DE3438057A1 - Process for the treatment of biomasses - Google Patents

Abstract

The invention relates to a process for preparing biomasses for their economic utilisation, maintaining conditions such that bacteria develop during the process. This conservation is to be carried out according to the invention in such a way that it proceeds in two phases clearly separated from each other, that is in a first, in which conditions are created that predominantly anaerobic bacteria develop for the generation of CH4 and in a subsequent phase, conditions are created in such a way that predominantly aerobic bacteria develop for generation of compost. Conditions for these are that the first phase proceeds with the exclusion of oxygen and the second phase proceeds with addition of oxygen, that the mass in the first phase is kept, by addition of heat, at a temperature - depending on the type of the mass - of approximately 35 DEG C, that in the first process phase the mass is kept at a water content of approximately 50-70%, and that additions which adjust the pH of the mass to approximately 6-7 are made to the mass and/or the necessary water.

Description

Process for processing biomass

The invention relates to a method for processing Biomass for their economic utilization in compliance with such conditions, that bacteria develop during the process, which during processing participate or implement it.

Such processes are known in the most varied of versions, E.g. to process louse waste, sewage sludge etc. into compost. It is there too common to mix several different wastes of natural products and use them to expose to such conditions that bacteria, which are harmful to the environment, form Extensively destroy or convert components of the starting material and render them harmless do.

These processes are essentially played out in such a way that the different Starting materials mechanically mixed with one another and ventilated in heaps or reactors be, since it was previously believed that the aerobic bacteria in economic Convert the environmentally damaging substances into harmless or usable new substances convert. This creates compost, which is used in particular to improve the soil will.

In DE-AS 25 41 070 eizI two-stage process for processing of biomass or rotting material, in which in the first stage continuously and the second phase is carried out discontinuously.

The object of the invention is to make such processes more economical design, i.e. to carry out the preparation of the starting materials in such a way that each not only an end product but also useful intermediate and / or by-products develop.

The invention achieves this in that it recommends proceeding so that the preparation of the starting materials in two clearly separated Phases expires, namely in a first, in which such conditions are created that only anaerobic bacteria develop to produce CH4 and that In a subsequent second phase, conditions are created so that predominantly aerobic bacteria develop, which those from the first phase already develop convert partially processed mass into compost.

From DE-AS 25 41 090 it is known to use biomass and the like in prepare two clearly separate process stages; also it is Among other things, through this process it is common knowledge that both anaerobic and aerobic bacteria can develop, but exists between this method and that of the invention Identity only through the fact that two procedural stages are carried out.

The obvious difference between the two methods is that that in the known method once continuously and on the other The procedure is discontinuous, whereas the process according to the invention in this one Respect does not impose conditions; are continuous and / or discontinuous thus neither conditions nor subject matter of the invention, the method according to the invention thus does not refer to the mechanical sequence of the process but to the biological, about which nothing further is stated in DE-AS 25 41 090.

Although the known method discloses that in one process stage can be worked anaerobically and aerobically. But this is a natural consequence if air is used as countercurrent in this process stage. The author the Di! -AS, which can certainly be seen as kachnann above-average ability has left the formation of the anaerobic bacteria to chance -depending on how much air at what speed in the counterstrox through the biomass is driven, little or practically no anaerobic bacteria and on the other hand, I did not know what these bacteria are supposed to do, namely that these Generating evaluable gases has evidently escaped him. Thereby arise at the known method first and at least predominantly aerobic and only afterwards and possibly anaerobic bacteria, all in a single process step.

In the method according to the invention, the starting material in the first phase the more easily degradable components are removed or in C11l; converted, which is used, which is not possible with the DE-AS method is.

If you want to achieve that first of all only anaerobic bacteria develop, then the inventive preparation of the starting materials takes place in the first stage of the process with complete exclusion of air and at one temperature of approx. 350C, depending on the type of starting material.

The author of DE-AS 25 1 090 did not recognize that the rotting of biomass or rotting material is not only easier, but much more economical can be achieved if you do not add oxygen in the first stage of the process works because on the one hand no air throughput is required, the additional facilities requires, and on the other hand generates an important by-product for industry and can be used elsewhere, namely methane, even though the Author in an elaborate way concerned with the problem of "anaerobically and / or aerobically.

He had recognized that both types of bacteria can develop, but he did not realize that these bacteria must have an opportunity to separate uritl does not develop mixed with each other. This alone speaks for that There is sufficient inventive step.

The addition of water and e.g. lime or a similar substance is according to a further feature of the invention to achieve the required dosed pH value of about 6 - 7; this p1-1 value can be measured and the addition the individual media or substances are regulated; but it is also possible to do this Control of the temperature of the mass or the amount of methane withdrawn.

duxlg in a solcllcll Z1itt1llnIO11ll1I schiiig iIl ds Vorfal1ron entered that these ingredients in the end products resulting from the process can no longer have any harmful effects on the environment.

Both phases of the process can be carried out in batches, which is preferable but according to a further feature of the invention, one or both of them is continuous to expire. In the case of a continuous process, this can be horizontal or vertical Level, the only condition is compliance with the stipulated Procedure. On the one hand, you need an upright reactor or fermenter less floor space.

The choice between the two options depends on the space available and the type of starting materials.

In both cases, the starting weights are based on one of the characteristics the invention brought to the piece size and / or the degree of moisture that one ensure optimal process flow and optimal yield of end products. This can be done before or during the mixing of several output compounds with one another. If household waste is used, it must be sorted so that it does not rot spatially larger components can be removed.

The input of the starting mass or the mass mixture is done by continuous application to a moving belt or filling into a stationary one Reactor, the fermenter is then in the territories where not 350C normal temperature prevail, brought to this temperature by heating, taking care is, in such a formalization in the proceedings entered that these ingredients in the end products resulting from the process can no longer have any harmful effects on the environment.

Both phases of the process can be carried out in batches, which is preferable but according to a further feature of the invention, one or both of them is continuous to expire. In the case of a continuous process, this can be horizontal or vertical Level, the only condition is compliance with the prescribed Procedure. On the one hand, you need an upright reactor or fermenter less floor space.

The choice between the two options depends on the space available and the type of starting materials.

In both cases, the starting weights are based on one of the characteristics the invention brought to the piece size and / or the degree of moisture that one ensure optimal process flow and optimal yield of end products. This can be done before or during the mixing of several output compounds with one another. If household waste is used, it must be sorted so that it does not rot spatially larger components can be removed.

The input of the starting mass or the mass mixture is done by continuous application to a moving belt or filling into a stationary one Reactor, the fermenter is then in the territories where not 350C normal temperature prevail, brought to this temperature by heating, taking care is, that the temperature required in each case over the predominant course the first phase is retained.

The stated temperature of 350C is only an indication of the size; she can -depending on the type of mass- be slightly lower or higher. The right temperature set, takes place after setting the initial mass, among other things, with assistance the measurement results of the start-up phase on the withdrawn gases.

In this first phase, CH4 and C02 are formed as a mixture; the CH4 is separated and used as a biogas mixture.

In the vertical process in particular, this can in turn, depending on the type and consistency of the starting material - the method according to one of the features of the invention take place in several completely or partially mutually closed floors, which traverse the mass by gravity with or without mechanical assistance. Mechanical support can be given by suitable vibration equipment. This will not be necessary for the horizontal run.

After completing the first phase of the process, the mass is transferred to a second fermenter given, to which air is supplied; this can be done in countercurrent to the mass movement take place.

The aerobic bacteria now convert the remaining organic matter in a uniform fermentation process as they are able to make the more difficult degradable To decompose components undisturbed. The resulting gaseous metabolic products of the bacteria consist mainly of C02 and are neither harmful to the environment nor unpleasant odor.

Since hydrocarbons are oxidized in this second process phase, heat is generated. You can use heat exchangers of the first phase at least to Part are supplied, so that the entire process flow is environmentally friendly in itself and is designed to save energy.

In terms of process engineering, the process thus runs in two fermentation stations from, which does not mean, however, that these stations are spatially separated from one another need to be.

They can stand on top of one another as reactors or arranged next to one another will. It would also be constructively possible to integrate them into one another, one surrounding the other, to arrange. Finally, the method according to the invention can be used both in small systems such as centrally at the locations of the raw materials that occur in large quantities in Large-scale plants are carried out.

Claims (12)

Claims 1. A method for processing biomass to their economic exploitation in compliance with such conditions that during of the method develop bacteria, characterized in that the preparation takes place in two clearly separated phases, namely in a first, in which conditions are created that predominantly anaerobic bacteria to develop CH4, and in a subsequent phase such conditions be created that are predominantly aerobic bacteria to produce compost to develop. 2. The method according to claim 1, characterized in that the first Phase with exclusion of oxygen and the second phase with addition of oxygen expire. 3. The method according to claim 1 or 2, characterized in that in In the first phase of the process, the mass was kept at a water content of approx. 50 - 70 96 will. 4. The method according to one or more of claims 1 to 3, characterized characterized in that additives are added to the mass and / or the water, which adjusts the pH of the mass to approx. 6 - 7. 5. The method according to one or more of claims 1 to 4, characterized characterized in that the mass in the first phase by adding heat to a Temperature is maintained, which -depending on the type of mass- approx. 3500. 6. The method according to one or more of claims 1 to 5, characterized characterized in that the addition of water and / or heat on the amount of each released CH4 is regulated. 7. The method according to one or more of claims 1 to 6, characterized characterized in that oxygen is supplied in the second phase, which the Enables the development of aerobic bacteria. 8. The method according to one or more of claims 1 to 72 characterized in that the heat developing under oxygen of the second phase fed to the first process phase to maintain the temperature required there will. 9. The method according to one or more of claims 1 to 8, characterized characterized in that at least the first process phase is in a continuous process carried out and the necessary moisture is brought about right from the start. 10. The method according to one or more of claims 1 to 9, characterized characterized in that the second process phase is followed by a third, in which the biomass is pyrolyzed into coal and bio oil. 11. The method according to one or more of claims 1 to 10, characterized characterized in that a further process phase follows, in which the Biomass is gasified to generate energy. 12. The method according to one or more of claims 1 to 11, characterized characterized in that different biomasses before the start of the process in such a ratio and are mixed together in such a way that they are not convertible and in bulk environmentally harmful components, such as heavy metals, in such quantities in the End products are present that they are no longer harmful to the environment.