DE10110862A1 - Fermentation process involves pre-heating organic bulk particulate solid residues prior to release into fermentation tank - Google Patents

Abstract

The invention relates to a method for producing biogas for the use of pourable agricultural products and a plant therefor. In order to increase the yield of biogas, it is proposed to warm the agricultural products before they enter the fermentation tank.

Description

The present invention relates to a method for producing biogas using pourable agricultural products and an attachment to this with a fermentation tank holding a fermentation medium.  

When generating biogas (mainly methane), biological Waste such as liquid manure, waste fats, organic waste, leftovers or the like fermented in a fermentation tank. The resulting biogas is then in an internal combustion engine, preferably one Lean gas converted diesel engine, burned and over a Generator converted into electrical energy. The resulting one Waste heat from the engine is only used extensively, if at all.

Since the emergence of liquid manure, waste fats, organic waste and leftovers is increasingly limited to increase biogas production pourable agricultural products such as corn, beets, grasses, fruit, Vegetables, cereals or other agricultural products are used. Because such unlimited renewable raw materials have to be specially cultivated, one strives for the economical operation of the biogas plant, from the existing agricultural products with the greatest possible amount of biogas produce.

Proceeding from this, the present invention is based on the object using a method and a plant for producing biogas of pourable agricultural products that can be used with the same Agricultural products achieved an increased yield of biogas.

According to the invention, a method is used as a technical solution to this problem with the features of claim 1 and a system with the features of claim 5 proposed. Advantageous further developments of the Procedures and the system are to the respective subclaims remove.

A method designed according to this technical teaching and a system designed according to this technical teaching have the advantage that the heating of the agricultural products prior to fermentation results in a partial digestion of the long-chain carbon compounds. This speeds up the fermentation process and enables more complete fermentation, which leads to a biogas yield that is up to 15% higher. In particular, this increases the CH ₄ content of the biogas, which also leads to improved gas quality. It has proven advantageous to heat the pourable agricultural products to approx. 70 ° C.

Are the agricultural products heated in this way in the heated state in the Fermentation tanks introduced, this needs accordingly less to be heated, which leads to a saving of thermal energy.

Another advantage is that for heating the agricultural products in usually excess waste heat from the biogas combustion motors can be used, so no additional energy costs attack.

Another advantage of premature heating of agricultural products is in that this results in a hygienization and / or pasteurization of the pourable agricultural products, so that in the fermentation tank introduced agricultural products are hygienically perfect. This will contamination of the fermentation medium with unwanted bacteria avoided.

Further advantages of the method according to the invention and of the invention The annex shows from the attached drawing and the following Embodiments described below. Likewise, the above mentioned and the features explained further according to the invention used individually or in any combination with each other become. The embodiments mentioned are not intended to be final To understand enumeration, but rather have exemplary character.  

The drawing shows a schematic side view a system according to the invention.

The embodiment of a biogas plant according to the Invention shown in the drawing comprises a partially filled with fermentation medium fermenter 10 fermenter or 12, wherein in the fermentation medium 10 a floating scum is formed fourteenth A floating agitator 16 , which regularly stirs the surface of the fermentation medium 10, continues to float on the fermentation medium 10 .

Furthermore, this biogas plant comprises a charging device 18 and a storage container 20 , the charging device 18 comprising a press pipe 22 which opens into the fermentation tank 12 below the floating cover 14 and at the other end of which a receiving pipe 24 is connected. In this receiving tube 24 there is an opening 26 for receiving the pourable agricultural products and a plunger 28 . A predetermined amount of agricultural products passes through the opening 26 into the receiving tube 24 , in which the agricultural materials are then pressed together by the plunger 28 . Over time, the agricultural products condense in such a way that grafting occurs, so that no gases or odors can escape from the fermentation tank 12 . This stopper passes from the somewhat further receiving tube 24 into the narrower press tube 22 , so that the agricultural products further compact here and form an even denser stopper. The press device with the receiving tube 24 and the plunger 28 is arranged higher than the fermentation medium 10 , so that the fermentation medium 10 cannot flow out of the fermentation tank 12 via the press pipe 22 . At the same time, however, the mouth of the press tube 22 is also arranged below the floating cover 14 , so that no gases which may be present in the fermentation tank 12 can escape into the open through the press tube 22 . This creates an oxygen seal.

A larger amount of corn, grass or other agricultural products is stored in the storage container 20 , so that the biogas plant can be operated for several days or even weeks. The corn or other agricultural products are filled into the storage container 20 through a flap 30 and stored there. A so-called moving floor 32 is provided under the agricultural products, on the upper side of which a plurality of drivers 34 with a triangular cross section are attached. This moving floor 32 protrudes into an opening provided in the reservoir 20 into the discharge opening 36 and can be moved away to the discharge opening 36 toward and. During these back and forth movements, the carriers 34 slide with their flat side under the pourable agricultural products and take a certain amount of these agricultural products with their steep sides forward during the next movement. As a result, a certain amount of agricultural products is discharged. The amount to be discharged can be regulated by a vertically movable slide 38 attached to the storage container 20 . The agricultural products emerging from the discharge opening 36 then fall directly through the opening 26 into the receiving tube 24 and are compressed there by the plunger 28 . In an embodiment not shown here, a funnel is provided on the receiving tube 24 , so that the agricultural products are introduced into the pressing device reliably and without loss.

A tubular heating jacket 44 is provided around the pressing tube 22 and surrounds the pressing tube 22 at least in a partial section in order to heat the agricultural products therein to approximately 70 ° C. This heating jacket 44 is fed with waste water heated by an internal combustion engine 46 , the waste water flowing between heating jacket 44 and press tube 22 . As a result, the long-chain carbon compounds in the agricultural products are sometimes prematurely digested and hygienized, which among other things leads to a higher gas yield.

The system works at time intervals, that is, the press tube content Similar to a batch operation, filled every two hours, heated and then through pushed out the next batch. This system is thus one at the same time Agricultural product hygiene (or pasteurization) system.  

LIST OF REFERENCE NUMBERS

10

fermentation medium

12

fermenter

14

floating roof

16

agitator

18

loader

20

reservoir

22

crimp tube

24

receiving tube

26

opening

28

plunger

30

flap

32

Moving floor

34

takeaway

36

discharge

38

pusher

44

heating jacket

46

internal combustion engine

Claims (7)

1. Process for the production of biogas using pourable agricultural products, characterized in that the pourable agricultural products are heated before entering the fermentation tank. 2. The method according to claim 1, characterized, that the agricultural products at 50 ° C to 90 ° C, preferably 70 ° C be heated. 3. The method according to any one of the preceding claims, characterized, that the agricultural products are warmed up in the fermentation tank be introduced. 4. The method according to any one of the preceding claims, characterized, that to heat the agricultural products, the waste heat from one Biogas-burning internal combustion engine is used. 5. Plant for the production of biogas using pourable agricultural products, with a fermentation medium ( 10 ) receiving fermentation tank ( 12 ) characterized by a device for heating the agricultural products before entering the fermentation tank ( 12 ). 6. Plant according to claim 5, characterized, that the device for heating the agricultural products via pipes or hoses with an internal combustion engine to burn the Biogas is connected, being in the tubes or the hoses Carrier medium flows, which is released during combustion Heat for the device for heating the agricultural products transported. 7. Plant according to claim 6, characterized in that the device for heating the agricultural products comprises a heating jacket 44 which is guided around the press tube 22 so that the carrier medium flows between the heating jacket 44 and the press tube 22 .