DE3307796A1 - Process and apparatus for anaerobic degradation of organic substrates - Google Patents

Abstract

In a process for anaerobic degradation of organic substrates, these are treated in two spatially separated anaerobic reactors 1, 2. The one anaerobic reactor 1 serves in this case as an acid formation reactor, while the other anaerobic reactor 2 is designed as an acetate and methane formation reactor having a biogas withdrawal line 5. Partially-treated organic substrate in the acid formation reactor is transferred to the acetate and methane formation reactor via an outlet 3. In order to reduce or completely eliminate the CO2 fraction in the biogas withdrawal line 5 in a simple and economic manner, it is proposed to eliminate carbon dioxide from the outlet 3 of the acid formation reactor 1. The elimination of the carbon dioxide is preferably carried out in a stripping device 6 arranged in the outlet 3, connected to which stripping device are an air feedline 7 and an exhaust air withdrawal line 8. <IMAGE>

Description

Method and device for anaerobic

Degradation of Organic Substrates The invention relates to a method for the anaerobic degradation of organic substrates, in which the substrates are spatially divided into two separate degradation phases are treated and in which the one degradation phase as an acid formation phase and the other degradation phase is used as the acetate and methane formation phase, as well a device for carrying out the method.

It is well known that complex organic compounds are broken down, those, if they are of biogenic origin, essentially from carbohydrates, fats and proteins consist in four interlocking process stages.

First, undissolved polymers are subjected to a hydrolysis step Enzymes converted into dissolved products.

The dissolved organic compounds then become organic Acids such as acetic acid, propionic acid, butyric acid and lower alcohols, aldehydes as well as H2 and CO2 implemented. Because of these intermediate products only methane bacteria Acetic acid that can convert H2 and CO2 directly to methane will continue in one acetogenic phase converts organic acids and alcohols to acetic acid, H2 and CO2, being the appropriate bacteria for reasons of reaction kinetics must be closely associated with methane bacteria. In a strictly anaerobic The milieu can then finally consist of acetic acid, H2 and CO2 at pH values of 6.7 to 8 Methane can be formed. The hydrolysis step and the acid formation phase are known to be carried out spatially separated from the acetate and methane formation phases.

To achieve a high gas yield from a given amount of substrate it is necessary to supply the microorganisms with sufficient nutrients, adjust the residence time for the individual substrate components to their degradation time and the temperature supplied to the medium to maintain the optimal process Distribute heat evenly in this. To at the same time also in a given Reaction volume to increase the metabolism in order to generate a high amount of gas per volume and time unit must be the concentration of organic matter and on active biomass in the reactor filling are kept as high as possible.

As organic substrates that are broken down in this way and used for biogas production industrial and commercial wastewater, sewage sludge as well as organic residues and waste materials in question, whereby for the processing of organic solids sufficient cell and surface water must be available.

The main components of biogas are CH4 and CO2, the proportions of which are from the composition of the starting substrate and the process control, i.e. the temperature, the residence time and the volume loading in the anaerobic reactors. Besides these two of the most important gas components, biogas contains small amounts of H2, H2S and N2. Due to the high proportion of CO2 in the biogas, which can be 30 to 45%, will the calorific value, the ignition speed and the ignition temperature of biogas are negative influenced. In addition, the high solid precipitation temperature of CO2 stands out economic liquefaction and compression of biogas for use as Fuel against. For this reason it is known to scrub the CO2 by means of gas scrubbing separated from the biogas. However, this is only possible with great effort and therefore actually only with a very large amount of biogas occurring daily and with Further use of the withdrawn CO2 makes sense.

The invention is based on the object of a method of the above to design the type mentioned and a device for carrying out the method in such a way that that in a simple and economical way the CO2 content in the biogas is reduced or can be ruled out entirely.

According to the invention, this object is achieved in that prior to initiation the process from the acid formation phase into the acetate and methane formation phase carbon dioxide is removed from the drain.

Since the drain from the acid formation phase is a liquid or a Liquid-sludge mixture is in which the in the acid formation phase as a metabolic product accumulating COL is dissolved, is to separate the CO2 at this point in the process no more expensive gas scrubbing as previously required. That in the following Acetate formation phase from organic acids and from organic compounds under Other CO2 produced is usually only generated in such an amount that that it is in the methane formation phase from the bacteria that predominate there to methane and other products can be degraded.

It proves to be particularly advantageous if the distance of carbon dioxide depending on the carbon dioxide content of the acetate and Methane formation phase withdrawn biogas and / or depending on the pH value is regulated and / or controlled in the acetate and methane formation phase. With the Compliance with only very little or no CO2 shares in the biogas or with compliance The pH values of 6.7 to 8 required for the methane formation phase are ensured, that there is enough CO2 in the methane formation phase for the methanation to take place can also expire completely. If the CO2 produced by the acetate formation is not sufficient to enable complete methanation, the CO2 removal from the acid formation phase can be set so that just such a proportion of dissolved CO2 is included in the acetate and methane formation phase is passed over, which is sufficient for complete methanation.

To remove the CO2, the drain is expediently with Air stripped. This can be done, for example, that the process in one Pool is collected and air is passed through the pool under pressure from the bottom up will.

The CO2-laden exhaust air that is present after the stripping process is cleaned with advantage in a compost filter.

Since the temperature in an anaerobic process, as already mentioned at the beginning, plays an essential role, it is according to a further embodiment of the method expediently, the stripping air before it is introduced into the drain from the acid formation phase to warm and at the same time to moisten. The warming up should at least to the temperature of the drain, while a humidification up to the saturation value makes sense. This ensures that the process by introducing the stripping air not unnecessarily cooled, due to the humidification the stripping air, heat loss from the drain through water evaporation can be avoided because then the exhaust air to be discharged can hardly absorb any moisture The stripping air can be preheated, for example, by exchanging heat with the air from the Acetate and methane formation phase running, treated substrate or with the aid of the biogas withdrawn from the acetate and methane formation phase. Additionally the exhaust air drawn off after stripping can also be used to preheat the stripping air be used. When the exhaust air is cooled, the water vapor contained condenses, so that it can be used to humidify the stripping air.

A device for carrying out the process comprises two anaerobic reactors, in which one anaerobic reactor is used as an acid formation reactor and the other anaerobic reactor is designed as an acetate and methane formation reactor with a biogas discharge and in the case of the discharge of the acid formation reactor to the acetate and methane formation reactor connected. According to the invention, such a device is characterized in that that in the process a stripping device with an air supply line and an exhaust air discharge line is arranged for stripping CO2.

A regulating element is advantageously in the air supply line arranged, the regulating member on the output side of a regulating and / or control unit connected and the input side of the regulation and / or control unit to a CO2 measuring device in the biogas discharge and / or a pH value measuring device in the Acetate and methane formation reactor connected. In the regulation and / or control unit an actual value for the CO2 content of the biogas measured in the biogas discharge can then be used or an actual value for the pH value measured in the acetate and methane formation reactor with compared to a target value and accordingly the amount of stripping air in the air supply line be increased or decreased with the help of the regulating organ. The setpoint adjustment for the CO2 content in the biogas discharge should be preselected to less than 1% because it is then ensured that, on the one hand, only a few properties in the biogas the biogas does not contain negatively influencing CO2 and that on the other hand the methanation in the acetate and methane formation reactor also run completely can. As already mentioned, the setpoint adjustment of the pH value should be between 6.7 and 8 lie.

To clean the exhaust air, it is useful if the exhaust air discharge communicates with a compost filter.

Further details of the invention are based on one in the drawing schematically illustrated embodiment of a device according to the invention shown.

Organic substrate, for example, is formed via an inlet from industrial sewage, from sewage sludge, from agricultural waste or from a mixture of the specified substrates, one as an acid formation reactor first anaerobic reactor 1 used. From the acid formation reactor 1 is partially treated organic substrate.

via an outlet 3 into an acetate and methane formation reactor second anaerobic reactor 2 used, which is a discharge 4 for treated has organic substrate and a biogas discharge 5.

The anaerobic reactors can, for example, be fully mixed reactors with a single flow, as an anaerobic aeration tank with sludge return via Secondary clarifiers, as upflow reactors with internal sludge retention or as anaerobic Fixed bed or fluidized bed reactors can be designed.

That formed in the first anaerobic reactor 1 during the acid formation phase CO2 remains largely dissolved in the aqueous phase and is only released in the second anaerobic reactor 2 largely released together with the CO2 produced there, so that at previously known systems in the biogas discharge withdrawn biogas between 20 and Contains 50% C02, which has a negative effect on the further use of the biogas.

To at least largely avoid the proportion of CO2 in the biogas therefore, according to the invention, a stripping device in the outlet 3 of the first anaerobic reactor 1 6 provided with an air supply line 7 and an exhaust air discharge line 8, with their Help stripped the CO2 formed in the first anaerobic reactor 1 from the outlet 3 can be.

As shown, the air is under pressure from bottom to top passed through a chamber formed in the outlet 3.

To reduce the proportion of CO2 in the biogas to the lowest possible value and at the same time complete methanation in the second anaerobic reactor 2 is to be reached in the biogas discharge 5 of the second anaerobic reactor 2 CO2 measuring device 12 arranged, which is attached to the input side of a control and / or Control unit 13 is connected. In the regulation and / or control unit 13 the CO2 measured value is compared with a target value and accordingly an in the Air supply line 7 arranged control member 14, for example a control valve; which is connected to the output side of the regulation and / or control unit 13, further open or closed. The setpoint for the CO2 content in the biogas discharge should be set to 0.5 to 1%, since then complete methanation can run safely in the second anaerobic reactor 2.

Since the anaerobic degradation in the two anaerobic reactors 1, 2 under increased Temperature expires, it is to avoid heat loss through the stripping process provided to heat the air in the air supply line 7 and that suitably to a temperature prevailing in the outlet 3 of the first anaerobic reactor 1. In addition a heat exchanger 9 is arranged in the air supply line 7, through which the exhaust air discharge line 8 of the stripping device 6 is performed, so that the heat of the exhaust air on the stripping air can be transferred. In addition, the stripping air can also be caused by the the heat contained in the treated organic substrate is thereby preheated, that a heat exchanger 10 is provided in the discharge line 4 of the second anaerobic reactor 2 through which the air supply line 7 is passed.

Of course, the heat content of the treated organic Substrate instead or at the same time to preheat the first anaerobic reactor 1 to be fed # organic substrate to be treated can be used. as well it is possible to use the biogas to preheat the stripping air.

For cleaning the exhaust air withdrawn from the stripping device 6 is available the exhaust air discharge 8 preferably connected to a compost filter 11.

Claims (8)

Claims 1. A method for the anaerobic degradation of organic substrates, in which the substrates are treated in two spatially separate degradation phases and in which the one breakdown phase as an acidification phase and the other breakdown phase as Acetate and methane formation phase is used, characterized in that before the introduction of the process from the acid formation phase into the acetate and methane formation phase carbon dioxide is removed from the drain. 2. The method according to claim 1, characterized in that the removal of carbon dioxide depending on the carbon dioxide content of the acetate and Methane formation phase withdrawn biogas and / or depending on the pH value is regulated and / or controlled in the acetate and methane formation phase. 3. The method according to claim 1 or 2, characterized in that for Removal of the carbon dioxide the drain is stripped with air. 4. The method according to claim 3, characterized in that the after Exhaust air present in the stripping is cleaned in a compost filter. 5. The method according to claim 3 or 4, characterized in that the Stripping air is warmed and moistened before it is introduced into the drain. 6. Device for performing the method according to one of the claims 1 to 5 with two anaerobic reactors, one of which is an anaerobic reactor as an acid formation reactor and the other anaerobic reactor as an acetate and methane formation reactor with a biogas discharge is formed and in which the discharge of the acid formation reactor to the acetate and methane formation reactor is connected, characterized in that in the Drain (3) a stripping device (6) with an air supply line (7) and a Exhaust air discharge (8) is arranged for stripping CO2. 7. Apparatus according to claim 6, characterized in that in the Air supply line (7) a control element (14) is arranged, the control element (14) on the output side of a regulation and / or control unit (13) is connected and the input side of the regulation and / or control unit (13) to a CO2 measuring device (12) in the biogas discharge (5) and / or a pH value measuring device in the acetate and methane formation reactor (2) is connected. 8. Apparatus according to claim 6 or 7, characterized in that the exhaust air discharge line (8) is connected to a compost filter (11).