NL1036955C2 - METHOD AND DEVICE FOR VIRGIN DRY BIOMASS. - Google Patents

Description

Method and device for fermenting dry biomass. Field of the invention

The invention relates to a method for fermenting dry biomass. The invention also relates to a device for fermenting dry biomass. "Dry biomass" means biomass with a dry matter content greater than 20%. In particular, it is about solid biomass, usually with a dry matter content between 20% and 40%, more particularly about unreduced, unprocessed and possibly solid material contaminated with inert material, such as organic waste (vegetable, fruit and garden waste) , mown (roadside) grass, weeds, pruning waste and / or leaves. Background of the invention

Known is the anaerobic fermentation of biomass in which complex organic material is converted by micro-organisms and broken down into compounds with lower molecular masses. The anaerobic fermentation is done in a closed tank. The biogas produced has methane and carbon dioxide as its main components and can be used for the production of electrical energy and heat, part of which can then be used for the process itself. The methane formed is also used as a car fuel or is added to the natural gas network.

Important factors and process parameters for anaerobic fermentation of biomass are: - feeding regime, whereby a distinction can be made between fermenters with a continuous, semi-continuous or quasi-continuous supply and discharge, and discontinuous or "batch" fermenters; - type of food; the quantity and type of material to be fermented (manure, sewage sludge, organic waste, landfill waste, industrial waste; energy corn, elephant grass and / or other organic-biological material); 1036955 2 - dry matter content; the (weight) percentage of the undissolved substance, whereby a distinction can be made between wet biomass (dry matter content <20%) and dry biomass (dry matter content> 20%); - contamination; physical (sand, stones and the like) or substances that influence the biological process (for example antibiotics and cleaning agents); - residence time; the (average) time that the material is in the tank, - temperature; whereby a distinction can be made between cold, unheated or psychrophilic (10-20 ° C), mesophilic (30-40 ° C) and thermophilic (50-60 ° C); digestate; the quantity and type of the remaining fermented material; and 10 - post-treatment; such as separation, composting, drying, fermenting and pasteurizing the digestate, or purifying the biogas or removing the carbon dioxide from it.

At lower dry matter contents, the material to be fermented will be relatively liquid. A stirring device can then be provided in the tank 15 for homogenizing the material, or mixing can be carried out by circulating the material or by introducing gas. At higher dry matter contents, such as with organic waste, the material to be fermented will be relatively solid. Then stirring or mixing is difficult or no longer possible. There are two fundamentally different systems for fermenting Gft: a batch process and a continuous process. The anaerobic fermentation of organic waste is usually followed by an aerobic processing of the digestate into compost.

In the batch process, VGF is fermented in tunnels with gratings in the floors. Fresh gft is mixed with already fermented gft that forms seeding material and is introduced into the tunnels. The fermentation takes place under mesophilic conditions (38-40 ° C). During fermentation, leaked water or leachate is sprinkled over the fermenting material. The material in the digester remains solid. Problems that occur are: - relatively much inoculum is required; the required heating takes a relatively long time, as a result of which the fermentation process starts relatively slowly and takes a relatively long time; - "dead spots" usually arise where little or no fermentation takes place; 3 - at the start-up, the fermentation tank is largely filled with air, and it usually takes several days before a useful biogas mixture, for example with a minimum of 30-40% methane gas, is formed; and - at the end of the process, the volume of biogas present in the tank is not recoverable.

Due to the latter two problems, in practice up to 5% of the methane gas formed is not recoverable or usable, and escapes to the environment. This is very undesirable because methane is a very strong greenhouse gas, twenty times stronger than carbon dioxide.

The continuous process proceeds in horizontal reactors under thermophilic conditions (50-55 ° C). The gft is thereby pre-processed (reduced and sieved) and inoculated by recycling digestate and compressed water. This way you can ensure that the process starts faster. The liquid mass is slowly stirred and passed through the reactors. Major disadvantages are the necessity of roughing and the relatively expensive design of the installation and the agitator that must be resistant to damage by possibly present inert, physical contaminants such as sand, stones and the like.

There is now a need for a technical solution for the fermentation of dry biomass which does not, or at least to a much lesser extent, deal with the aforementioned problems occurring with known installations. The present invention now provides such a solution.

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Summary of the invention

According to the invention, dry biomass is fermented according to a method comprising: - introducing dry biomass into a first container; and - replenishing the first container with a first amount of liquid digestate at least for the most part, preferably entirely.

Topping up with the first amount of liquid digestate has a number of major advantages: - the air present in the tank is expelled; - no dry seed material has to be mixed in; 4 - there is no continuous sprinkling with dripping water, liquid digestate or leachate; "Dead spots" are prevented; and - the process can start quickly.

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Preferably, the first amount of liquid digestate is at least partially withdrawn from a second container. This can be done, for example, by means of a pump or by floating with (bio) gas from the second container. Gravity can also be used for this purpose by placing the second holder higher than the first holder. A wet fermentation process can be under way in the second container, as a result of which the first amount of liquid digestate extracted from the second container will be warm. As a result, the material in the first container will be immediately or much faster at temperature and the fermentation process in the first container will start immediately or much faster. After filling with dry biomass and topping up with liquid digestate, a fermentation process can be carried out in the first container and discharged formed biogas, preferably to a second container which can be the same as the second container from which the digestate has been extracted. The biogas formed in the first container can thus be discharged to a second container.

The method preferably also comprises withdrawing from the first container at least the major part, preferably the whole, of a second amount of liquid digestate present in the first container. This can happen over time, after which the first container can be refilled with a new first amount of digestate from a second container. This can be repeated a number of times until a certain desired degree of fermentation has been achieved in the first container. Preferably, the extracted second amount of liquid digestate is at least partially introduced into a second container, which second container can again be the same as the one from which the first amount of digestate is withdrawn and can also be the same as the one to which the formed in the first container biogas is disposed of.

After reaching the desired degree of fermentation, the liquid digestate present in the first container can be withdrawn from the first container, whereby air can be admitted into the first container. More or less solid digestate can then be removed from the first container, after which it can be composted.

The invention also provides a device for fermenting dry biomass, comprising: - at least one first container for fermenting dry biomass; and - at least one second container for fermenting wet biomass, the first container and the second container being connected to each other by means of a liquid line. Liquid digestate can thus be exchanged between the two containers. The device can herein also comprise a gas pipe for mutually connecting the first holder and the second holder. Thus, (bio) gas can be discharged from the first container to the second container, or, for example, liquid digestate can be pumped or expelled from the first container to the second container by means of (bio) gas.

Preferably the first holder comprises a removable cover. The lid can be removed for filling with dry biomass or for removing fermented material. The first holder can herein comprise a water seal for gas-tight closing of the removable cover. Such a closure is easy to realize and appears to function well.

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The liquid conduit preferably ends some distance above the bottom of the first container. For example, physical contamination such as sand, stones and the like will remain on the soil and will not be pumped or driven out of the first container together with liquid digestate.

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Brief description of the figures

The invention is explained below with reference to exemplary embodiments of a device and a method according to the invention, more or less schematically shown in the figures. Therein: figure 1 shows a perspective view of a preferred embodiment of a device according to the invention with two first holders and one second holder; figure 2 shows a partial cross-section thereof, figure 3 a detail thereof with a water seal; and - figure 4 shows successive steps in a preferred embodiment of a method according to the invention.

Embodiments of a device and a method according to the invention

The device (1) according to the invention shown in the figures comprises two first holders (2a, 2b) and a second holder (5). Each first holder (2a, 2b) is connected to the second holder (5) via a liquid line (8). Fermentation of wet biomass takes place in the second container (5). Each first holder (2a, 2b) comprises a removable lid (10) and a water seal (11) for gas-tight sealing of the removable lid (10) concerned. Each liquid line (8) ends some distance (12) above the bottom (13) of the relevant first container (2a, 2b).

The method shown in Figure 4 comprises the following steps: A. removing the lid (10) from a first holder (2a); B. filling the first container (2a) with dry biomass (3), for example gft, and replacing the lid (10); C. refilling the first container (2a) with a first amount of liquid digestate (4) via a liquid line (8) from a second container (5); venting (14) the first holder (2a); D interconnecting the first holder (2a) and the second holder (5) by means of a gas pipe (9); initiating a fermentation process in the first container (2a) and 7 discharging formed biogas (6) via the gas line (9) to the second container (5), whereby biogas can be drained from there again (16); and E. withdrawing a second amount of liquid digestate (7) from the first container (2a) and discharging it via the liquid line (8) to the second container (5), wherein biogas (14) from the second container (5) ) is fed to the first container (2a).

The refilling and withdrawal of liquid digestate can be repeated a number of times. When extracting liquid digestate (7) from the first container (2a), this is always supplemented with biogas (14) from the second container (5). The system then remains closed and no biogas escapes into the environment.

Finally: F. withdrawing liquid digestate (17) from the first container (2a) while being supplemented with air (18); and G. removing the lid (10) and removing (19) more or less solid digestate (15) from the first container (2a), after which it can be further processed, for example into compost.

The same process can take place in the other first container (2b), wherein liquid digestate and biogas are supplied and discharged from and to the second container (5) in the same way. The second holder (5) can thus "operate" several first holders (2a, 2b).

The invention thus provides a solution for fermenting dry biomass with the most important advantages over known systems that no pre-processing such as cutting, sieving or mixing with dry seeding material is required; the material to be fermented does not have to be continuously sprinkled with leakage water, liquid digestate or leachate; in principle no 'dead spots' occur and the fermentation is therefore more complete; the required heating takes place quickly and the process starts quickly and therefore takes a relatively short time; and the methane gas formed is in principle wholly recoverable and usable because at start-up, after closing the first container, all air is expelled from the first container and at the end of the process, upon opening the first 8 container, in addition to the more or less solid digestate, only air is present in the first container, so that no biogas escapes into the environment.

It will be clear that the invention is not limited to the given exemplary embodiments, but that all kinds of variants are possible within the scope of the invention. Thus, the number of first holders and the number of second holders can in principle be chosen freely. There may also be several second containers with different, or different combinations of, functions such as the formation and / or storage of liquid digestate, the extraction and / or delivery of liquid digestate to one or more first containers, and the storage and / or supplying (bio) gas. It is essential that more or less solid dry biomass is introduced into a container and supplemented with liquid digestate and fermentation takes place. Over time, liquid digestate is withdrawn from the container. This can be repeated a number of times. The system remains closed so that no biogas escapes into the environment. After reaching a desired degree of fermentation, more or less solid digestate can be removed from the container for further processing.

1036955

Claims (13)

A method for fermenting dry biomass, the method comprising: - introducing dry biomass (3) into a first container (2a, 2b); and 5. replenishing the first container with a first amount of liquid digestate (4) at least for the most part, preferably entirely. Method according to claim 1, characterized in that the first amount of liquid digestate is at least partially withdrawn from a second container (5). 3. A method according to claim 1 or 2, characterized in that the method also comprises allowing a fermentation process to proceed in the first container and discharging formed biogas (6). Method according to claim 3, characterized in that the discharged biogas is introduced into a second container (5). 5. Method as claimed in any of the claims 1-4, characterized in that the method also comprises withdrawing from the first holder at least the largest part, preferably the whole, of a second amount of liquid digestate present in the first holder (7.17). 6. Method according to claim 5, characterized in that the extracted second amount of liquid digestate is introduced at least partially into a second container (5). A method according to any one of claims 1-6, characterized in that the method also comprises removing more or less solid digestate from the first container. A method according to claim 7, characterized in that the method also comprises composting the removed more or less solid digestate. 25 Device (1) for fermenting dry biomass, which device comprises: - at least one first container (2a, 2b) for fermenting dry biomass; and - at least one second container (5) for fermenting wet biomass, the first container and the second container being connected to each other by means of a liquid line (8) Device as claimed in claim 9, characterized in that the device comprises a gas pipe (9) for mutually connecting the first holder and the second holder. 1036955 JO Device according to claim 9 or 10, characterized in that the first holder comprises a removable cover (10). Device as claimed in claim 11, characterized in that the first holder comprises a water seal (11) for gas-tight closing of the removable cover. 5 Device as claimed in any of the claims 9-12, characterized in that the liquid line ends at some distance (12) above the bottom (13) of the first container. 1036955