DE4303842A1 - Removal of organic substances from surfaces or water - using coal-based adsorbent - Google Patents

Abstract

Removal of unbound organic substances from surfaces and bodies of water is effected by adsorbing the substances on a coal-based adsorbent (I) and subjecting them to further treatment to degrade or destroy their molecular structure. Pref. (I) is coke, briquette fines, dry coal or brown coal dust. USE/ADVANTAGE - The process may be used, e.g. to clean up oil spills. Adsorbents of type (I) are cheap and non-polluting and have good handling properties.

Description

The invention relates to the removal of unbound organ niche fabrics that are based on natural and artificial solid Surfaces as well as accumulated on water surfaces or have spread or are in water. Areas of application of the invention are environmental protection as well Agriculture and Forestry.

The removal of environmental pollution by organic Substances, especially through tar oil, mineral oil and their derivatives is almost always done by spreading absorbent materials. After the adsorption, the oily material is cleared and mostly by combustion, less often by chemical processes rendered harmless. Here, inorganic adsorbents such as Sand, clay, diatomaceous earth, but more often organic, e.g. B. sawdust, Cellulose, peat.

Organic water that cannot be extracted is left on water surfaces Biodegrading contaminants from microorganisms. Here three methods are used: activation of Multiplication of microorganisms by adding nutrients, Artificial propagation of pollution isolated suitable microorganisms and use of genetically engineered microorganisms (Bioremidiation for Marine Oil Spills, Congress of the United States, Office of Technology Assessment Washington, DC: U.S. Government Printing Office, May 1991). One more way to remove oily layers on water surfaces Use of emulsifiers and asorbents. Good results is achieved when using peat.

Halogenated aromatic hydrocarbons in water can on chitin-like substances (amino polysaccharides) adsorbed (U.S. Patent No. 4,882,066 Nov. 21, 1989).

The adsorbents used have depending on their area of application various disadvantages. Sometimes they are not in  sufficient amount available (sawdust, cellulose, chitin), in some cases there are ecological reasons for wide application counteracts (e.g. peat) and in other cases a secondary occurs Environmental pollution (e.g. chemicals). Some adsorbents are moreover, only specific to a certain environmental impact applicable.

The invention aims to provide a method for the elimination of To develop pollution from adsorption that cheap, available in sufficient quantities and the The environment does not use polluting materials. It should be universally applicable and equally Remove impurities from solid substances such as water can.

Surprisingly, it was found that coal and Coal products as adsorbents for environmental removal impurities can be used. The invention is according to An Proposition 1 realized, the subclaims are preferred variants. The adsorbents can according to the invention from ground Generator coke, activated coke, disposable coke, BHT coke, briquette or Dry coal or preferably consist of lignite fuel dust. The lignite fuel dust falls as a waste product in power plants and is therefore available in larger quantities. The Adsorbents become the plowable soil, the soil landfills or waters, the organic to be mined Contain substances, added. In the case of contaminated soils is then watered.

For further implementation of the absorbed organic substances the adsorbent, if necessary from the outset, Microorganism cultures (e.g. selected from soil and water and artificially propagated mixed bacteria cultures), which suitable for aerobic degradation of the adsorbed organic substances are. It is particularly advantageous if the ad sorbent also adds nutrients, e.g. B. Phospha te, nitrates and growth-promoting organic substances such as yeast extract that is used for the propagation of the microorganism culture  are necessary. This ensures that the biocatalytic Degradation starts immediately after the adsorption of the pollutant. The is particularly advantageous when collecting the pollutant-containing adsorbents is problematic, e.g. B. within water or in loose soil. After admission of organic contaminants becomes the adsorbent separated and subjected to fermentation. This fermentation is preferably done with ventilation. A possibility according to the invention is the separated Bring adsorbent in an aqueous nutrient solution and there ventilate until the organic matter is broken down. After that, the adsorbent with or without adherent Microorganisms possibly used again.

There is a preferred one for cleaning water surfaces Variant of the invention in the adsorbent with the apply adhering microorganisms to water surfaces and then leave to yourself. For oily adsorption Layers from a water surface are dry coal and Lignite fuel dust is particularly suitable. After completion the fermentation, the adsorbent sinks down and is deposited on the bottom of the water.

In the cleaning of plowable soils, adsorption mit or adsorbent / carrier mixture in the soil incorporated and watered. This is done in the same way Incorporation and irrigation into landfills.

Also for keeping rain or others clean The agent according to the invention can be used to drain water use in custody. It is preferably used as a filter insert and after loading by entrained organic substances freed of these in a conventional manner or by fermentation.

Another variant of the invention is that Adsorbents with or without microorganisms in mobile Keep spray containers under propellant gas and use them spray. If the adsorbent does not contain microorganisms set is used, it can be sucked up after Impurities, e.g. B. of solid smooth surfaces such as roads, Floors etc. are included and on conventional ones  Way, e.g. B. be removed by burning.

The found application of ground coal and of Coal products according to the invention are very surprising and were unpredictable because of their high affinity for oily Substances have so far gone unnoticed.

This affinity causes oily layers of solid and Water surfaces can be completely adsorbed very quickly.

The fact that coal and Coal products It is very difficult to absorb water. Even the Original water content can be reduced by the oil adsorption become.

The aim of the invention is with the proposed Mit tel and the specified application variants achieved. Coal is one practically in unlimited quantities and therefore inexpensive to Available fabric. An additional burden on the environment does not occur because coal is a natural product and is inert compared to its surroundings (e.g. after sinking to the bottom of Waters) behaves. Additional advantages are the light hand Availability of the agent, which is also an emergency aid in the event of an accident enables, and its universal applicability for solid mate materials, in water, on water, in filters, etc.

The invention is intended to be explained in more detail below by means of exemplary embodiments are explained.

example 1 Buoyancy on water

This property of the various coal products was based on Tap water examined.

A sample of the respective coal product (approx. One laboratory spoon full) was sprinkled on the calm water surface. When A 500 ml Erlenmeyer flask was used in the test container ml of water was used. The container was placed on the Shake table placed and the surface in light up medium vibration (kind of wave movement) offset.

Two products proved to be particularly good at swimming:  Dry coal and lignite fuel dust.

These two materials also showed after about 2 hours Movement on the shaker table does not decrease significantly, i. H. it was still swimming over 95% of the sample applied. These materials are in contrast to the different ones Types of coke that are more than 50% subsided, very fine-grained. To investigate whether the grain has a decisive influence on buoyancy, the coke was crushed in the laboratory mortar and the investigation repeated. With a calm surface, these showed shredded Rehearse a better buoyancy, but already with less Surface movement and in a relatively short time (15 min.) the material sank almost 100%.

In summary, it can be said that for adsorption oily layers of a dry carbon and water surface Lignite fuel dust is particularly suitable.

Example 2 Adsorption of oily substances from a solid and dry surface

A glass surface was chosen for this experiment.

1 ml of oil was added to this surface and then the coal product until the oil was visibly adsorbed. With a Glass rod, the material was moved to the adsorption capacity to consider.

The adsorption behavior without much movement is with everyone Samples satisfactory to good. Differences are in the required amount and to be recorded in the adsorption capacity.

Almost all products tend to move on the move Glass surface, for streaks. This was partly possible repeated material additions are minimized.

The two showed good to very good adsorption properties Coal products dry coal and lignite fuel dust. It was no streaks were observed, the adsorption was rapid and even. Spraying with water showed a clear one Beading off, a formed only after thorough mixing  Art suspension.

For the adsorption of 1 ml of oil from a dry and clean Glass surface became 2.94 g dry coal or 2.03 g brown coal fuel dust required. The prerequisite for this is a dry, powdery consistency of the products because of the adsorbability depends on the moisture content.

B: Adsorption of oily layers from a water surface

A 1000 ml beaker, which was 600 ml tap water was filled and a diameter of approx. 12 cm, used as a test container.

1 ml of diesel oil was added to the surface. Because the oil was stained, both phases could be seen clearly delimited become.

A visually better method is to easily put one on Capillary. The 2 phases (oil / water) can be seen more clearly. The two coal products dry coal and lignite fuel dust, that proved to be buoyant were sprinkled until the Oil was clearly adsorbed. A control with the capillary showed that an oil phase was no longer recognizable. In this experiment, 2.5 g was used to adsorb 1 ml of oil Dry coal or 1.5 g lignite fuel dust is required. At ru The surface swam 100%. A strong stir and shaking caused about 30-40% of the material to sink. The floating rest drifted apart and showed a large one Affinity for the glass wall. Trying to get it together using a laboratory metal spatula (approx. 1 cm wide) turned out to be difficult. A procedure from several sides resulted in a better result. The floating material was okay just skim off. Trying with filter paper or gauze, driving material apart showed that the coal particles adhered to the fabrics and thus easily from the surface had to be removed.  

Example 3 Immobilization of microorganisms on coal products

The immobilization was carried out as follows:

• - sponge the coal products with a microorganism- suspension
• - Allow to stand for 24 hours at room temperature in the laminar box
• - Filter off the excess liquid
• - Drying the filter cake at 30 C to crumbly Structure.

The coal products were in various proportions Peptone and yeast extract mixed: 0% each, 0.05% each, 0.1% each, each 0.2%. After drying, a germ test was carried out on each sample carried out.

The samples were then covered at room temperature Petri dishes stored in the laboratory.

Another germ test was carried out after 32 days from production were carried out.

In contrast to the first test, the germination rate was and strength less. The first test was like this after 2 days a development can be seen in all samples, and in the second The first activity was recognized after 4 days. The developments in the second test were very different. So there was none at all in some samples and others an almost unchanged compared to the first test. The admixture ratios of 0.05% each proved to be good and 0.1% peptone and yeast extract.

This experiment clearly shows that immobilization and Viability of microorganisms on coal products a period of at least 4 weeks is possible. Are there no expensive storage methods required.  

Example 4 Floor columns

Coal products loaded with microorganisms became superficial incorporated into soil containing pollutants (oil).

The test floor was filled in glass columns, the lower one The opening was closed with a fabric filter. These pillars were irrigated daily, partly with the eluate and partly with Tap water.

The eluate was examined microscopically for the presence of Microorganisms examined. In the daily examinations to see a clear development of microorganisms. Also, over time, there is a development and existence of Noticing protozoa and other unicellular organisms.

Claims (13)

1. A process for the removal and removal of unbound organic substances from surfaces and from water, characterized in that the organic substances are absorbed by carbon-based adsorbents and subjected to a further treatment to degrade or destroy their molecular structure. 2. The method according to claim 1, characterized in that the Adsorbent either from generator coke, activated coke, Disposable coke, BHT coke, briquette, dry coal or brown coal fuel dust or similar substances. 3. The method according to claim 1 and 2, characterized in that the treatment to break down the molecular structure of the adsorbed organic substances by means of fermentation. 4. The method according to claim 1-3, characterized in that the adsorbent microorganism cultures are adsorbed, which are suitable for aerobic degradation of the organic substances present are not. 5. The method according to claim 1-4, characterized in that the adsorbent adsorbs microorganisms and nutrients become. 6. The method according to claim 1-3, characterized in that the Adsorbents are mixed with other solid substances, the nutrients and / or to break down the organic matter contain suitable microorganism cultures. 7. The method according to claim 1-3, characterized in that the adsorbed organic substances in an aqueous nutrient solution suitable for the degradation of the present organic substances Microorganism cultures are aerated until the Adsorp So far from the adhering organic substances  has been exempted with or without adhesive Microorganisms can be reused can. 8. The method according to claim 1-4 or 1-5 or 1-3 and 6, characterized characterized in that the adsorbent from the adherent organic substances has been exempted so far that it is one can be used again. 9. The method according to claim 1-5, characterized in that the Adsorbent applied to water surfaces and aerobic degradation of the adsorbed organic substances by the adhering microorganism cultures is left to itself. 10. The method according to claim 1-5 or 1-3 and 6, characterized characterized in that the adsorbent / carrier mixture plowable soils applied and after picking up the eliminating organic substances in the surface layer of the Soils are worked in and irrigated. 11. The method according to claim 1-5 or 1-3 and 6, characterized records that the adsorbent or the adsorbent / Carrier mixture in landfills, the organic to be degraded Contain substances, is incorporated and the latter is irrigated become. 12. The method according to claim 1-2, 1-4, 1-5 or 1-3 and 6, characterized in that the adsorbent with or without Microorganisms in mobile spray containers under propellant gas stored and sprayed for use. 13. The method according to claim 1-2, 1-4 or 1-5, characterized characterized in that the adsorbent as a filter insert in artificial rain or other water drains as well Groundwater intakes used and after loading with entrained organic substances in a conventional manner or is freed from the latter by fermentation.