NL1033754C2 - Biogas producing and storing method for underground cavity of e.g. gas field, involves pumping biomass in underground cavity, and fermenting biomass, where size of cavity is decreased due fermentation of biomass - Google Patents

Abstract

The method involves pumping biomass in an underground cavity (2), and fermenting the biomass, where size of the cavity is decreased due the fermentation of the biomass. The biomass is prepared before pumping the biomass from the underground cavity. PH regulating substances such as lime, is added in the underground cavity during acidification processes. Hydrolyseren of the biomass is done before pumping the biomass from the underground cavity, where the underground cavity is formed by a porous rock layer. Independent claims are also include for the following: (1) a device for producing and storing biogas (2) an apparatus with the underground cavity formed by a porous rock layer.

Description

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METHOD FOR PRODUCING AND STORING BIOGAS IN A UNDERGROUND Cavity

The invention relates to a method for producing and storing biogas.

A great deal of biomass in the form of animal manure is available from livestock farming or the agricultural sector, and residual streams are available from the food industry, which are suitable as biomass. This biomass can be converted into biogas by means of a fermentation process, which can then be used for, for example, heating or driving a gas turbine. To allow substantial amounts of biomass to ferment, large storage tanks are required, which are kept at an elevated temperature in order to provide the bacteria with the correct climate for the fermentation process. Such installations are expensive and take up the necessary space.

It is now an object of the invention to provide a method for producing and storing biogas, wherein the above-mentioned disadvantages are reduced or even completely avoided.

This object is achieved with a method according to the invention, which method comprises the steps of: - pumping biomass into an underground cavity; - allowing the biomass to ferment in the underground cavity; - taking the biogas produced by fermentation out of the cavity.

Underground cavities have been widely available since the extraction of gas, oil, coal, brown coal and salt. Extremely large amounts of biomass can be stored in such cavities. Moreover, the temperature in these underground cavities has been raised, which means that the climate for fermenting the biomass is naturally available.

In addition, these cavities are protected by an impermeable layer from the other soil layers, so that contamination or leakage of produced biogas will not be present.

Filling the cavities with biomass has the additional advantage that a subsidence is prevented. Since the cavities are now filled with the biomass, collapse cannot take place.

Because large amounts of biomass and produced biogas can be stored, the emission of harmful greenhouse gases such as methane gas and carbon dioxide gas from this biomass will not take place because these gases are collected in the underground cavities. Moreover, such storage and fermentation of biomass provides a constant and sustainable energy buffer, in the form of biogas (= methane gas) in the underground cavity.

In a preferred embodiment of the method according to the invention, the biomass is prepared prior to its pumping into the underground cavity. The composition of the biomass is prepared in such a way that undesirable processes in the underground cavity are prevented. Unwanted processes are processes that obstruct or completely stop a good fermentation process. By this preparation, for example, the fermentation process can be optimized or the viscosity of the biomass can be adjusted so that it can penetrate well into the underground cavity.

The preparation according to the invention preferably comprises at least one of the following steps: 3 - The addition of selected bacteria, which biologically degrade the biomass into smaller molecules. In particular bacteria that break down cellulose.

- Adding enzymes that biodegrade the biomass into smaller molecules.

- The addition of ferrous preparations to prevent the formation of H2S (hydrogen sulphide) in the underground cavity. This in particular improves the biogas quality.

10 - Digesting with digestate from biogas plants that ferment more or less the same substances as the biomass that is pumped into the underground cavity.

- The addition of small minerals, diastomene earth or similar substances, in order to obtain area in the biomass 15 on which the (methane-producing) bacteria can nest.

- Cutting or grinding or otherwise reducing the biomass in order to obtain the largest possible surface. Ground straw, flax chaff or similar products can also be added as an energy source and for reasons of surface enlargement.

- Addition of pH-regulating substances, such as for example lime (calcium carbonate) to prevent acidification processes in the underground cavity.

25 - Hudrolyze the biomass before pumping it into the underground cavity. Hydrolysis is a natural process in which bacteria, fats and proteins convert, so that they can easily be converted into biogas in the underground cavity.

In another preferred embodiment, the underground cavity is formed by a porous layer of stones.

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The invention further comprises a device for producing and storing biogas according to the invention, which device comprises: - an underground cavity; - a supply casing for supplying biomass to the cavity; - a discharge casing for taking biogas produced by fermentation; the drain casing at the top of the cavity 10 opening.

When a produced gas or oil field is used as the underground cavity, the existing casing that was used for pumping up the oil or gas can be used as a supply or discharge casing. By subsequently arranging a second relocation, a device can be provided in an inexpensive manner with which the method according to the invention can be carried out.

The underground cavity is preferably formed by a porous layer of stone, as is usual with oil and gas fields.

These and other features of the invention are further elucidated with reference to the accompanying drawing.

Figure 1 illustrates the method according to the invention in a schematic manner. An underground cavity 2 is provided in the bottom 1, for example with a produced gas field or oil field. External heat can optionally be added, for example by means of hot water.

Biomass is pumped into cavity 2 via the existing relocation 3. A pumping station 4 is provided for this purpose, which prepares the biomass supplied via vehicles 5 so that it can easily be pumped into the cavity 2.

Since the cavity 2 is at a great depth, the temperature there is raised, which promotes the action of the bacteria. These bacteria convert the biomass into biogas, which can be removed from the cavity 2 via a second relocation 6. For this purpose the supply opening of the tube is placed at the top of the cavity 2. The biogas can be supplied to a gas network 9 via a pumping station 8 and further used.

1033754

Claims (5)

A method for producing and storing biogas, which method comprises the steps of: - pumping biomass into an underground cavity; - allowing the biomass to ferment in the underground cavity; - the removal of the biogas resulting from fermentation from the cavity. The method of claim 1, further comprising the step of: 10. preparing the biomass prior to pumping it into the underground cavity. The method of claim 1, wherein the underground cavity is formed by a porous layer of stones. 4. Device for producing and storing biogas, which device comprises: - an underground cavity; - a supply pipe for supplying biomass to the cavity; - a discharge casing for taking biogas produced by fermentation; the drain casing opening into the top of the cavity. Device as claimed in claim 4, wherein the underground cavity is formed by a porous layer of stones. 1033754