• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    The subject of the invention is a cover module (10) for a methanization tank. The cover module (10) includes a cover (12) and a support structure (14). The cover (12) includes a central area (12A) and a peripheral area (12C). The support structure (14) is connected to said cover (12) and is configured to hold said cover (12) above organic matter. The cover (12) comprises at least one collecting tank (120) for rainwater extending from the internal face of the peripheral zone (12C) and opening onto the external face of the peripheral zone (12C). The support structure (14) is configured to allow the guiding, by the peripheral zone (12C), of the rainwater received by the external face of the cover (12) towards at least one collection point (120).
    公开号:FR3083219A1
    申请号:FR1855870
    申请日:2018-06-28
    公开日:2020-01-03
    发明作者:Julien Of;Richard Morisan
    申请人:Adg Ateliers Des Graves;
    IPC主号:
    专利说明:

    WATER COLLECTOR COVER MODULE FOR METHANIZATION TANK
    TECHNICAL FIELD AND OBJECT OF THE INVENTION The present invention relates to anaerobic digestion and more particularly a cover module for anaerobic digester. The cover module according to the invention makes it possible in particular to guide and collect rainwater in order to avoid the formation of pockets of water on the cover of the module.
    STATE OF THE ART Methanation of organic matter is a known anaerobic natural process which makes it possible to transform organic matter, especially agricultural matter, into biogas. Methanation is carried out by biological degradation of organic matter by a microbial consortium comprising bacteria. It is thus notably known to transform into biogas the fermentable fraction of manure producing manure producing manure, such as for example bovine, palmiped or pig manure, by disposing these effluents in a manure pit arranged in the ground.
    In order to make the pit at least partially watertight and to improve the efficiency of anaerobic digestion, it is known to cover it with a flexible tarpaulin. However, such a solution does not make it possible to capture the biogas resulting from the transformation of the fermentable fraction of livestock effluents. Also, when it is desired to collect the biogas resulting from the transformation of the fermentable fraction of organic matter, it is necessary to deposit the effluents in a methanization tank, also called methanizer.
    A methanizer comprises, in known manner, a tank called a digester, in which organic materials are placed, and a device for collecting biogas. In a first type of methanizer, the tank is of cylindrical shape, closed at its ends and, for example, made of metal. The organic matter is transported inside the tank through a conduit connected to the base of the tank and the biogas collection device is in the form of a discharge pipe connected to the upper part of the tank. In a second type of methanizer, the tank is buried in the ground, the organic matter is conveyed inside the tank by a conduit and the biogas collection device is in the form of a cover module mounted on the - above the tank.
    Thus, in a solution described in document EP0827681B1, the cover module comprises a flexible cover mounted on a support frame to which is connected a biogas discharge pipe. The tarpaulin support frame comprises a plurality of metal posts fixed directly to the tank. In another solution, described in patent application WO9828402A1, the covering module comprises a central post supporting a covering stretched so as to form a form a pyramidal structure making it possible to guide the biogas towards the post where it is collected via a plurality of orifice and pipes.
    These types of cover modules prove to be complex and expensive to manufacture and install, which has significant drawbacks. In addition, in these solutions, the interior space of the tank is fixed so that the efficiency of anaerobic digestion varies with the volume of organic matter contained in the tank. In particular, when there is little organic matter in the tank, the volume of air stagnating above the effluents is such that methanation is slow and ineffective, which has a significant drawback. In addition, in such solutions, rainwater is not collected by the cover module and therefore cannot be reused, in particular to carry out the necessary spreading on organic materials. Finally, the conversion of a slurry tank, made of concrete, into an anaerobic digester by installing a cover module can generate mechanical stresses on the tank that were not planned during its design and cause de facto cracks in concrete, which has a major drawback.
    In order to at least partially remedy these drawbacks, it is known to use a flexible sheet which moves with the volume of organic matter. The cover, made of a flexible plastic material, takes the form of a raised dome in its central area, the internal volume of which allows the biogas to be collected, the edges of the cover resting against the walls of the tank. When it rains, rainwater collects in the lower peripheral part of the cover. In doing so, rainwater can form pockets, the weight of which can deform the flexible material of the peripheral zone and thus distance the edge of the cover from the walls of the tank so that the atmosphere in the tank is no longer anaerobic, which significantly reduces the efficiency of anaerobic digestion. It is therefore necessary to drain the rainwater accumulated on the surface of the peripheral area of the cover.
    For this purpose, it is known to use a pump which discharges the rainwater accumulated on the surface of the peripheral area of the cover. However, from one rainy episode to another, rainwater can accumulate at different locations in the peripheral zone of the cover, not necessarily over the entire surface of said peripheral zone. In such a case, when the location (s) in the peripheral area of the cover where rainwater has accumulated is not within reach of the pump's suction nozzle, it cannot be evacuated, which can move the edge of the cover away from the walls of the tank and thus cause the aforementioned drawbacks.
    It is therefore necessary to move the lift pump to each place where rainwater has accumulated in order to suck it up. Such a method can prove to be particularly tedious and time-consuming and also requires the presence of one or more operators to move the lifting pump on each rainwater accumulation zone, which can prove to be particularly expensive and present. therefore significant drawbacks.
    The invention aims to solve at least partially these drawbacks by proposing a cover module solution which is both reliable, efficient, robust, quick to install and which allows efficient, rapid and easy removal of water from rain.
    GENERAL PRESENTATION OF THE INVENTION For this purpose, the invention firstly relates to a cover module for methanizer, said methanizer comprising a tank adapted to receive organic matter and comprising a bottom and at least one wall vertical delimiting an opening, said covering module comprising:
    - a cover, made of a flexible material, configured to extend in said opening, said cover comprising a central zone and a peripheral zone and having an external face, intended to receive rainwater, and an internal face, intended to extend over organic matter,
    a support structure connected to the cover at the level of said peripheral zone and configured both to maintain said cover above the organic materials and to move vertically along the wall of the tank with the organic materials, the module of cover being remarkable in that the support structure is configured to allow the guiding, by the peripheral zone, of rainwater received by the external face of the cover towards at least one collection point making it possible to evacuate rainwater of said outer face.
    The cover module according to the invention therefore advantageously makes it possible to route rainwater to one or more collection points in order to evacuate it from the external face and thus avoid the formation of pockets of rainwater on said face. external. In particular, the support structure makes it possible to stiffen the peripheral zone in order to prevent it from deforming under the weight of rainwater while guiding the rainwater towards the collection point or points. The peripheral area, thus structured by the support structure, allows water to flow without obstacles, thus avoiding the formation of pockets. The rigidity of the peripheral zone allows good separation of slurry and rainwater. The support structure allows the tarpaulin to be pressed against the wall or walls of the tank in order to prevent the tarpaulin from rising too high in its center. The dome formed in the center by the inflation of the tarpaulin drains rainwater towards the periphery of the cover which then guides them towards at least one collection point. The inflation is thus balanced so that the cover module remains floating and well flat at its peripheral zone. In addition, the structure of the cover module, in particular the support structure and the cover, makes it possible to create an anaerobic atmosphere very quickly at the start of the methanization, which allows rapid growth of bacteria and therefore of biogas production while limiting the risks of the formation of an explosive atmosphere, known as ATEX (Explosive Atmosphere), the oxygen content of which is greater than 6% and the methane rate is between 5 and 15% of the total gases.
    Preferably, the support structure extends over a width of the peripheral zone greater than or equal to 30 cm in order to effectively stiffen the cover and thus effectively guide the rainwater to the collection point or points.
    Advantageously, the peripheral zone extends along a plane substantially parallel to the terrestrial horizontal (i.e. with an angle of + or - 3 ° relative to the terrestrial horizontal). Alternatively, the peripheral zone can be inclined in portions, for example by an angle greater than or equal to + or - 3 °, so as to guide rainwater quickly and efficiently to the collection point or points.
    According to one aspect of the invention, the support structure comprises an outer frame connected to the edge of the cover, and an inner frame, connected on the one hand to said outer frame and on the other hand to the cover at of the peripheral zone so as to stiffen the surface of the peripheral zone between the outer frame and the inner frame.
    In one embodiment, the outer frame comprises a plurality of tubular elements connected in pairs by connecting elements so as to form a peripheral flotation edge of the cover module.
    Advantageously, the edge of the cover module is of polygonal shape or of circular shape.
    Preferably, the tubular elements are hollow so as to lighten the support structure and make it easy to move the covering module along the wall or walls of the tank.
    In one embodiment, each connecting element comprises two tubular portions, each receiving the end of a tubular element, and a support plate extending from the lower part of the tubular portions towards the central zone of the cover.
    Advantageously, the support plate extends substantially horizontally. By the terms "substantially horizontally" is meant with less than 5 ° of inclination relative to the terrestrial horizontal.
    Advantageously also, the support plate is connected to the cover in order to further stiffen the peripheral area of the cover.
    According to a feature of the invention, the cover comprises a plurality of loops and the internal frame of the support structure comprises at least one cable connecting the support structure, preferably at the level of the support plates of the elements of connection, through said passers-by in order to stiffen the peripheral zone and avoid the formation of water pockets while effectively guiding rainwater towards at least one collection point.
    In one embodiment, two adjacent connecting elements are connected by the same cable. In one embodiment, the number of cables is equal to the number of tubular elements. Alternatively, a single cable can connect all the connecting elements together.
    In one embodiment of the cover module, the or at least one of the collection points is a rainwater collection tank extending from the internal face of the peripheral zone and opening onto the external face of the peripheral zone.
    Preferably, the at least one collection reservoir extends vertically downwards from the internal face of the peripheral zone of the cover.
    According to a characteristic of the invention, the at least one collection tank is formed in the cover, that is to say that the at least one collection tank is made from material of the cover.
    Advantageously, the cover module comprises at least one lifting pump mounted at least in part, preferably entirely, in the or at least one of the collection tanks in order to evacuate the rainwater stored in said tank. collection, for example via a drain pipe. Preferably, each collection tank comprises a lifting pump.
    In one embodiment, the cover module comprises a plurality of collection tanks arranged along the peripheral zone of the cover in order to efficiently and quickly collect rainwater.
    Advantageously, the collection tanks are evenly distributed around the peripheral area of the cover so that the volume of rainwater is substantially the same in each collection tank, which avoids an imbalance of the masses and a deformation of the cover.
    In one embodiment, each collection tank is arranged in line with a support plate for a connecting element of the outer frame of the support structure, an opening being formed in said support plate so allow rainwater to enter the collection tank.
    As a variant or in addition, the or at least one of the collection points is a suction nozzle of a lifting pump. The lifting pump can for example be mounted outside the tank so as to draw rainwater out of the cover module via a drainage pipe.
    Preferably, the cover module comprises at least one tension sensor making it possible to control the inflation of the cover over the entire surface of the cover in order to ensure that the dome formed by the cover is regular during the use of the cover module.
    The invention also relates to a methanizer comprising a tank and a cover module, as presented above, said tank being adapted to receive organic materials and comprising a bottom and at least one wall defining an opening, said cover module being disposed in the tank so as to extend into said opening.
    Advantageously, the support structure is not linked to the wall of the tank in order to simplify the cover module and the tank as well as the installation of the cover module in the tank.
    PRESENTATION OF THE FIGURES The invention will be better understood on reading the description which follows, given solely by way of example, and referring to the appended drawings given by way of nonlimiting examples, in which identical references are given to similar objects and on which:
    Figure 1 is a perspective view of an embodiment of a methanizer according to the invention, Figure 2 is a sectional view of the methanizer of Figure 1, Figure 3 is a partial perspective view of the module cover of the methanizer of FIG. 1, FIG. 4 is another partial perspective view of the cover module of the methanizer of FIG. 1, FIG. 5 is a partial perspective view of the cover module of the methanizer of FIG. 1, FIG. 6 is a partial view in section and in perspective of the cover module of the methanizer of FIG. 1.
    Note that the figures show the invention in detail to implement the invention, said figures can of course be used to better define the invention if necessary.
    DETAILED DESCRIPTION OF THE INVENTION FIGS. 1 and 2 show an embodiment of a methanizer 1 according to the invention. First, with reference to FIG. 1, the methanizer 1 comprises a tank 2, in which organic materials are placed (not visible), and a cover module
    10. The methanizer 1 allows the transformation of the fermentable fraction of the organic matter contained in the tank 2, the cover module 10 making it possible to capture and evacuate the biogas resulting from said transformation.
    Referring to Figure 2, the tank 2, for example made of concrete, in this example comprises a bottom 2A and a vertical cylindrical wall 2B of circular section. The bottom 2A and the wall 2B delimit an internal space 2C, suitable for receiving organic matter, leading to a 2D opening in which the cover module 10 extends so as to close it.
    The cover module 10 comprises a cover 12 and a support structure 14 on which said cover 12 is fixed.
    The cover 12 is made of a flexible material (for example taking the form of a canvas), preferably a plastic material, capable of taking on a dome shape during the collection of the biogas resulting from the transformation of the fraction fermentable from organic matter. The evacuation of the collected biogas is carried out via an evacuation pipe 20 towards the outside of the methanizer 1, for example towards a biogas storage module (not shown).
    The cover 12 comprises a central zone 12A, a circular central zone 12B and a peripheral zone 12C, all three circular. The cover 12 is connected to the support structure 14 at the peripheral zone 12C. The upper face of the cover 12 constitutes the outer face 12-E of the cover 12, that is to say the face turned towards the sky in order to receive rainwater during a rainy episode. The underside of the cover 12 constitutes the internal face 12-1 of the cover 12 and faces the inside of the tank 2 while covering the organic matter.
    In the illustrated embodiment, the cover module 10 comprises a plurality of rainwater collection points in the form of collection tanks 120 formed in the peripheral zone 12C of the cover 12. Preferably, the collection tanks 120 are equally distributed around the peripheral zone 12C of the cover 12, that is to say that the collection tanks 120 are regularly spaced all around the peripheral zone 12C. Of course, as a variant, the collection reservoirs 120 could be distributed differently, in particular randomly, along the peripheral zone 12C. Similarly, in another embodiment, the cover 12 could comprise only a single collection tank 120. Finally, it will be noted that the collection tanks 120 can have different dimensions depending on the level of collection and storage desired, without that this is not limiting of the scope of the present invention.
    Preferably, each collection tank 120 is formed in the flexible material constituting the cover 12 by being made of material of said material. Each collection tank 120 extends downwards under the cover 12 from the internal face 12-1 of the peripheral zone 12C of the cover 12 and opens in its upper part at the level of the external face 12E of the cover 12 to collect rainwater by gravity.
    An optional central flotation unit (not shown), arranged in the tank 2 on organic matter, can be provided in order to support the cover 12 at its central area 12A. When the cover module 10 does not have a central flotation unit, the elevation of the central zone 12A of the cover 12 can be imparted by a frame supporting the flexible material constituting the cover 12 or else directly by the pressure generated by the biogas. stored under cover 12.
    The support structure 14 is connected to the cover 12 at its peripheral zone 12C so as to maintain the cover module 10 above the organic materials and to allow its vertical movement along the wall 2B of the tank 2, in particular to accompany increases or reductions in the volume of organic matter.
    The support structure 14 is configured to allow the guiding, by the peripheral zone 12C, of rainwater received by the external face 12-E of the cover 12 towards the collection point or points 120 in order to evacuate the rainwater from said outer face 12-E.
    The support structure 14 comprises an outer frame, connected to the edge of the cover 12 and an inner frame, connected on the one hand to said outer frame and on the other hand to the cover 12 at the peripheral zone 12C so as to stiffen the portion of the peripheral zone 12C between the outer frame and the inner frame.
    In the nonlimiting example illustrated in Figures 3 to 5, the outer frame is of polygonal shape and comprises a plurality of tubular elements 15 connected together in pairs by connecting elements 16, each tubular element 15 constituting one side of the polygon.
    Each connecting element 16 is integral and metallic and comprises two tubular portions 161, a support plate 162 and two connecting rods 163 making it possible to reinforce the connecting element 16.
    Each tubular portion 161 is adapted to receive the end of a tubular element 15 so as to form the assembly of the support structure 14. In this example, the two tubular portions 161 are not coaxial but their axes longitudinal form an angle less than 180 ° making it possible to impart its polygonal shape to the support structure 14.
    The support plate 162 extends from the lower surface of the two tubular portions 161 along a substantially horizontal plane and is connected to the two tubular portions 161, at their median zone, by two connecting rods 163 flat in order to stiffen the connection element 16. More precisely, as illustrated in FIG. 5, each support plate 162 comprises a connection end 162A connected to the two tubular portions 161 and a free end 162B extending in the direction of the central zone 12A of the cover 12, the two connecting rods 163 being connected to the support plate 162 at its free end 162B.
    The inner frame comprises a plurality of cables 18 connecting the support plates 162 of the outer frame two by two. More specifically, two support plates 162 of two adjacent connecting elements 16 are connected by a cable 18, each end of which is fixed at the free end 162B of the support plate 162 which it connects. Loops 19 keep the cover 12 fixed to the cables 18 in order to stiffen the support structure 14 and in particular to keep the peripheral zone 12C substantially horizontal.
    The connecting elements 16, the cables 18 and the passers-by 19 thus make it possible to keep the flexible material of the peripheral zone 12C of the cover 12 taut and substantially horizontal so that said the peripheral zone 12C guides the rainwater towards the collection tanks 120 and thus prevents the formation of rainwater pockets on the external face 12-E of the cover 12. In other words, the connecting elements 16, in particular the support plates 162, the cables 18 and the passers-by 19 constitute holding members which make it possible both to prevent the deformation of the peripheral zone 12C by rainwater, in particular by keeping it substantially horizontal, and to guide said rainwater towards the collection tanks 120 to avoid that rainwater does not accumulate and deform the peripheral zone 12C.
    In the embodiment described, without limitation, each collection tank 120 is arranged in line with a support plate 162 of a connecting element 16. In order to collect rainwater, an opening 164 is formed in the support plate 162 placed above each collection tank 120 in order to allow the passage of rainwater through said opening 164 into said collection tank 120.
    Preferably, the support structure 14 prevents the deformation of the peripheral zone 12C at least over a width greater than or equal to 30 cm. In other words, the length of the support plates 162 is greater than or equal to 30 cm.
    Referring to Figure 6, the cover 12 comprises a first portion 12C1, from material of the cover 12, partially wound around the tubular elements 15 to fix the cover 12 to the support structure 14, and a second portion 12C2, also made from material of the cover 12, extending downwards, from the tubular elements 15, along the wall 2B of the tank 2 and serving to ballast the support structure 14 so that the edge of the module cover 10 remains pressed as much as possible against the wall 2B of the tank 2. To this end, in this example, the second portion 12C2 comprises a lower edge 12C2-1 curved around a ballast bar (not visible), by example made of metal.
    Preferably, each collection tank 120 comprises a lifting pump (not shown), for example of cellar type, making it possible to pump rainwater stored in the collection tanks 120. These lifting pumps allow evacuate the rainwater stored in the collection tanks 120 towards the outside of the cover module 10, in particular in order to prevent the collection tanks 120 from overflowing and deforming the peripheral zone 12C.
    权利要求:
    Claims (10)
    [1" id="c-fr-0001]
    1. Cover module (10) for methanizer (1), said methanizer comprising a tank (2) adapted to receive organic matter and comprising a bottom (1A) and at least one vertical wall (1B) delimiting an opening (1C) , said cover module (10) comprising:
    - a cover (12), made of a flexible material, configured to extend in said opening (1C), said cover (12) comprising a central zone (12A) and a peripheral zone (12C) and having an external face ( 12-E), intended to receive rainwater, and an internal face (12-1), intended to extend above organic matter,
    - a support structure (14) connected to the cover (12) at the level of said peripheral zone (12C) and configured both to maintain said cover (12) above the organic materials and to move vertically along the wall (1B) of the tank (1) with organic matter, the covering module (10) being characterized in that the support structure (14) is configured to allow guidance, by the peripheral zone (12C), rainwater received by the external face (12-E) of the cover (12) towards at least one collection point (120) making it possible to evacuate rainwater from said external face (12-E).
    [2" id="c-fr-0002]
    2. Cover module (10) according to claim 1, wherein the support structure (14) extends over a width of the peripheral zone (12C) greater than or equal to 30 cm.
    [3" id="c-fr-0003]
    3. Cover module (10) according to one of the preceding claims, in which the support structure (14) comprises an external frame, connected to the edge of the cover (12) and an internal frame, connected on the one hand to said outer frame and on the other hand to the cover (12) at the peripheral zone (12C) so as to stiffen the surface of the peripheral zone (12C) between the outer frame and the inner frame.
    [4" id="c-fr-0004]
    4. Cover module (10) according to the preceding claim, wherein the outer frame comprises a plurality of tubular elements (15) connected in pairs by connecting elements (16).
    [5" id="c-fr-0005]
    5. Cover module (10) according to the preceding claim, wherein each connecting element (16) comprises two tubular portions (161), each receiving the end of a tubular element (15), and a support plate ( 162) extending from the lower part of the tubular portions (161) in the direction of the central zone (12A) of the cover (12).
    [6" id="c-fr-0006]
    6. Cover module (10) according to the preceding claim, wherein the cover (12) comprises a plurality of loops (19) and the inner frame of the support structure (14) comprises at least one cable (18) connecting the support structure, preferably at the level of the support plates (162) of the connecting elements (16), through said loops (19).
    [7" id="c-fr-0007]
    7. Cover module (10) according to one of the preceding claims, in which the at least one collection point is a collection tank (120) for rainwater extending from the internal face (12-1 ) from the peripheral zone (12C) and opening onto the external face (12-E) of the peripheral zone (12C).
    [8" id="c-fr-0008]
    8. Cover module (10) according to the preceding claim, in which the collection tank (120) is made from material of the cover (12).
    [9" id="c-fr-0009]
    9. Cover module (10) according to one of claims 7 and 8, said cover module (10) comprising at least one lifting pump mounted at least partly in the at least one collection tank (120) so to evacuate rainwater stored in said tank
    15 collection (120).
    [10" id="c-fr-0010]
    10. Cover module (10) according to one of the preceding claims, wherein the at least one collection point is a suction nozzle of a lifting pump.
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    同族专利:
    公开号 | 公开日
    EP3591031B1|2021-03-24|
    EP3591031A1|2020-01-08|
    PL3591031T3|2021-10-25|
    FR3083219B1|2020-05-29|
    ES2877054T3|2021-11-16|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    EP0827681B1|1996-08-07|2000-11-08|Jacques Rivoal|Cover system in polyester sheeting for covering liquid manure cisterns|
    WO1998028402A1|1996-12-20|1998-07-02|Gerhard Hermann|Biogas fermenter|
    EP2175015A1|2008-10-07|2010-04-14|Ecomembrane S.R.L.|Floating cover for tanks for storing liquids|
    WO2014155368A2|2013-03-29|2014-10-02|Jalote Anupam|Poly-phasic biodigester and its method of biogas production from multiple organic wastes|CN113371344A|2021-06-17|2021-09-10|中弘致远建设有限公司|Intelligent pontoon based on wireless network for open oil tank|
    FR3108120A1|2020-03-12|2021-09-17|Adg - Ateliers Des Graves|Cover module, anaerobic digestion system and system|
    法律状态:
    2019-06-19| PLFP| Fee payment|Year of fee payment: 2 |
    2020-01-03| PLSC| Publication of the preliminary search report|Effective date: 20200103 |
    2020-06-19| PLFP| Fee payment|Year of fee payment: 3 |
    2021-06-22| PLFP| Fee payment|Year of fee payment: 4 |
    优先权:
    申请号 | 申请日 | 专利标题
    FR1855870|2018-06-28|
    FR1855870A|FR3083219B1|2018-06-28|2018-06-28|WATER COLLECTOR COVER MODULE FOR METHANIZATION TANK|FR1855870A| FR3083219B1|2018-06-28|2018-06-28|WATER COLLECTOR COVER MODULE FOR METHANIZATION TANK|
    EP19179657.2A| EP3591031B1|2018-06-28|2019-06-12|Water collectcing cover for methanation tank|
    ES19179657T| ES2877054T3|2018-06-28|2019-06-12|Cover with water collector for methanization tank|
    PL19179657T| PL3591031T3|2018-06-28|2019-06-12|Water collectcing cover for methanation tank|
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