DE202006013772U1 - Biogas production plant comprises housing, fermentation tank to receive fermentation material, biogas storage connected with the fermentation tank, and feeding device to supply solid fermentation material into the fermentation - Google Patents

Abstract

The biogas production plant comprises agitator arranged in the fermentation tank to agitate fermentation material, and housing (2) attached together into a transportable unit. The dimensions of the housing are 12 m length, 2.4 m width and 2.6 m height. The housing comprises fermentation chambers, storage cover foil augers and filler nozzle.

Description

• a) mindestens einem Fermentierbehälter zur Aufnahme eines Fermentiergutes;
• b) mindestens einem Gasspeicher, der mit dem Fermentierbehälter kommuniziert und das sich dort entwickelnde Biogas aufnimmt;
• c) mindestens einer Beschickungseinrichtung, mit welcher insbesondere stark feststoffhaltiges Fermentiergut aufbereitet und in den Fermentierbehälter eingebracht werden kann;
• d) mindestens einem Rührwerk, welches in der Lage ist, das im Fermentierbehälter befindliche Fermentiergut zu rühren.

The invention relates to a plant for the production of biogas with

• a) at least one fermentation container for receiving a Fermentiergutes;
• b) at least one gas storage, which communicates with the fermentation tank and receives the developing there biogas;
• c) at least one charging device with which, in particular, highly solids-containing fermented material can be processed and introduced into the fermentation container;
• d) at least one stirrer, which is able to stir the Fermentierbehälter located in Fermentierbehälter.

Known Such biogas plants, as they are currently on the market, have a fermentation tank on, which is made locally, ie at the point at which the plant should produce biogas. In very many cases will the fermentation tank, the z.T. record significant volumes and withstand significant pressures should, concreted. The other facilities, especially the Gas storage, the feeder, the agitator and their operation required mechanical, electrical or electronic additional components are then grown on site.

These Type of production of biogas plants at their operating point is associated with a considerable amount of time, especially as the weather conditions the construction process delay can. There is also a quality control while the manufacturing process relatively difficult. After expiry of the useful life of the biogas plant is their degradation and disposal with similar ones Schierigkeiten connected. Above all, it is not always complete simply, these locally created biogas plants structurally to each to disposal adjust standing Fermentiergut.

task The present invention is a plant for the production of Biogas of the type mentioned to create, with the mentioned disadvantages largely eliminated are.

• e) ein Gehäuse, in dem die oben unter a) bis d) genannten Einrichtungen zu einer transportablen Einheit zusammengefaßt und betriebsbereit montiert sind und dessen Abmessungen 12 m in der Länge, 2,40 m in der Breite und 2,60 m in der Höhe nicht überschreiten, insbesondere mit den Abmessungen eines Norm-Containers übereinstimmen.

This object is achieved in that the system comprises:

• e) a housing in which the above mentioned under a) to d) facilities are combined into a portable unit and mounted ready for use and its dimensions 12 m in length, 2.40 m in width and 2.60 m in height do not exceed, in particular to match the dimensions of a standard container.

basic idea The present invention is a portable system for To provide generation of biogas. This portable system can factory pre-assembled and tested for functionality.

The Dimensions of the housing are chosen that the Transport via public Streets without special permission possible is. You choose especially for the housing the dimensions of a standard container, all transport and handling means available, for standard containers are widespread.

A inventive plant for example, can be transported to a specific location and There, they are put into function to the optimal operating parameters for the available there Determine fermentation material. Once this has happened, the system can moved to another location and by a stationary plant for the production of biogas great capacity be replaced.

Of course it is but it is also possible, inventive systems permanently used where not too large capacity is required.

One embodiment The invention will be explained in more detail with reference to the drawing; it demonstrate

1 a vertical section through a biogas plant according to line II of 2 ;

2 a top view of the biogas plant of 1 with removed memory cover foil.

The illustrated in the drawing and in total by the reference numeral 1 characterized biogas plant is characterized primarily by a substantially cuboidal housing 2 with a length of 11.5 m, a width of 2.2 m and a height of 2.2 m, the dimensions of a standardized 40-foot container. The housing 2 remains below the dimensional limits that apply under public law in Germany for license-free transports. These dimensions are a maximum of 12 m in length, 2.40 m in width and 2.60 m in height.

The floor 3 of the housing 2 relies on a kind of rust 3 from longitudinally and transversely extending profile beams on the base of the site of the biogas plant 1 from.

In the case 2 are all aggregates and components that are required for the function of a biogas plant. After the installation of the biogas plant 1 So it is sufficient, if necessary, external connections (water and / or electrical connections etc.) to establish the operational readiness of the biogas plant 1 to obtain.

The arrangement and design of the most important aggregates and components of the biogas plant 1 are as follows: In a leftmost chamber in the drawing 4 of the housing 2 there is a storage container 5 , This can be through a window 6 in the the top of the case 2 forming ceiling, like that 2 can be found to be filled with solid Fermentiergut. In the interior of the reservoir 5 is the cutting tool 7 a crusher (macerator) arranged, which can be rotated by a motor, not shown in rotation. The cutting tool 7 serves the crushing and mixing of the in the reservoir 5 Entered fermented material. The volume of the reservoir 5 should be sized to provide material for 3 to 4 days. A suitable volume is for example 3 m ³ . As solids-containing materials are essentially silage, green waste, etc. in question.

Through a partition 8th is the chamber 4 from a main fermenting chamber serving as a fermenting tank 9 separated. In this forms in a known manner, which is not explained here, during fermentation biogas. Because of the thereby occurring biochemical processes reference is made to the relevant literature. In the illustrated embodiment, the volume of the Hauptfermentierkammer 9 about 23 m ³ .

Between the main fermenting chamber 9 and a Nachfermentierkammer also serving as a fermentation tank 10 there is an intermediate wall 11 , which does not reach the full room height but an overflow weir between the main fermenting chamber 9 and the Nachfermentierkammer 10 represents. At the partition 11 is a tin 12 fixed so that its upper, horizontal edge at different heights different levels in the Hauptfermentierkammer 9 pretend.

The Nachfermentierkammer 10 has a much smaller volume than the main fermentation chamber 9 ; this volume is about 9 m ³ in the illustrated embodiment.

To the Nachfermentierkammer 10 closes at the right end of the housing in the drawing 2 a machine and control chamber 13 to that of the Nachfermentierkammer 10 through an intermediate wall passing through the complete housing height 14 is disconnected.

Both the main fermenting chamber 9 as well as the Nachfermentierkammer 10 are traversed by a stirrer, the overall reference numeral 15 wearing. This in turn comprises a horizontal stirring shaft 16 , which at its in the drawing right end by the intermediate wall 14 passed through and there via a transmission 17 with an electric motor 18 connected is. The stirring shaft 16 is not just in the partitions 14 and 11 but also in three brackets 19 . 20 . 21 stored, in a manner not shown on the side walls and the ceiling of the housing 2 are attached.

At the stirrer shaft 16 is a variety of serving as stirring paddles 22 arranged. These paddles 22 protrude from the stirrer shaft 16 radially outward, axially and angularly offset from each other so that the image of a helix results.

In the left end of the stirring shaft in the drawing 16 is additionally a stripping paddle 23 fastened, the paddle blade is perpendicular to the mounting rod and whose purpose is clear below.

The introduction of the solid Fermentiergutes from the reservoir 5 into the main fermenting chamber 9 serve three screw conveyors 24 . 27 . 30 : a first auger 24 extends horizontally below the reservoir 5 towards the main fermenting tank 9 in the chamber 4 and one is also in the chamber 4 arranged engine 25 set in rotation. An inlet funnel 26 at the bottom of the reservoir 5 guides the fermentation material of the conveyor screw 24 at the outer, in the drawing left end to. The horizontal auger 24 transports the fermented material to the lower end of a vertical conveyor screw 27 from a motor located near its upper end 28 via a gearbox 29 is set in rotation. Also the vertical auger 27 is still completely inside the chamber 4 on the left side of the partition in the drawing 8th , The upper end of the vertical auger 27 in turn stands with the left in the drawing left end of another horizontal conveyor shaft 30 , a so-called "stuffing screw", in conjunction, which the intermediate wall 8th penetrates and at her in the main fermentation chamber 9 protruding end a downward ejection 31 has. The stuffing screw 30 is about a gearbox 33 from a motor 32 driven. engine 33 and gear 32 are also still in the chamber 4 ,

The ceiling of the housing 2 has a relatively large window-like opening 34 on, covering both most of the main fermentation chamber 9 as well as the largest part of the Nachfermentierkammer 10 extends. The window-like opening 34 is especially good in 2 to recognize. At their edges is a memory cover foil 35 made of flexible, gas-tight material tightly fastened. The memory cover foil 35 limited up a gas storage room, which, moreover, through the ceiling of the housing 2 , its side walls, the partitions 8th and 14 as well as the mirror of the main in the fermentation chamber 9 and the Nachfermentierkammer 10 is located limited fermentation.

Inside the window-like opening 34 is a wooden plank ceiling 36 arranged, but which is not gas-tight, so that a gas flow through the wooden plank ceiling 36 can take place in particular from bottom to top. The purpose of this wooden plank ceiling 36 will be explained later.

In the left end of the main fermentation chamber in the drawing 9 and in the right end of the Nachfermentierkammer in the drawing 10 are each in the ceiling of Fermentiergehäuses 2 sight glasses 37 . 38 provided, through which the interior of the corresponding chambers 9 . 10 can be observed.

Near the sight glass 37 are in the ceiling of the case 2 also a pressure relief valve 39 and a vacuum valve 40 (see. 2 ) provided with which an excessively large construction of an overpressure or underpressure in the Hauptfermentierkammer 9 and the Nebenfermentierkammer 10 can be prevented.

Near the bottom of the case 2 flows into the Nachfermentierkammer 10 an outlet pipe 41 which is the intermediate wall 14 interspersed and through the chamber 13 to the right in the drawing front side of the housing 2 extends. About this outlet pipe 41 can the liquid content of Nachfermentierkammer 10 subtracted from.

One also near the bottom of the case 2 arranged pressure sensor 50 measures the hydrostatic pressure generated by the fermentation material, which is in particular a measure of the filling level of the fermented material.

A temperature sensor 51 in the Nachfermentierkammer 10 measures the temperature prevailing there.

This is in the gas storage space below the memory cover film 35 accumulating biogas can via a gas outlet 42 be removed.

Finally, in the ceiling of the case 2 near the ejection 31 the stuffing screw 30 a filler neck 43 intended for liquid Fermentiergut.

The walls of the housing 2 are thermally insulated. Near the side walls of the housing 2 extend on the inside of hot water flowed through heating pipes, one of which, with the reference numeral 44 is provided in the 1 is shown. In the 2 visible ceiling of the housing 2 is with four eyelets 45 provided at those to transport the biogas plant 1 can attack the ropes of a crane or similar lifting device.

The biogas plant described above 1 works as follows:
The storage tank 5 is generally loaded intermittently with solid Fermentiergut, which from this substantially continuously with the help of screw conveyors 24 . 27 and 30 into the main fermenting chamber 9 is transmitted. About the filler neck 43 is added simultaneously or intermittently liquid Fermentiergut so that in the Hauptfermentierkammer 9 The mixture of solid and liquid fermentation material has the right consistency. This mixture is made by the paddles 22 of the agitator 15 mixed, although the agitator 15 even no conveying effect developed, possibly the Fermentiergut something back towards the chamber 4 to push back. The scraper paddle 23 At each turn, strike the mouth of the ejection 31 the stuffing screw 30 from.

In the main fermenting chamber 9 Forms in equilibrium between supplied Fermentiergut and on the sheet 12 in the Nachfermentierkammer 10 overflowing Fermentiergut a Fermentiergutpegel, passing through the upper edge of the sheet 12 is defined. The forming during fermentation gas penetrates at least partially the wooden plank floor 36 and collects below the memory cover foil 35 , which is inflated more or less. The wooden plank ceiling 36 serves the settlement of hydrogen sulfide degrading microorganisms and reinforced by their large surface area this implementation.

Fermentation in the main fermenting chamber 9 thus takes place in continuous operation.

The over the sheet 12 in the Nachfermentierkammer 10 overflowing Fermentiergut is subjected there to a Nachfermentierungsprozeß. Again, to some extent biogas is formed, which up through the film 35 limited storage space is supplied. At the same time the Nachfermentierkammer has 10 the function of a storage container in which the fermented Fermentiergut can collect before it then continuously or discontinuously on the outlet pipe 41 is deducted.

The resulting biogas can from the gas storage room continuously or discontinuously on the gas outlet 42 be recycled.

The described, particularly compact biogas plant 1 is intended primarily for experimental purposes, but can also be used as a full-fledged system of low capacity. It is completely pre-assembled and tested at the factory and then in the factory with the help of the eyelets 45 charged on a corresponding truck, as it is normally used for the transport of standardized containers. At the site becomes the biogas plant 1 then sold as a unit again using a suitable lifting tool, the pad needs to be sufficiently leveled. The outer connections are made and the function of the biogas plant 1 can be recorded.

Once the experiments have been completed and the optimum operating parameters for the available fermentation material are determined, the biogas plant can 1 be transported back and then replaced by a stationary biogas plant of greater capacity, which makes use of the determined Betriebssparametrn.

Claims (1)

Plant for the production of biogas with a) at least one fermentation vessel for receiving a fermentation product; b) at least one gas storage, which communicates with the fermentation tank and receives the biogas developed there; c) at least one charging device with which, in particular, highly solids-containing fermented material can be processed and introduced into the fermentation container; d) at least one agitator which is capable of agitating the fermentation product in the fermentation container; characterized in that it comprises e) a housing ( 2 ), in which the facilities referred to in (a) to (d) above ( 9 . 10 . 35 . 24 . 27 . 30 . 43 . 15 ) are assembled into a transportable unit and are mounted ready for operation and its dimensions do not exceed 12 m in length, 2.40 m in width and 2.60 m in height, in particular to match the dimensions of a standard container.