DE3821028C1 - Process for treating organic domestic refuse and refuse of similar composition - Google Patents

Abstract

In a two-stage process, initially waste fat and possibly phosphoric acid and/or powder are added to organic domestic refuse and the mixture is allowed to prereact at temperatures of 48@C to 55@C for at least one day. The reaction mass is then transferred to a fermentation vessel and subjected to an anaerobic fermentation at temperatures of 54@C to 57@C. Up to 70% of the organic fraction of the domestic refuse is degraded by this means. The reaction product can be easily dewatered and pressed. The end product to be landfilled which, as a result of its nutrient analysis, can also be used as organic fertiliser, requires only approximately 20% of the volume of the original domestic refuse when landfilling is required.

Description

It is known that garbage, especially household waste and similar waste or similar composite garbage heavy cause major disposal problems. Household waste exists from different fractions, namely about half from an organic fraction and otherwise from one Number of external fractions such as B. from stones and ashes, Glass, metal, plastic, textile and paper. The last called so-called inert fractions are based on ent speaking systems and largely to the Recycled.

Even light commercial waste has about 30% organic Share, similar to the organic fraction of household waste.

The one after sorting out the inert fractions remaining organic part prepares at its ent supply difficulties and high costs. These shares of the garbage must be collected and deposited. The  Landfilling takes place in landfills specially created for this purpose.

Another way of treating organic Waste fraction is incineration. For that there there are garbage incinerators that pick up the garbage and burn with the help of support furnaces.

Another way of disposing of the organic Fraction of household waste consists in the production of humus, d. H. organic humus fertilizer. Here, after another Sorting the fractions inert according to the invention remaining organic fraction of the garbage then that remaining material further crushed and on rents poured to rot there aerobically. It can be different Additives (phytonutrients) are added to the thus produced humus for certain uses judge.  

It is also the anaerobic fermentation of organic material, such as sewage sludge and industrial waste, e.g. B. battle yard waste, known, e.g. B. from DE 34 20 433 A1. A suitable one for this Fermentation container emerges from DE 34 34 057 C2. The anaerobic fermentation of organic household waste but not yet practiced because there have not yet been any suitable procedures by means of which this material is reliable and stable in terms of process the technical equipment are fermented without any problems could.

The invention has for its object a method without great effort for treatment of household waste and similarly composed waste specify.

This object is achieved by the in claim 1 existing invention solved.

Through the anaerobic fermentation of the organic fraction garbage, d. H. through extensive bacterial degradation the same, it succeeds in the volume fraction of the organic Reduce fraction significantly. The reduced material can be easily drained and pressed so that it in the case of a landfill, only a fraction of that landfill takes up the space that is common in today's landfill of untreated household waste is necessary.  

With anaerobic digestion in a closed ferment tation tank, i.e. in the absence of oxygen, the amount of organic is reduced Substance without odor and air pollution, like they are in the form of exhaust gases from waste incineration must be dealt with.

Under the aspect of treating household waste and similarly composed garbage with the help of anaerobic It is inventing to bring fermentation into practice practically Essential addition of waste fat to be carried out in accordance with the invention. Any organic fat is to be understood as "waste fat" which arises where organic fats are processed be processed, for example organic fat from the Food production or use, the fat out Fat separators in commercial kitchens and in salad and sausages manufacturing etc.

The addition of such waste fats is a prerequisite for the fermentation of household waste to be stable. The waste fat forms a supplementary nutrient for the anaerobic bacteria and brings the C / N ratio of this waste / fat-substrate mixture into the optimal relation for anaerobic fermentation, which results in a faster degradation of the substrate mixture. During fermentation, the metabolic product of the bacteria is essentially methane (CH ₄ ), which can be used in the process to generate the necessary fermentation temperatures. The waste grease also ensures that the fermentation methane accumulates in an amount to operate the entire process in an energy-self-sufficient manner, ie to supply the process heat through the combustion of the methane and possibly also to generate the electricity for the peripheral devices. Due to the nitrogen content of the waste fat, the fermentation residue gets a higher-quality nutrient spectrum, so that if it is not dewatered and deposited, it also allows direct use as a liquid fertilizer and thus as a soil conditioner.

The waste grease should be in the household garbage in a lot of up to 20% of the amount of dry matter added be set (claim 2).

The tests carried out have shown that it the mixture of household waste and waste fat is favorable to add phosphoric acid to the anaerobic fermentation for example in the form of 5% acid in an amount of 10 liters per 100 liters of substrate mixture with 15% dry substance.

The phosphoric acid serves as an acidifying agent acidification of the mixture to be fermented and the promotion hydrolysis of the organic components of this mixture and also as a supplementary food for methanerzeu bacteria in the fermentation stage.

Furthermore, it is for an optimal reproduction rate of the bacteria, if the sub Strat mix a heavy metal in pul before the fermentation deformed, for example nickel powder in an amount of about 1 millimole per liter of 15% Troc substrate mixture kensubstanz, including possibly in the household waste existing amounts of nickel is added (claims 4 to 6). In principle, heavy metals also work like Lead, copper, iron and the like that are found in household waste usually exist sufficiently, but is often a Find lack of nickel. Nickel is for the ra cal and optimal generation sequence of the used here  thermophilic anaerobes indispensable.

An important embodiment of the invention is counter state of claim 7.

The process should therefore run as a two-stage process thermophilic and in two separate containers. In the first stage in the preliminary container, the total mixture of household waste comminuted into particles of a volume of the order of magnitude <1 cm ³ , waste fat and other additives is brought to a common degree of hydrolysis in an acidic environment. Here, the acids necessary for the methanation process are formed by bacterial activity and the material is broken down. In the second stage in the fermentation tank, the actual degradation and methanization of the substrate mixture takes place. The purpose of the process separation in two stages is that the reaction overlay of the bacterial activity, namely hydrolysis and methanization, is to be largely prevented. In the first stage in the reservoir are mainly acid generators, ie bacteria that z. B. formic acid, butyric acid, acetic acid, etc. form and contribute to the acidification of the reaction mass. From the acids formed, the methane formers live in the second stage, ie the bacteria that break down the organic fraction to produce water and essentially methane gas.

The acidifiers can be wide in the first stage going to be undisturbed and an optimal material unfold change only under certain milieuver conditions that occur at separate process stages can be better brought about.

It is recommended, according to claim 8, the temperature Hal in the pre-tank in the range from 48 ° C to 55 ° C The acid-forming activity of the bacteria would be given even at lower temperatures, but takes place  otherwise when the substrate mixture passes from the pre container in the fermentation tank a jump in temperature upwards, which is a shock effect for the bacteria indicates and the bacterial activity in fermentation process affected.

The heating of the manufactured in the reservoir or in this introduced substrate mixture to the tem temperature from 48 ° C to 55 ° C should be achieved as quickly as possible gene (claim 9), so that the reaction mass as long as possible the pre-treatment in the pre-tank at the elevated temperature is exposed to the temperature and that for the anaerobic fermenta tion critical temperature range from 42 ° C to 45 ° C quickly is passed through.

According to claim 10, the preferred dwell time takes at least one day in the pre-container, which is indicated in Be costume comes when hydrolyzed waste fat is used becomes. If non-hydrolyzed waste fat, e.g. B. Fresh Fat waste from the slaughterhouse must be used Dwell time in the preliminary container can be extended and at for example, be at least three days.

A continuous inter averaging or continuous mixing of the sub strategic mix. From the transition to the fermentation tank the treatment of the reaction mass should be carefully ver run so as not to disturb the activity of the bacteria ren, d. H. the substrate enriched with bacterial mass Mix must be moved and circulated gently.

A first measure in this sense is the subject of claim 11. So it should not be about the total mass plunged into the fermentation tank, son The additions take place gradually, with the new addition given amount in such a way in the fermentation process realized large amount in the fermentation tank is brought that the fermentation process by the addition  is not disturbed.

From this point of view, the claim 12 should again given limit are met.

The promotion of the substrate mixture from the reservoirs ter in the fermentation tank should not be equipped with a device the shear effects or crushing have effects on the mass and thereby the bil destroy the bacterial flora. Rather, it is preferable an addition in the lower part of the fermentation room by means of a displacement pump or screw conveyor Claim 13, which the substrate mixture in the promotion leave intact.

The addition of the mass from the pre-tank to the Fer mentation container according to claim 14 in batches follow, taking no more than three batches a day with the The aforementioned low filling speed can be added should.

When adding the new batch and also between The batches should contain the contents of the fermentation tank be gently mixed according to claim 15 to the large area distribution of the addition batches in the content of the Fermentation tank and the presentation of new food areas for the Me present in the fermentation tank than bacteria to accomplish. The gentle diam Schung can z. B. by slowly rocking back and forth be made as it is with the fermenter drum DE 34 34 057 C2 takes place.

Between the mixes should however, there are breaks to help the bacteria in Inter vallen to give food in their un indirect environment to consume.

According to claim 16, the preferred thermo phile process temperature in the fermentation tank 54 ° C to 57 ° C.  

The temperatures in the primary tank and in the fermenta tion containers can be the same. Generally speaking however the temperature in the fermentation tank is low gig be higher. The temperature jump that the substrate mixture during the transition from the pre-tank but only slightly, and it becomes after entry in the fermen tation tank immediately to the higher temperature warmed up.

According to claim 17, the content of the fermentation container after fermentation into a secondary container ter are applied, the application made to measure delivery of fermentation mass from the reservoir takes place so that a continuous in the fermentation tank operation instead of constant conditions finds.

The content of the secondary container can be immediately as liquid fertilizer can be used.

In the preferred embodiment however, the contents of the secondary container will sediment calmly.

The sedimented mass can be drawn off, drained, pressed and deposited, the claimed De volume is significantly less than the volume of the untreated organic household waste.

The orga African substance largely, but not 100% be built. After the landfill, the bacterial goes Process with formation of water and methane still in to a small extent. The water formation can be there to lead that the deposited mass tends to pla becoming static, making the landfill body an instabi lity receives what especially in so-called high landfills is feared. To prevent this and the bacteria len, anaerobic process at the end of the carried out Fermen abortation, the addition of firing is recommended  lime (claim 18), the substrate mixture after the Fer mentation in the alkaline range up to about pH = 10 brings what kills the bacteria and thus the subsequent undesirable residual fermentation is excluded is.

A considerable amount of turbidity falls in the secondary container water from which the solid substance sediments. During most of this cloudy water in a clarifier plant is managed and clarified there, part of the ses cloudy water used to the zer in the reservoir humidified smaller garbage and a garbage batch of about Apply 30% dry matter. The cloudy water contains Bacteria that promote overall bacterial activity and accelerate. The residual moisture to the substrate mix to the fermentation consistency of 15 to 20% Troc Bring kensubstanz can by adding z. B. rivers contents of the grease trap with 3 to 5% dry matter be introduced.

Claims (19)

1. Procedure for the treatment of Household garbage and similarly composed garbage, in which the garbage is crushed and sorted and the organic fraction of the garbage mixed with organic waste fat and then anaerobic Fermentation is subjected. 2. The method according to claim 1, characterized in that that the waste fat in an amount up to 20% of the dry amount of household waste is added. 3. The method according to claim 1 or 2, characterized records that the mixture before the anaerobic fermentation Phosphoric acid is added. 4. The method according to any one of claims 1 to 3, characterized characterized that the mixture before the anaerobic ferment tation a heavy metal is added in powder form. 5. The method according to claim 4, characterized in that nickel powder is added to the mixture.   6. The method according to claim 4 or 5, characterized records that the heavy metal powder in an amount of 1 millimole per liter of substrate mixture with 15% dry matter is added. 7. The method according to any one of claims 1 to 6, characterized characterized in that the mixture before the anaerobic ferment tation in a closed container at elevated Let the temperature linger under constant circulation becomes. 8. The method according to claim 7, characterized in that that the temperature is 48 ° C to 55 ° C. 9. The method according to claim 7 or 8, characterized records that the warming to the temperature of 48 ° C up to 55 ° C quickly. 10. The method according to any one of claims 7 to 9, characterized characterized in that the residence time in the reservoir is at least one day. 11. The method according to any one of claims 7 to 10, characterized in that the material from the Vorbe after the dwell time has elapsed slowly in the fermen transfer container and mixed with its contents becomes. 12. The method according to claim 10, characterized in that that the addition amount per minute is not more than 30 l per 10,000 l Contents of the fermentation tank is. 13. The method according to claim 12, characterized in that it is added by means of a displacement pump or a screw conveyor. 14. The method according to claim 13, characterized in that the addition takes place in batches. 15. The method according to any one of claims 11 to 13, characterized in that the content of the fermentation container gently mixed at intervals becomes.   16. The method according to any one of claims 11 to 15, characterized in that the process temperature in Fermen tion container in the range of 54 ° C to 57 ° C is kept constant. 17. The method according to any one of claims 1 to 16, characterized in that the content of the fermentation container in a secondary container, there let sediment will and the sedimented mass is dewatered, pressed and deposited. 18. The method according to claim 17, characterized records that the sedimented mass with quicklime is moved. 19. The method according to claim 17 or 18, characterized in that portions of the cloudy water of the Post-container for moistening household waste in the pre-container be used.