: 4.2
and some amount of lysine, cystine, and tryptophan.

Example 2

Purification of wastewater of the same type as that whose composition was mentioned in Example 1, carrying out the method according to FIG. 2, but with 2 g / l lactose and an original chemical oxygen demand of 2392 0 ~ / 1.

Liquid mineral medium (storage tank 2): Aqueous ammonium chloride solution in concentration and volume corresponding to 0.19 g / l in reactor 5 ¹ (nitrogen content: 0.05 g / l; carbon / nitrogen ratio: 16).

- Medium of propagation of the bacterial culture (store 3): Pseudomonas.sp strain.

Propagation medium of the protozoal culture (storage 7 '): Tetrahymena pyriformis.

- Chemical oxygen demand in the purified water

(Memory 9 ¹ ): 112 mg O _0/1 .

2392 - 112 cleaning yield: χ 100 = 95.3 ° <6.

Protozoa (dry matter) content in the biomass of the protozoa contained in reactor 5 ': 0.14 g / l, i.e. 140 kg with an original volume of 1000 m of waste water. Total yield of conversion of carbohydrates into protozoa:

x 100 - 7.61%.

The present invention is also the by " the method described obtained protozoal biomass and the use of this biomass as a protein source.

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According to the type of protozoan biomass one can do the extraction make the proteins in a manner known per se from the protozoa or the protozoa directly as protein-containing Use substance, especially with regard to animal nutrition.

The procedure described can also be used with a view to preservation a protozoal biomass can be carried out not only by using wastewater as a raw material, but also starting from any suitable liquid medium that has an adequate Contains amount of organic biodegradable substances.

In general, this method can be used as a method of manufacturing view protein-containing substances that are used for nutrition.

Of course, the invention is in no way limited to those described and illustrated embodiments are limited to that only were cited for example. In particular, it includes all Means that represent technical equivalents of the means described and their combinations when carried out in accordance with the spirit and scope of the invention.

Claims

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Claims (8)

Claims (1st method for the purification of wastewater that is biologically contain degradable organic substances, characterized in that one has a culture of Microorganisms that can grow in the presence this wastewater can and is suitable by using this water as a culture medium and by maintaining it the growth of these microorganisms in an exponential phase, completely absorbed by protozoa to become so that a biomass of microorganisms is created; that this biomass can be completely called Culture medium of a protozoal culture used so that a protozoal biomass is formed; and that one of the latter from the purified water separates. 2. The method according to claim 1, characterized in that that the microorganism culture is selected from the cultures of aerobic bacteria and yeast cultures will. 3. The method according to claim 1, characterized in that the microorganism culture from the cultures one of the following bacterial strains is selected: Pseudomonas sp and Brevibacterium sp. 4. The method according to claim 1, characterized in that the microorganism culture is a Yeast culture is of the Torula species. 5. The method according to claim 1, characterized in that the microorganism culture is a Mixture of aerobic bacteria and yeast is. 709824/0798 26556H 6. The method according to claim 1, characterized in that the protozoal culture is a culture
is at least one tribe of hairy protozoa. 7. The method according to claim 6, characterized in that the stem of hairy protozoa is one of the following hairy protozoan strains: Tetrahymena
pyriformis and Colpidium camphilum. 8. Use of the protozoal biomass obtained by the method of claim 1 as a protein source. -27 034 709824/0798