DE4444462A1 - Anaerobic digestion of organic material - Google Patents

Abstract

Anaerobic digestion of degradable organic material is effected in a single 2-stage reactor equipped for controlled recycle of water drained from the reactor

Description

The invention relates to a method for anaerobic fermenta tion of biodegradable substances in a reactor system ge.

Practical methods for anaerobic fermentation are common commonly known, between one-step and two-step pro zessen is differentiated. One-step procedures work both after the wet and after the dry process. The The advantages of the one-step process are the simple Process engineering, whereas the disadvantages in the lesser Performance. In the two-stage process, the Hydrolysis and acidification from methanation Lich separated, with optimal biochemical conditions can be tailored to the microorganisms. Thereby high degradation rates and short dwell times are possible. The disadvantages of the two-step process are based on agile process engineering justified, with a high Repair and maintenance effort is required.

In contrast, the invention is based on the object Process for anaerobic fermentation of biodegradable To create substances that are simple process engineering due to the high degradation performance of the input material distinguished.

This task is carried out in a method of the type mentioned at the beginning Kind of solved in that the plant works as a two-stage Ending one-reactor system, preferably with a volume <100 m³, trained and in the facility for improved Moistening of the material entered and as a guarantee  a process control a controlled leachate water circulation is involved. This will make it come true the task created a procedure in which in the Reactor plant both an acidic and a methane phase is formed, d. H. both organic acids and also formed methane and CO₂ in the reactor plant. By the The inventive method creates the possibility to always receive defined discharge material.

The acidic and advantageously runs in the one-reactor system the methane phase simultaneously. There is the acid Phase in the upper area and the methane phase in the middle to lower area of the reactor plant in a layered form.

The organic formed in the upper part of the reactor Acids can enter the water through the circulating water middle and lower area of the reactor and there essentially be converted to methane and CO₂. The The intensity of the circulatory system must be within the framework of a Process optimization can be set. If the water level is too high There is a water backlog in the upper tank area and possibly too high water seepage speeds in the Reactor plant. The returned quantity is too long ring, does not find sufficient transport of the organic Acids take place in the lower tank areas, causing it to Acidification symptoms up to complete ver acidification can come.

The degradable substances can advantageously be introduced before the anaerobic fermentation has a solids content of 30 have up to 55% in dry matter. This is no humidification of the starting material before filling the Reactor required.

To achieve a defined stay and one as far as possible in the reactor plant  given material this is like a static Gravitational process can be lowered like a plug, so that a Reactor system for carrying out the method according to the invention rens does not require any additional assemblies that the one have to mix the given material. Rather, it flows or the material sinks almost automatically in the reactor system downward.

The reactor can be a test system for determining the in the Reactor system to be introduced mixing ratio of rotten and fresh material depending on the substrate or be assigned by the type of waste. Doing so depends of the content of easily degradable substances in the substrate adequate amount of rotten material is added. The ge The suitable mixing ratio is determined in preliminary tests on a laboratory scale stab found. This is necessary because of it a too high content of easily degradable substances in the material fed to the reactor to a complete ver acidification of the reactor contents can come. But is that Share of rotten material too high, are hardly organic excess acids produced, causing the process can no longer work economically.

In addition to an exact setting of the mixing ratio and the water circulation system can also carry out a pH measurement about the height of the reactor plant for process control contribute. If the pH drops in the middle If the lower range is <5.5, then the supply of fresh sub is to stop blatantly. By adding rotten Material and / or artificially raising the pH of the supplied circulating water can acidify the reak tors are avoided. The pH increase can either via the circulating water or directly in the corresponding the areas of the reactor plant.  

To increase the safety of the reactor plant, this can Explosion prevention means include.

This is particularly simple and inexpensive reachable if the material discharge and the material off is carried out gastight.

For this purpose, the introduction of material into the upper area of the Reactor system can be realized via a double lock.

The material discharge can be self-sealing training the material plug to be discharged is gastight. The material discharge area can be a combination of screw conveyors and one rising, a mate rialpfropfen receiving discharge tube may be formed. This ensures a high level of security with relatively little effort a gas-tight discharge of the rotten material enables.

To increase the economic functioning of the inventor According to the inventive method, the reactor plant can be heated be trained. A particularly reliable process optimization tion can be reached if the heating for the reactor system is infinitely adjustable up to 60 ° C.

To build a bridge in the reactor plant to avoid material, the container can be conical be formed, tapering upwards.

Advantageously, process-related excess can occur shot water removed from the water cycle and by means of Reverse osmosis are treated. This excess water can due to the degradation of solids depending on the extent Gang water content of the respective substrate or material attack. The resulting excess water is mainly with relatively high concentrations of inorganic, hardly degradable Substances and ammonium and chlorides contaminated. To the sewage  either directly into the water (direct discharge) or into the To be able to drain sewers (indirect discharges) is the half a treatment is required. This treatment is done as already mentioned, by means of reverse osmosis, this in Dependence on the cleaning services to be performed can be one or more stages. The resulting concentrate is conveyed back to the reactor. Because when using a low-pollution starting substrate the concentrate in the Usually not disproportionately polluted the quality of the rotted material is not negatively influenced. Basically there is also the possibility Ability to remove pollutants via the excess and / or Circulating water. This measure can then be important be in case contaminated substrates are treated and / or the starting material must be made up.

The pollutants from the material can be reversed osmosis through a discharge of pollutants in the water cycle to be disposed of. As the starting material can be invented process according to the invention to a certain extent also liquid Including substances that are fed into the water cycle be acted.

In principle, all organic waste from sturgeon substances are to be exempted according to the invention reactor plant operating according to the process.

Further advantages and embodiments or possibilities the invention will become apparent from the following description of the examples of leadership.

A one-reactor system for carrying out the The process consists of a silo-like container a volume <100 m³. In the container is a forth conventional conveyor belt for anaerobic fermentation undergoing undergoing waste material. As waste  come z. B. Biowaste, hazardous waste from food waste as well as slaughterhouse, market and fish waste but also commu nal residual waste in question. The conveyor belt promotes that too processing waste in the upper part of the container ters, where they then pass through a double lock without air access be brought into the container. The loading takes place dis continuously. There is a water circuit guide in the container integrated. For this, water is poured into the tank from above stored material is raining and via a seepage system returned.

The waste material received in the container is over Complete a gas-tight material discharge tiert material is removed discontinuously with the Time without additional devices or assemblies according to Art of a static gravitational process like a plug and in Layers down toward the bottom of the container promotes. So there are additional mechanical mixing instruments not mandatory.

The waste materials collected are pre-processed action sieved, gently mixed and crushed if necessary. The source material is already used for "vaccination" rotten material and mixed in the reak as described Door container filled. This is continuously heated. To the gas generated during the digestion can be used, by drying it and collecting it in a store.

Claims (19)

1. A process for the anaerobic fermentation of organically degradable substances in a reactor plant, characterized in that the plant is designed as a two-stage single-reactor system and in the plant for improved moisture penetration of a given material a controlled leachate cycle management is integrated . 2. The method according to claim 1, characterized ge indicates that in the one-reactor system acidic and a methane phase run simultaneously. 3. The method according to claim 1 or 2, characterized ge indicates that the acid phase in upper area and the methane phase in the lower area the reactor plant are in layered form. 4. The method according to any one of claims 1 to 3, characterized in that the organic acids formed in the upper region of the reactor by the circulated water in the middle
or the lower region of the reactor transported and there are essentially converted to methane and CO₂. 5. The method according to any one of claims 1 to 4, there characterized in that the degradation before the initiation of the anaerobic fermentation a solids content of 30 to 55% in the dry have substance. 6. The method according to any one of claims 1 to 5, there characterized by that to educate  a defined period of stay in the Graft reactor material entered into this is well lowered. 7. The method according to any one of claims 1 to 6, there characterized in that the Reak tor a test system for determining the in the reactor plant mixing ratio to be introduced from rotten and fresh material depending on the substrate or assigned to the type of waste. 8. The method according to any one of claims 1 to 7, there characterized by that in addition to an exact setting of the mixing ratio and the water circulation system also has a pH measurement about the height of the reactor plant for the process control contributes. 9. The method according to any one of claims 1 to 8, there characterized in that the Reak Gate system assigned means to avoid an explosion are not. 10. The method according to claim 9, characterized ge indicates that the material entry for Avoiding an explosion is gas-tight. 11. The method according to claim 10, characterized ge indicates that the introduction of material via a double lock. 12. The method according to claim 9, characterized ge indicates that the material discharge is gastight.   13. The method according to claim 12, characterized ge indicates that the material discharge via a self-sealing training of those to be discharged Material grafting is gastight. 14. The method according to claim 12 or 13, characterized characterized that the material discharge as a combination of a screw conveyor, a riser the discharge tube receiving a plug of material and a solid pump is formed. 15. The method according to any one of claims 1 to 14, there characterized in that the Reak gate system is designed to be heated. 16. The method according to claim 15, characterized ge indicates that the heating is infinitely variable is adjustable up to 60 ° C. 17. The method according to any one of claims 1 to 16, there characterized in that the container ter of the reactor plant is conical, he tapers upwards. 18. The method according to any one of claims 1 to 17, there characterized by that proceeded excess water from your water The circuit is removed and treated with reverse osmosis delt is. 19. The method according to claim 18, characterized ge indicates that reverse osmosis is on or done in several stages.