DE3138452A1 - Device for treating biomass to recover methane gas - Google Patents

Abstract

A device for treating biomass from any organic materials for methane gas recovery by anaerobic fermentation is characterised in that a water-cooled internal combustion engine (1) fulfils three main functions: that of the shredder drive (2), that of the stirrer drive (3) in conjunction with a rake (4) for destroying floating covers, and that of digestion tank heating (5) which is designed as direct heating by waste gas heat and is controlled via a thermostat circuit (9), by giving the pulse for starting and stopping the internal combustion engine (1), and in that the engine waste heat (12) and the waste gas heat (11) of the internal combustion engine (1) additionally serve for heating the process water, and furthermore characterised in that, in relatively large plants with power generation from biogas, the generator motor (13) undertakes the function of the digestion tank heating (5) by its waste gas heat, in that the waste gas heat (15) additionally serves for heating the process water and in that a heating circulation is connected to the water cooling system (16) of the generator motor (13), and furthermore characterised in that an effective insulating layer (8) of rigid foam around an iron skeleton frame (17) surrounds the digestion tank (7) as a unit, fixes the holders (18) of the heating coils (5) and serves as a tightly closed protection trough and as transport packaging or external design of a compact unit ready for connection. <IMAGE>

Description

Device for the treatment of biomass for

Methane gas production The invention relates to a device for Treatment of biomass from all organic substances of plant and animal origin Origin and their metabolic products, especially from agricultural ones Production waste, liquid manure, manure, sewage sludge and waste from canteen kitchens and slaughterhouses, for the production of methane gas through anaerobic fermentation.

This type of regenerative energy generation through microbial methane fermentation Organic waste in the absence of air in a biogas plant is one, except for a few Areas, neglected energy source, characterized by significant merits is: The raw materials such as manure, emergency, sewage sludge, food waste and production waste from agriculture are plentiful and readily available.

Conventional disposal of this waste material often represents one additional work and costs and pollutes the environment Operation of a biogas plant is not applicable0 The methane gas obtained from the process has has a high calorific value and is versatile in its applicability.

As a useful by-product, the result is largely sanitized, hardly any even more foul-smelling fertilizer with an even better effect.

The reason for the low use of this energy source despite many advantages lies in the controversial effectiveness of biogas plants, what the ratio of real energy yield in relation to investment and operating costs. These Investment and operating costs, in turn, result from the requirements of anaerobic methane fermentation to the treatment of the digested material through appropriate devices that lead to optimal Process conditions should lead: So must with the use of different types of putrefaction the possibility of shredding bulky or lumpy pieces of waste a chopper can be guaranteed.

There must be a continuous and easy but precisely metered exchange fresh fillings and rotten food are possible.

In order to accelerate the fermentation process, the digested material must be in the Digester are heated.

In order to achieve a uniform temperature distribution and solids distribution, uninhibited degassing and the destruction and removal of the floating cover achieve the biomass must be circulated and its surface # fair.

To counteract sudden temperature fluctuations and to provide a Achieving good heating energy evaluation is essential for effective insulation of the digester to care.

Against damage to the groundwater caused by leaks in the digester and it should be surrounded by a protective trough against damage from the outside be.

It is known to use choppers, pumps, Install digester heaters and mechanical agitators or compressors, as well Measuring and control devices that guarantee optimal treatment of the biomass (Offenlegungsschrift D # 29 39 169 A1; DE 29 44 584 A1).

It is also known that the circulation, the destruction of the swimming decks and spreading the digested sludge already without additional units only with the help of the resulting gas pressure as a working medium (Offenlegungsschrift DE 29 19 532 A1).

However, there is no attachment of the aforementioned sites without digester heating, as the optimal temperature ranges for mesophilic digestion at 30-35 ° O and thermophilic digestion at 55-60 ° O. It is preferred used three heating systems, using the hot water circuit heating to the Radiators in the digester, the sludge circulation heating with heat exchange outside the Digester by heating coils and the sludge circulation heating by direct addition of steam # (Offenlegungsschrift DE 29 13 034 A1; DE 30 00 356 A1).

But especially the additional units and especially the heating systems and the necessary external energies in the form of electricity, oil, town or natural gas represent the effectiveness of biogas plants, especially the small and medium-sized ones, as they would be of interest to private consumers and agriculture agricultural magazine "dz", volume 32, issue 2/81, SO 208-211; Bernd Je Kaltwasser "Regenerative energy production through anaerobic fermentation of organic waste in Biogas plants ", Bau-Verlag Wiesbaden / Berlin 1980, So70ff) o It also turned out to be in Large systems of several hundred square meters of Faulgut heating according to the stand technology is difficult, as it is one in terms of structure and energy consumption represents considerable expense in terms of costs (laid-open specification DE 29 40 998 A1) 0 The The invention is based on the object that while maintaining the optimal process conditions with a minimum of process energy for aggregates and digester heating that Any type of organic waste can be processed in the biogas plant and that a user-friendly operation and layout is created.

According to the invention, this object is achieved in that an in consumption Economical and well-coordinated drive unit in the form of a water-cooled Combustion engine serves three main functions: the function of the chopper drive, the function of the agitator drive, in connection with a rake for the destruction of the floating roof and the function of the digester heating, designed as direct exhaust gas heating, in the form of spirals of a flexible, corrosion-resistant metal tube, which around around the digester, im Air space between the insulation layer and the digester wall are arranged progressively increasing downwards that a thermostat switch with a temperature sensor in the digester gives the impulse to start and switching off the drive unit and that, in order to obtain the required process energy, here in the form of fuel, even better to evaluate, the drive unit in addition still fulfills the function of domestic water heating, as a combination of direct Exhaust heat heating with an engine waste heat heater based on the heat exchanger principle.

According to a further embodiment of the invention, for larger Plants with excess biogas are used to generate electricity in such a way that a The exhaust pipe from the generator motor leads to the digester and the function of the digester heating ensures that a heat exchanger is attached to the exhaust pipe for pre-cooling, which serves the function of domestic water heating and that the .iasserkühlsystem des Generator engine is connected to a heating circuit as an engine waste heat heater.

Furthermore, the invention is designed in that an effective Insulation layer made of foamed hard foam around an iron skeleton frame The digester surrounds as a unit that the brackets of the heating coil are made of rigid foam be fixed that the insulation layer as a closed sealing or. Protective tray serves and also as transport packaging or exterior design in the manner of a mobile, ready-to-connect compact system.

The advantages achieved with the invention are in particular: that by fulfilling all functions required for the treatment of the biomass with only one combustion engine as a drive unit with the possibility of waste heat utilization, the process energy required is only a few percent of the biogas energy obtained That means lower investment and Operating costs are incurred and that the operation of the system is significantly simplified. There are also advantages that by using the chopper every kind of putrefaction is processed can that through the use of exhaust gas and engine waste heat domestic water at process temperature is heated and no cooling of the biomass takes place when the fresh food is filled, what saves heating energy, that when operating a larger plant by generating electricity of the biogas and the additional use of the generator engine heat as living space heating for example, an even higher efficiency of the biogas plant is achieved and that by this increased efficiency and by the corresponding invention Conception, as far as assembly, operation, leak protection and exterior design are concerned, too small systems for private consumers and medium-sized systems for agriculture and gastronomy can be used profitably. Figures 1 and 2 represent two exemplary embodiments the device according to the invention and are described in more detail below. 1 shows a vertical section through a small to medium-sized system and Figo 2 shows a vertical section through a large plant with biogas conversion, The daily organic waste, such as manure or kitchen waste are entered into the filling basin (19) up to a marked filling line, which corresponds to the calculated daily digester load on fresh goods and which is specified for the various most common types of putrefaction. That The fresh digestion is filled in once a day and is timed coordinated so that it happens when the drive unit (1) is running, i.e. the engine is warm. The drive force is now coupled to the chopper via a gear (2). Simultaneously the necessary for the correct solids content is added via a feed line Domestic water. This is in the form of water cooling when flowing through the heating circuit (12) from the drive unit and when subsequently passing a Heat exchanger spiral cit), which is placed directly around the beginning of the exhaust pipe (6) of the drive unit is heated up. The hot water is also added up to one marked filling line, which corresponds to the calculated optimal solids content of 5 # 1O, 0 / c and which is also applicable to various most common types of Rottengut is indicated. At the same time, the chopper's knife (20) makes the Rotten material is crushed and mixed, so that it is ideal for the anaerobic process Consistency and solids distribution arise. By using the waste heat Heated service water for mixing is firstly a better use of the Process energy guaranteed, secondly, it is avoided that when the fresh goods enter in the digester (7) a sudden temperature decrease of the biomass and thus a Disturbance of the anaerobic construction process arises and that, thirdly, no process energy is lost in the form of heating that would be necessary after the temperature drop Bring biomass back to the ideal temperature of approx. 3300. The exchange the so prepared fresh putrefaction with the rotten good is done by means of the principle of communicating tubes. Open the valves on the inlet (21) and outlet pipes (22) so the same amount escapes that also flows in. To continue for ideal lazy conditions to ensure the biomass is slowly circulated in the digester (7), causing a settling of Feat constituents is avoided and the degassing, as well as the contact between Methane bacteria and nutrients are promoted. This is done with an agitator (3) in the form of a screw conveyor that carries the biomass upwards in a pipe (23) promotes and thus ensures the upheaval. Located on the axis (24) of the agitator (3) a rake (4) for tearing open the floating cover layer.

The drive for the agitator is also done by means of one Drive unit (1) via a power transmission for the correct speed for conveying. The operating cycle of the drive unit (1) is controlled by a thermostat (temperature sensor (10)) regulated automatically. If the temperature of the biomass falls below 3300 it is over a hermostatic circuit (9) the starter of the drive unit (1) actuated. The guide plant (3) begins to run and the resulting exhaust gases are passed through the spirals of a flexible metal tube (5) and heat over the Air space between the insulation layer (8) and the septic tank wall, in which the heating coils are also located (5) are arranged in such a way that the distance between the individual turns according to progressively decreases at the bottom, that is, the turns are closer at the bottom than above and thus the lower heating efficiency due to the heat dissipation is balanced, the biomass on, until at approx. 3500 the impulse to switch off the Drive unit is given.

If you increase the switch-off difference to 500, i.e. from 3000 0 to 35 0, which is still in the ideal temperature range, the drive unit (1) is running correspondingly less often but longer insulation plays an essential role in this through their effectiveness, the number of heating intervals and thus the process energy in turn can be reduced. The insulation layer (8) should consist of a 10-15cm strong foamed hard foam layer with a foamed iron skeleton frame (17) for reinforcement, which is made of glass fiber reinforced in the digester wall of the digester tank (7) Plastic is anchored. The rigid foam is also intended to hold the brackets (18) of the heating coils fix, completely enclose the digester (7), seal it and protect it against damage protect from the outside. The biogas plant completed in this way is transportable and by adding several systems (Fig. 2) the amount of raw material be adapted, with the conversion of electricity from biogas by a stationary, water-cooled Motor (13) with generator (14), which runs continuously, is made, wherein now the resulting exhaust gas quantity and heat is much higher and the generator motor now takes over the function of the digester heating (5). The necessary domestic water can now only through the ~ heat exchanger (15) on the exhaust pipe (6) of the generator motor are heated, then the water cooling system of the generator motor (16) to additional operation of a heating circuit for heating a living area, for example can be used. According to the invention designed in this way The biogas plant can stand free and does not require any structural preparations. she can when using a supply and exhaust air system for the drive unit (1) and the generator motor (13) can also be operated in closed rooms.

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Claims (1)

Device for the treatment of biomass for methane gas production P a t e n t a n s p r ü c h ~ e device for the treatment of biomass from all organic substances of plant and animal origin and their metabolic products, in particular from agricultural production waste, liquid manure, manure, sewage sludge and waste from canteen kitchens and slaughterhouses, for the production of methane gas Anaerobic fermentation characterized by the following features: 1 one in consumption Economical and well-coordinated drive unit in the form of a water-cooled Combustion engine (1) serves three main functions: 1,1 the function of the chopper drive (2), 1,2 the function of the agitator drive (3), 10201 in connection with a rake (4) for the destruction of the floating deck 1.3 and the function of the digester heating (5), 1 o 301 designed as a direct exhaust gas heat heater, 10302 in the form of spirals a flexible, corrosion-resistant metal pipe (5) around the digester (7), down in the air space between the insulation layer (8) and the digester wall are arranged progressively increasing, 2 a thermostat circuit (9) with a The temperature sensor (10) in the digester gives the impulse to start and stop the Motor (1), 3 the drive unit (1) also serves to heat the domestic water, 3.1 as a combination of a direct exhaust gas heat heater (11) 3.2 with an engine waste heat heater (12) according to the # heat exchanger principle, 4 for larger plants with biogas power generation a stationary, water-cooled internal combustion engine (13) serves as the drive for the Generator (14), 4.1 an exhaust pipe (6) leads from the engine (13) to the digester (7) and sets the function of the digester heating (5), 4.2 on the exhaust pipe (6) A heat exchanger (15) is attached for pre-cooling, which functions to heat the domestic hot water fulfilled, 4.3 on the water cooling system of the engine (16) is a heating circuit as engine waste heat heater connected, 5 an effective insulation layer (8) made of foamed hard foam around an iron skeleton frame (17) surrounds the digester (7) as a unit, 5.1 the Holders (18) of the heating coil (5) are fixed by the rigid foam (8), 5.2 the Insulation layer (8) serves as a closed sealing or protective trough, 5.3 and as Transport packaging or exterior design in the manner of a mobile, ready-to-connect Compact system. the features 4 and 5 the preamble of the subclaims and the other features form the identifying part.