DE102007025807A1 - Procedure for reconstruction of a fermentation reactor with a fermentation substrate containing fermentation area, comprises areawisely opening a supporting air roof to an access for fermentation area - Google Patents

Abstract

The procedure for reconstruction of fermentation reactor (2) with a fermentation substrate (4) containing fermentation area (6) that is limited by lateral walls and base (10) and is carried by gas pressure within the fermentation reactor, comprises opening a supporting air roof (12) to an access for fermentation area, vertically inserting a mounting auxiliary tube into the reactor through the access, removing the substrate from the interior of the auxiliary tube, introducing carrier into the auxiliary tube, removing the auxiliary tube and then mounting a new roof on the fermentation reactor. The procedure for reconstruction of a fermentation reactor (2) with a fermentation substrate (4) containing fermentation area (6) that is limited by lateral walls and a base (10) and is carried by gas pressure within the fermentation reactor, comprises areawisely opening a supporting air roof (12) to an access for fermentation area, vertically inserting a mounting auxiliary tube into the fermentation reactor through the access and then mounting on the base of the fermentation reactor, removing fermentation substrate from the interior of the auxiliary tube, introducing a carrier into the auxiliary tube and then supporting on the base of the fermentation reactor, removing the auxiliary tube and then mounting a new roof on the fermentation reactor. The new roof is carried by the carrier and is gas tightly connected with lateral walls of the fermentation reactor. The auxiliary tube and the carrier are positioned in the middle of the fermentation reactor. The auxiliary tube has a standing arrangement for the stabilization of its perpendicular position. The standing arrangement is mounted on the base of the fermentation area. The auxiliary tube is fixed with holding elements at the lateral walls of the fermentation reactor and has a rotating seal at its end mounting on the base of the fermentation reactor. A joint is sealed between the auxiliary tube and the base of the fermentation reactor. The rotating seal is mounted on the base of the fermentation reactor during inserting the auxiliary tube into the fermentation reactor. Noxious gases present in the auxiliary tube are sucked off up to a concentration inoffensive for people. The carrier is connected firmly with the base and is formed areawisely as tube with an inlet opening and an outlet opening, between which a stirrer is arranged for the transportation of the fermentation substrate from the inlet opening to the outlet opening. A heating system is inserted areawisely into the tubular carrier. The fermentation reactor is connected with a low pressure-gas storage. The outer side of the new roof is warm insulated. A membrane of the new roof system limits a gas area above the fermentation area, whose extension is limited by stabilization elements, which are arranged outside of the gas area between the lateral wall and the carrier or a holding arrangement connected with the carrier.

Description

The The invention relates to a process for the conversion of a fermentation reactor with a fermentation substrate contained fermentation space, which is bounded by side walls and a floor and with a Tragluftdach, which is carried by the gas pressure within the fermentation reactor.

such Gärreaktoren with carrying air roof are known. From the fermentation room escaping biogas, in particular Methane, is collected in a gas space that separates from the fermentation chamber, from bounded on the opposite side walls and of the supporting air roof becomes. The gas pressure within the fermentation reactor and within the Gas space is by design to a maximum of 5 mbar above the Ambient pressure limited. The gas space is thereby injected of air between an outer gas-tight membrane the supporting air roof and an inner gas-tight membrane of the supporting air roof reduces and thereby the gas in the gas space to the operating pressure compressed. However, to remove gas from the gas space is a higher Pressure than that of fermentation reactors With a carrying air roof feasible operating pressure desirable.

Known are also fermentation reactors with a roof that is carried by one or more straps that open the bottom of the fermentation room supported are. Due to the carrier or carriers are more stable roof structures possible, the one higher Operating pressure within the arranged between the proofing room and the roof Allow gas space.

A conversion of a fermentation reactor with a Tragluftdach to a fermentation reactor with a roof that is supported by one or more carriers, is usually such that the fermentation substrate is first completely removed from the fermentation chamber, then removes the Tragluftdach, one or more carriers perpendicular to the Floor of the fermentation room are set up and fixed and then a new roof is placed on the carriers. Subsequently, the fermentation chamber is filled again with fermentation substrate. The microbiological balance is destroyed after pumping in the fermentation substrate. It then takes several weeks until the desired microbiological balance in the fermentation substrate has set in again and biogas is produced again. In addition, 100 m ^{3 of} fermentation substrate and more are included in such fermentation in some cases, so that the pumping of the fermentation chamber is very time consuming and the removal or intermediate storage of the fermentation substrate is costly.

Of the Invention is based on the object, a method for the conversion of a fermenting reactor to provide with a supporting air roof of the type mentioned, in which the conversion and the renewed production of biogas in less time takes place as before.

The Invention solves this object by a method having the features of the claim 1. Further advantageous embodiments of the invention are in the dependent claims 2 to 13 included.

The Tragluftdach of the fermentation reactor is opened at least in certain areas, for access to the fermentation room to build. However, the carrying air roof is preferably completely removed and later completely replaced by the new roof. Through the created access Through an auxiliary assembly tube is inserted vertically into the fermentation reactor and on the floor of the fermentation room placed. The longitudinal extension the auxiliary assembly tube corresponds to at least the filling height of the fermentation reactor located fermentation substrate. Subsequently the fermentation substrate is going out removed the interior of the auxiliary mounting tube. The fermentation substrate is preferably pumped out of the auxiliary mounting tube. Internally the mounting auxiliary pipe thereby creates a mounting space that is free of fermentation substrate is. The cross section of the auxiliary mounting tube is preferred sufficiently dimensioned for a person to work in the mounting space can. Subsequently becomes a carrier introduced into the auxiliary mounting tube and on the bottom of the fermentation reactor supported. After mounting the carrier is removed the auxiliary installation pipe and a new roof on the fermentation reactor put on, by the carrier carried and gas-tight connected to the side walls of the fermentation reactor becomes.

By this procedure is only necessary the volume of the interior of the auxiliary assembly tube of fermentation substrate be freed and not the entire fermentation room. The pumping out of the auxiliary assembly pipe lasts correspondingly much less long, so that the conversion of the fermentation reactor can be completed faster. The microbiological balance will be only slightly disturbed by this intervention, so that after a few days biogas is produced again.

The Mounting auxiliary tube and the carrier are preferably positioned in the middle of the fermentation reactor. hereby is a stable statics of worn by the carrier new roof ensured.

Advantageously, the auxiliary assembly tube for stabilizing its vertical position on a stand device, which is placed on the bottom of the fermentation reactor. A tilting of the auxiliary assembly tube to the side and a consequent penetration of fermentation substrate into the interior of the auxiliary assembly tube is counteracted. In a particularly preferred embodiment of the invention, the auxiliary mounting tube is an alternative or supplement to the standing device with holding elements on the sides walls of the fermentation reactor fixed. The holding elements are preferably formed by ropes or struts, which attack with advantage respectively at the lying above the fermentation substrate end of the auxiliary mounting tube. The stable state of the auxiliary assembly tube on the bottom of the fermentation chamber is thereby further improved.

In A particularly preferred embodiment of the invention is the Joint between the auxiliary assembly pipe and the bottom of the fermentation chamber sealed. This prevents that fermentation substrate, especially in an uneven floor, from the fermentation room penetrates into the mounting space and must be pumped out permanently. In a Particularly preferred embodiment of the invention, the auxiliary assembly tube at his on the bottom of the fermentation room put on the end of a circumferential seal on the insertion of the auxiliary assembly pipe in the fermentation reactor placed on the floor of the fermentation room becomes. An additional manual sealing of the joint between the auxiliary mounting tube and the Bottom of the fermentation room Needless This and the joint is still sufficient even on uneven ground sealed.

With The advantage in the auxiliary installation tube optionally located, harmful gases, at least up to one for Sucked human harmless concentration. This is a Working in the assembly room without gas mask possible and the work safety for the Assembly personnel nevertheless ensured.

In a particularly advantageous embodiment of the invention is the carrier firmly with the bottom of the fermentation room connected. The carrier must do it not in addition to struts or the like to the side walls be fixed in its position.

With Advantage is the carrier at least in some areas as a pipe with an inlet opening and an outlet opening formed, being between the openings a stirrer for transportation of fermentation substrate from the entrance opening arranged to the outlet opening becomes. By this configuration, a circulation of the fermentation substrate in the fermentation chamber after Completion of the conversion possible, whereby the production of biogas can be increased. In addition, will be This prevents floating slabs on the fermentation substrate. In a advantageous embodiment of the invention is also a heating system in the tubular carrier used. In conjunction with the agitator is thus a uniform and controlled Temperature control of the fermentation substrate throughout the fermentation room possible, whereby the production of biogas can be further increased. With the same effect, the new roof system will be on the outside thermally insulated with advantage.

Of the Gas space of the fermentation reactor is in a particularly preferred embodiment of the invention with connected to a low-pressure gas storage, in the biogas from the gas space is introduced and can be taken from the gas for consumption. The pressure inside the low pressure gas storage is preferred to 5 to 80 mbar over adjusted to the ambient pressure, in particular to 10 to 40 mbar. Due to the conversion of the fermentation reactor the pressure inside the gas space is higher than before, so less Energy must be expended, to introduce the biogas from the gas space into the low-pressure gas storage. The result of the production of biogas in the gas space above the fermentation substrate adjusting pressure is in a particularly advantageous embodiment of the invention to a value above or equal to the operating pressure the low-pressure gas storage set. This is an operation the biogas plant comprising the inventively converted fermentation reactor and the associated low-pressure gas storage, without additional Gas compressor for pressure increase possible. costs for the Purchase, operation and maintenance of such pressure booster compressor accounts thereby. The high gas pressure of the system also causes a safe, Pressure fluctuation-free gas supply to gas consumers.

In limited to a particularly preferred embodiment of the invention a membrane of the new roof system a gas space above the fermentation space, wherein the elongation of the membrane is limited by stabilizing elements being outside the Gas space between the side walls of the fermentation reactor and the carrier or one with the carrier connected holding device can be arranged. As stabilizing elements are preferably used networks that between the side walls and one on the carrier mounted plate can be clamped as a holding device.

Further Details and advantages of the invention are the subclaims as well the method steps described schematically below removable from the invention; show it:

1 a fermentation reactor with carrying air roof before the conversion,

2 the fermentation reactor off 1 with removed carrying air roof,

3 the fermentation reactor off 1 with inserted auxiliary tube,

4 the pumping out of the auxiliary assembly pipe,

5 the insertion of the carrier in the Mounting auxiliary pipe,

6 the fermentation reactor after removal of the auxiliary installation pipe,

7 the fermentation reactor with a new roof system after the conversion of the invention and

8th the fermentation reactor off 7 connected to a low pressure gas storage.

following Equivalent parts are given the same reference numbers.

The 1 to 8th show a total of different process stages of the conversion of a fermentation reactor 2 , 1 shows the fermentation reactor 2 with a fermentation substrate 4 contained fermentation space 6 that of side walls 8th and a floor 10 is limited. The fermentation reactor 2 has a carrying air roof 12 that of the gas pressure inside the fermentation reactor 2 will be carried. About a compressed air blower 14 Air is between an outer membrane 16 and an inner membrane 18 of the carrying air roof 12 initiated. This will create a gas space 20 reduced, which is below the inner membrane 18 and limited by the fermentation substrate 4 and the side walls 8th is arranged so that the gas pressure in the interior of the gas space 20 is increased.

2 shows the fermentation reactor 2 with removed Tragluftdach 12 , This will provide access 22 to the fermentation room 6 formed into which a mounting auxiliary pipe 24 can be used as in 3 shown. The auxiliary mounting tube 24 becomes perpendicular to the fermentation reactor 2 used and on the ground 10 of the fermentation room 6 placed. The longitudinal extent L of the auxiliary assembly pipe 24 is longer than the filling height H of the fermentation substrate 4 in the fermentation room 6 , The auxiliary mounting tube 24 is with holding elements 26 on the side walls 8th of the fermentation reactor 2 fixed.

The between the auxiliary mounting tube 24 and the floor 10 of the fermentation room 6 located joint 28 is sealed. The seal is made in the embodiment in that the auxiliary assembly tube 24 at his on the ground 8th of the fermentation room 6 aufsetzenden end a circumferential seal 30 whose position is indicated by arrow 30 is indicated.

After mounting the auxiliary mounting tube 24 that gets through the interior 32 of the auxiliary mounting tube 24 formed mounting space from the fermentation substrate located there 4 freed, with the fermentation substrate 4 in the embodiment by means of pumping device 34 , as in 4 shown, is pumped out.

Subsequently, a carrier 36 in the auxiliary mounting tube 24 used, on the ground 10 of the fermentation room 6 put on and there by a fitter 38 attached, as in 5 shown. Then the auxiliary assembly tube 24 removed so that the fermentation substrate 4 the carrier 36 immediately surrounds, as in 6 displayed.

7 shows the fermentation reactor 2 after completion of conversion. A new roof 40 is on the fermentation reactor 2 Put on and will from the carrier 36 carried. The new roof 40 is gas-tight with the side walls 8th of the fermentation reactor 2 connected. The gas space 20 is from a membrane 42 of the new roof 40 limited, their elongation of stabilizing elements 44 is limited, the outside of the gas space 20 between the side walls 8th and one with the carrier 36 connected holding device 46 , formed in the embodiment by a on the support 36 mounted plate, can be arranged. About one between the stabilizing elements 44 and the membrane 42 arranged insulation 48 is the new roof 40 thermally insulated.

The carrier 36 is formed in the embodiment as a tube, the inlet openings 50 from the fermentation room 6 to the tube interior 51 and outlet openings 52 from the inside of the pipe 51 to the fermentation room 6 having. One between the openings 50 . 52 inside the pipe 51 arranged agitator 54 transported through the inlet openings 50 into the pipe interior 51 reaching fermentation substrate 4 to the outlet openings 52 , This results in a circulation of the fermentation substrate, indicated by arrows 58 is illustrated. Internally 51 of the tubular carrier 36 In addition, a heating system is arranged, which in the embodiment part of the agitator 54 is.

The agitator 54 is from a motor 60 driven, the above the holding device 46 is arranged. On the holding device 46 are also connections 62 mounted for gas sampling. The fermentation reactor 2 is in 8th via a gas line 63 with a low-pressure gas storage 64 connected. At the same time the gas pipe opens 63 in the exemplary embodiment in a feed chute 66 , in the gas fittings of the fermentation reactor 2 and the low-pressure gas storage 64 are merged. The low pressure gas storage 64 is operated with an operating pressure of 5 to 80 mbar.

Claims (13)

Process for the conversion of a fermentation reactor ( 2 ) with a fermentation substrate ( 4 ) contained fermentation space ( 6 ), of side walls ( 8th ) and a floor ( 10 ) and with a carrying air roof ( 12 ), which depends on the gas pressure within the fermentation reactor ( 2 ), wherein - the carrying air roof ( 12 ) at least in some areas an access ( 22 ) to the fermentation room ( 6 ), - through access ( 22 ) an auxiliary assembly pipe ( 24 ) in the fermentation reactor ( 2 ) are inserted vertically and on the ground ( 10 ) of the fermentation chamber ( 6 ), - the fermentation substrate ( 4 ) from the inside ( 32 ) of the auxiliary mounting tube ( 24 ), - a carrier ( 36 ) in the auxiliary mounting tube ( 24 ) and on the ground ( 10 ) of the fermentation reactor ( 2 ), - the auxiliary assembly tube ( 24 ) and - a new roof ( 40 ) on the fermentation reactor ( 2 ) placed by the wearer ( 36 ) and with side walls ( 8th ) of the fermentation reactor ( 2 ) is connected gas-tight. Method according to claim 1, characterized in that the auxiliary assembly tube ( 24 ) and the carrier ( 12 ) in the middle of the fermentation reactor ( 2 ). Method according to one of the preceding claims, characterized in that the auxiliary mounting tube ( 24 ) to stabilize its vertical position has a stand device which on the floor ( 10 ) of the fermentation chamber ( 6 ) is placed. Method according to one of the preceding claims, characterized in that the auxiliary mounting tube ( 24 ) with retaining elements ( 26 ) on the side walls ( 8th ) of the fermentation reactor ( 2 ) is fixed. Method according to one of the preceding claims, characterized in that the joint ( 28 ) between the auxiliary mounting tube ( 24 ) and the ground ( 10 ) of the fermentation chamber ( 6 ) is sealed. Method according to one of the preceding claims, characterized in that the auxiliary mounting tube ( 24 ) at his on the ground ( 10 ) of the fermentation chamber ( 6 ) attaching end a circumferential seal ( 30 ), which at the onset of the auxiliary assembly tube ( 24 ) in the fermentation reactor ( 2 ) on the ground ( 10 ) of the fermentation chamber ( 6 ) is placed. Method according to one of the preceding claims, characterized in that in the auxiliary assembly tube ( 24 ), at least up to one for humans ( 38 ) are sucked harmless concentration. Method according to one of the preceding claims, characterized in that the carrier ( 12 ) firmly to the ground ( 10 ) is connected. Method according to one of the preceding claims, characterized in that the carrier ( 12 ) at least partially as a tube with at least one inlet opening ( 50 ) and at least one exit opening ( 52 ) is formed, between which a stirrer ( 54 ) for transporting fermentation substrate ( 4 ) from the entrance opening ( 50 ) to the exit opening ( 52 ) is arranged. A method according to claim 9, characterized in that in the at least partially tubular support ( 12 ) a heating system is used. Method according to one of the preceding claims, characterized in that the fermentation reactor ( 2 ) with a low pressure gas storage ( 64 ) is connected. Method according to one of the preceding claims, characterized in that the new roof ( 40 ) is thermally insulated on the outside. Method according to one of the preceding claims, characterized in that a membrane ( 42 ) of the new roof system ( 40 ) a gas space ( 20 ) above the fermentation chamber ( 6 ), whose elongation of stabilizing elements ( 44 ), the stabilizing elements ( 44 ) outside the gas space ( 20 ) between the side walls ( 8th ) and the carrier ( 12 ) or one with the carrier ( 12 ) holding device ( 46 ) to be ordered.