JP2002327896A - Adsorption type digester gas storing device and storing method for digester gas - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an adsorption type digester gas storing device for more efficiently adsorbing and storing digester gas by efficiently boosting digester gas. SOLUTION: The adsorption type digester gas storing device for adsorbing and storing digester gas generated when performing a biological process is constituted of a buffer tank for a compressor, the compressor and an adsorption type storing tank filled with an adsorbent.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

[0001] The present invention relates to digestion generated during biological treatment in a sewage treatment plant, a brewery, a livestock / poultry (cattle, pig, chicken, etc.) refuse treatment plant. The present invention relates to a gas storage device and a gas storage method, and more particularly, to a device and a method for efficiently collecting / storing and effectively utilizing digestive gas.

[0002]

2. Description of the Related Art Conventionally, in a treatment facility for performing the above-mentioned biological treatment on a large scale (hereinafter sometimes referred to as a "large-scale treatment facility"), generated digestive gas is transferred to a gas holder at normal pressure or under pressure. It is practiced to store and use it as a raw material for power generation or heating as required. Japanese Patent Application Laid-Open No. 11-344200 discloses a method of efficiently adsorbing and storing digestive gas using an adsorbent. In order to increase the storage pressure and efficiently store the digestion gas, it is preferable to store the gas by adsorption after the pressure of the digestion gas is increased to some extent by a compressor.

[0003] However, the amount of digestion gas generated from the digestion tank is not constant, and there is a time period during which no gas is generated. Therefore, the amount of digestion gas may be too small to operate the compressor.

[0004]

SUMMARY OF THE INVENTION It is an object of the present invention to provide an adsorption-type digestion gas storage device and a digestion gas storage method for efficiently increasing the pressure of digestion gas and storing it more efficiently by adsorption. .

[0005]

As a result of intensive studies, the present inventors have once stored digestive gas in a buffer tank for a compressor, and pressurized the stored gas with a compressor to reduce digestive gas. It has been found that the pressure can be increased efficiently.

That is, the present invention provides an adsorption-type digestion gas storage device and a digestion gas storage method as described below. Item 1. An adsorption-type digestion gas storage device for adsorbing and storing digestion gas generated during biological treatment, comprising a buffer tank for a compressor, a compressor, and an adsorption-type storage tank filled with an adsorbent. apparatus. Item 2. Item 3. The adsorption-type digestion gas storage device according to Item 1, further comprising a dehydration device. Item 3. Item 3. The adsorption-type digestion gas storage device according to Item 1 or 2, further comprising a desulfurization device. Item 4. Item 4. The adsorption-type digestion gas storage device according to Item 3, further comprising a device for separating digestion gas into methane and carbon dioxide. Item 5. Item 5. The adsorption-type digestion gas storage device according to any one of Items 1 to 4, wherein the buffer material for the compressor is filled with an adsorbent. Item 6. The volume ratio between the buffer tank for the compressor and the adsorption type storage tank filled with the adsorbent is 1/200
Item 6. The adsorption-type digestion gas storage device according to any one of Items 1 to 5, which is 〜 to 1/1. Item 7. Digestive gas generated during biological treatment is temporarily stored in a buffer tank for a compressor, and the stored gas is pressurized by a compressor and then adsorbed and stored in an adsorption type storage tank filled with an adsorbent. Storage method. Item 8. Item 7. The storage method for digested gas according to Item 7, wherein hydrogen sulfide and / or moisture is separated from the digested gas before being stored in a buffer tank for a compressor. Item 9. Item 9. The method for storing a digested gas according to Item 8, further comprising separating carbon dioxide after separating hydrogen sulfide and / or moisture from the digested gas. Item 10. Item 10. The method for storing digestive gas according to any one of Items 7 to 9, wherein water is separated after the pressure is increased by a compressor.

[0007]

DESCRIPTION OF THE PREFERRED EMBODIMENTS The adsorption-type digestion gas storage device of the present invention comprises a buffer tank for a compressor, a compressor and an adsorption-type storage tank filled with a gas adsorbent (hereinafter, also referred to as a "main adsorption tank"). It is provided sequentially in the direction of introduction of digestive gas.

Hereinafter, the present invention will be described in more detail with reference to the drawings.

FIG. 1 is a schematic diagram showing an example of an adsorption-type digestion gas storage device according to the present invention.

In the digester, biological treatment is performed,
Digestive gas is generated.

The generated digestive gas is subjected to hydrogen sulfide and / or
Alternatively, water is separated and removed. Examples of the desulfurization device include an adsorption tower filled with an adsorbent for desulfurization. Hydrogen sulfide is adsorbed and removed when the digestion gas passes through the desulfurizer. Examples of the dehydration device include an adsorption tower filled with an adsorbent for dehydration, a membrane separation device, and a dehumidifier for condensing and removing water. As the digestion gas passes through the dehydrator, water is separated and removed.

[0012] The digestion gas pretreated by the desulfurization unit and / or the dehydration unit is introduced into a buffer tank for a compressor and temporarily stored. At this time, the valve 1 provided between the buffer tank and the compressor is closed.

As the buffer tank for the compressor, for example, a low-pressure water-based gas tank or an anhydrous gas tank generally used as a storage tank for city gas can be used. From the standpoint of installation space, it is preferable to use a gas tank filled with an adsorbent in an anhydrous gas tank. The volume ratio between the geometric volume of the buffer tank and the geometric volume of the adsorption-type storage tank (main adsorption tank) filled with the adsorbent is preferably 1/200 to 1/1.
And more preferably 1/100 to 1/5.

When the digestion gas stored in the compressor buffer tank reaches a predetermined amount, the valve 1 is opened, the digestion gas is sent to the compressor, and the compressor is operated to increase the digestion gas to a predetermined pressure. A commonly used gas compressor can be used as the compressor. The operable pressure of the compressor is not particularly limited, but the lowest operable pressure is 0 to 0.1.
A 098 MPaG compressor is preferred. Valve 1
Open the, send the digestion gas from the buffer tank to the compressor, and start the operation of the compressor,
This is the point in time when the digestion gas stored in the buffer tank reaches a predetermined amount. Although this time varies depending on the volume of the buffer tank, for example, it can be the time when the pressure of the digestion gas in the buffer tank reaches the minimum operable pressure of the compressor to the minimum operable pressure of the compressor + 0.1 MPaG. Preferably, it can be the time when the minimum operable pressure of the compressor + 0.002 MPaG to the minimum operable pressure of the compressor + 0.020 MPaG is reached.

The digested gas pressurized by the compressor is separated and removed by a dehumidifier (dehydrator) if necessary, and then introduced into a main adsorption tank (adsorption gas holder) to be adsorbed and stored. With a dehumidifier,
Moisture can be efficiently removed from the pressurized digestion gas.

The pressure of the digestion gas in the buffer tank is
When the pressure becomes lower than the minimum operable pressure of the compressor, the valve 1 is closed to stop the operation of the compressor.

When the digestion gas stored in the buffer tank reaches a predetermined amount again after a lapse of time, the valve 1 is opened, the digestion gas is sent to the compressor, and the compressor is operated again to increase the pressure of the digestion gas.

By repeating the above operation, the digestion gas can be efficiently pressurized and stored more efficiently by adsorption.

The storage pressure of the main adsorption tank is usually 0 MPa
G or more and less than 0.98 MPaG, preferably 0.2
It is 94 MPaG or more and less than 0.98 MPaG.

The adsorbent charged in the main adsorption tank and the adsorbent charged in the buffer tank as required include activated carbon, zeolite, silica gel and organometallic complexes. These gas adsorbents can be used alone or in combination of two or more. The adsorbent may be different for the main adsorption tank and the buffer tank. The preferred adsorbent is activated carbon.

The specific surface area of the adsorbent is 800 to 2400 m
² / g is preferable, and 1000-1800 m < ² > / g is more preferable. The pore volume is 0.4-1.5 cm
³ / g is preferable, and 0.4 to 1.0 cm < ³ > / g is more preferable. The average pore diameter (diameter) is 7-20 mm
Is preferable, and 8 to 15 ° is more preferable.

When the adsorbent is filled in the tank, increasing the packing density is effective for increasing the gas adsorption amount. By increasing the packing efficiency by mixing one type of particle size crushed and sized to a preferred size or two types of particle sizes having different particle sizes, a larger adsorption capacity can be obtained.

In the above description, the desulfurizer and / or
Alternatively, after separating and removing hydrogen sulfide and / or moisture from digestion gas by a dehydration device, a mixed gas whose main components are methane and carbon dioxide is introduced into a buffer tank for a compressor and temporarily stored. After separating and removing hydrogen sulfide and / or moisture, carbon dioxide may be further separated and removed, and a digestive gas whose main component is methane may be introduced into a buffer tank and temporarily stored. In that case, a device (not shown) for separating digestive gas into methane and carbon dioxide may be provided between the desulfurization device and / or the dehydration device and the buffer tank.

Alternatively, the digestion gas generated in the digestion tank may be directly introduced into the buffer tank and temporarily stored without providing a desulfurization device and a dehydration device.

[0025]

According to the present invention, the digestion gas can be efficiently pressurized and efficiently adsorbed and stored in the adsorption type storage tank filled with the adsorbent.

[Brief description of the drawings]

FIG. 1 is a schematic view showing an example of an adsorption-type digestion gas storage device of the present invention.

Claims (10)

[Claims] 1. An adsorption type digestion gas storage device for adsorbing and storing digestion gas generated during biological treatment, comprising a buffer tank for a compressor, a compressor and an adsorption type storage tank filled with an adsorbent. Adsorption type digestion gas storage device. 2. The apparatus according to claim 1, further comprising a dehydrating device.
The digestion gas storage device of the adsorption type according to 1. 3. The apparatus according to claim 1, further comprising a desulfurization device.
Or the adsorption-type digestion gas storage device according to 2. 4. The adsorption-type digestion gas storage device according to claim 3, further comprising a device for separating the digestion gas into methane and carbon dioxide. 5. The adsorption-type digestion gas storage device according to claim 1, wherein an adsorbent is filled in a buffer tank for a compressor. 6. The volume ratio between a buffer tank for a compressor and an adsorption type storage tank filled with an adsorbent is 1 /.
The adsorption-type digestion gas storage device according to any one of claims 1 to 5, wherein the ratio is 200 to 1/1. 7. The digestion gas generated during biological treatment is temporarily stored in a buffer tank for a compressor,
A method for storing digested gas, comprising: increasing the pressure of the stored gas by a compressor and adsorbing and storing the gas in an adsorption type storage tank filled with an adsorbent. 8. The storage method for digested gas according to claim 7, wherein hydrogen sulfide and / or water is separated from the digested gas before being stored in a buffer tank for a compressor. 9. The method for storing digestive gas according to claim 8, wherein carbon dioxide is further separated after separating hydrogen sulfide and / or water from digestive gas. 10. The storage method for digestive gas according to claim 7, wherein water is separated after the pressure is increased by a compressor.