KR20120094207A - Bio-gas holder of double membrane - Google Patents

Abstract

PURPOSE: A biogas storage tank having a double closed type is provided to prevent gas leakage accidents due to corrosion and to enable maintenance and improvement on the ground by completely discharging air and biogas. CONSTITUTION: A biogas storage tank having a double closed type comprises an inner membrane(30) and an outer membrane(40). The inner membrane stores biogas. The outer membrane protects the inner membrane. The inner and outer membranes are composed of polyester felt on which PVC material is coated. An air space(45) is formed between the inner and outer membranes and is filled with the air by an air blower(80) at a predetermined pressure.

Description

BIO-GAS HOLDER OF DOUBLE MEMBRANE

The present invention relates to a biogas storage tank for storing biogas generated in an anaerobic digestion tank, and more particularly, to a double-sealed structure by an inner membrane and an outer membrane, and an air pressure of an air space formed between the inner membrane and the outer membrane. The present invention relates to a biogas reservoir having a constant double sealed structure.

Conventional bio-gas storage tank is the inner gas storage tank for storing bio-gas is protected by an outer casing made of steel sheet, the outer casing and the inner gas storage tank is connected by rubber (butyla bar), stored in the inner gas storage tank In order to maintain the pressure of the bio-gas, a pressure plate is mounted in the internal gas reservoir.

However, in the conventional bio-gas storage tank as described above, an explosion may occur due to biogas during maintenance and improvement work, and a safety accident such as a crash accident may occur during a height operation, and it is difficult to weld due to the nature of rubber when rubber is damaged. The service life is short as about 4 to 5 years, the structure for mounting the pressure plate has a complex disadvantage, there is a risk that the parts used in the pressure plate to corrode.

Accordingly, an object of the present invention is to provide a double-sealed biogas storage tank made of a double-sealed structure by the inner membrane and the outer membrane, the air pressure of the air space portion formed between the inner membrane and the outer membrane is constantly controlled. .

Biogas storage tank of a double hermetic structure according to the present invention for achieving the above object is made of a polyester nonwoven fabric coated with a PVC material is the inner membrane for storing the biogas and the outer membrane for protecting the inner membrane, It is a double hermetic structure in which an air space portion is formed between the inner membrane and the outer membrane, and the air is filled by the air space portion to a predetermined pressure by an air blower.

In addition, the double-sealed biogas storage tank according to the present invention has a bottom membrane, an inner membrane and an outer membrane mounted on the base structure by an anchor rail, and a pressure gauge measures the air pressure of the air space portion, and is disposed at the upper end of the outer membrane. By measuring the height of the inner membrane by the ultrasonic sensor, the control unit calculates the storage amount of the biogas stored in the inner membrane, and the operation of the air blower and the pressure regulating valve mounted on the air supply pipe is controlled by the control unit. When the gas storage tube is supplied to the gas storage unit formed by the inner membrane, the biogas of the gas storage unit is supplied to the place of use through the gas delivery tube, and the pressure of the gas storage unit is higher than the set pressure, the biogas of the gas storage unit is a safety vent. To the outside through a gas discharge pipe equipped with a device And further characterized in that the admission of the gas, the gas delivery pipe and the gas discharge pipe to be connected through the foundation structure and the gas storage portion of the inner membrane.

The bottom membrane, the inner membrane and the outer membrane are composed of a polyester nonwoven fabric coated with PVC material, all the joints are heat-sealed, and the methane permeability is 165 ml / m 2 · day bar or less, and both finishes and softeners It is characterized by being applied.

The inner membrane is formed in a dome shape, characterized in that the reinforcing strip of stainless material is inserted into the end portion of the load is concentrated.

The outer membrane is formed in a dome shape, the monitoring window is provided, characterized in that the reinforcing band of stainless material is inserted into the end portion and the monitoring window, or the finishing portion to which the load is concentrated.

As a result, the double-sealed biogas storage tank according to the present invention does not need to be separately equipped with a pressure plate for pressurizing the inner membrane, thereby simplifying the construction and preventing a gas leakage accident caused by corrosion often occurring in the prior art. It is possible to completely remove the biogas stored in the inner membrane during repair and improvement work, there is no risk of explosion, there is an effect that can be repaired and improved on the ground by completely exhausting air and biogas.

1 is a partially cutaway perspective view of a double gas sealed biogas storage tank according to the present invention.
Figure 2 is a block diagram showing a biogas storage tank of a double hermetic structure according to the present invention

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the drawings.

1 and 2, the double-sealed biogas storage tank according to the present invention is the inner membrane 30 for storing the biogas and the outer membrane 40 for protecting the inner membrane 30 is PVC material Is made of a polyester non-woven fabric coated with a double sealing structure in which an air space portion 45 is formed between the inner membrane 30 and the outer membrane 40, and the air is blown by the air blower 80. 45 is filled to a predetermined pressure.

As a result, the shape of the outer membrane 40 is maintained by the air filled in the air space portion 45, and the pressure of the biogas stored in the inner membrane 30 is kept constant.

In addition, in the double-sealed biogas storage tank according to the present invention, the bottom membrane 20, the inner membrane 30 and the outer membrane 40 are mounted on the foundation structure 10 by the anchor rail 50, and a pressure gauge. (Not shown) measures the air pressure of the air space portion 45, and the ultrasonic sensor 60 disposed at the upper end of the outer membrane 40 measures the height h1 of the inner membrane 30, thereby controlling the control unit ( In 70, the storage amount of the biogas stored in the inner membrane 30 is calculated, and the operation of the air blower 80 and the pressure regulating valve 85 mounted to the air supply pipe P1 is controlled by the controller 70. The biogas is supplied to the gas storage unit 35 formed by the inner membrane 30 through the gas inlet pipe P2, and the biogas of the gas storage unit 35 is used through the gas delivery pipe P3. If the pressure of the gas reservoir 35 is higher than the set pressure, The biogas of the book 35 is discharged to the outside through the gas discharge pipe P4 equipped with the safety vent device 90, and the gas introduction pipe P2, the gas discharge pipe P3, and the gas discharge pipe P4 are based on the gas discharge pipe P4. The structure 10 is connected to the gas reservoir 35 of the inner membrane 30.

Biogas storage tank of the double-sealed structure according to the present invention configured as described above is made of a double-sealed structure by the inner membrane 30 and the outer membrane 40, the biogas is the inner membrane through the gas inlet pipe (P2) Stored in the gas reservoir 35 of 30, air is supplied by the air blower 80 to the air space 45 between the inner membrane 30 and the outer membrane 40. At this time, the pressure gauge measures the pressure of the air space 45, and the ultrasonic sensor 60 measures the height h1 of the inner membrane 30, so that the controller 70 controls the air space according to the storage amount of the biogas. The pressure of 45 can be calculated, and if the air pressure of the air space 45 is lower than the set value, the controller 70 increases the rotational speed of the air blower 80 to air the air space 45. When the injection amount is increased and the air pressure of the air space portion 45 reaches the set value, the air injection amount of the air blower 80 is reduced so that the air pressure of the air space portion 45 is maintained at the set value, and the air space portion 45 If the air pressure is higher than the set value, the operation of the air blower 80 is stopped, and the pressure control valve 85 is opened to lower the air pressure of the air space portion 45 to the set value. When the pressure of the biogas stored in the inner membrane 30 is higher than the set value, the biogas stored in the inner membrane 30 is discharged to the outside through the safety vent device 90 of the gas discharge pipe P4.

In addition, when the storage amount of the biogas reaches the set value, the control unit 70 closes the valve V1 of the gas inlet pipe P1 or operates the gas blower 95 mounted in the gas delivery pipe P3. By increasing the amount of gas discharged, the amount of stored biogas can be lowered.

Biogas storage tank of the double-sealed structure according to the present invention as described above does not need to separately install a pressure plate for pressing the inner membrane, the configuration is simple, can prevent the gas leakage accident due to corrosion often occurs in the prior art In addition, by completely removing the biogas stored in the inner membrane during repair and improvement work, there is no risk of explosion, there is an advantage that can be repaired and improved on the ground by completely exhausting air and biogas.

Details of the components of the biogas storage tank of the double hermetic structure according to the present invention will be described in detail.

The bottom membrane 20, the inner membrane 30 and the outer membrane 40 are composed of a polyester nonwoven fabric coated with a PVC material, all the joints are heat-sealed, and the methane permeability is 165 ml / m 2 · day bar Hereinafter, the finishing agent and the softening agent are applied to both surfaces.

The inner membrane 20 is formed in a dome shape, and a reinforcing strip (not shown) made of stainless steel is inserted into an end portion at which the load is concentrated. In particular, the inner membrane 20 is designed to withstand the maximum operating pressure so that the dome shape can be maintained even when the air blower fails.

The outer membrane 30 is formed in a dome shape, provided with a monitoring window 12 (refer to FIG. 1), and a reinforcing band of stainless material is inserted into an end portion and a monitoring window where the load is concentrated, or a finishing portion to which instruments are attached. do.

The air blower 80 selects the capacity and the wind pressure in consideration of the driving pressure, the maximum and average gas production amount, the maximum and average gas usage amount, and selects the flow rate at about 150 to 200% of the maximum production amount or maximum usage amount of gas. Equipped with high spike type reverse displacement.

Reference numeral 100 not described in FIG. 2 denotes a desulfurization apparatus.

10: foundation structure 20: bottom membrane
30: inner membrane 40: outer membrane
45: air space part 50: ankara rail
60: ultrasonic sensor 70: control unit
80: air blower 90: safety vent device

Claims (5)

The inner membrane 30 for storing biogas and the outer membrane 40 for protecting the inner membrane 30 are made of a polyester nonwoven fabric coated with PVC material, and between the inner membrane 30 and the outer membrane 40. It has a double hermetic structure in which the air space portion 45 is formed, wherein the air is filled by the air blower 80 to the air space portion 45 at a predetermined pressure. .
The method of claim 1,
The bottom membrane 20, the inner membrane 30 and the outer membrane 40 are mounted on the foundation structure 10 by an ankle rail 50, a manometer measures the air pressure in the air space 45, and the outer membrane By measuring the height h1 of the inner membrane 30 by the ultrasonic sensor 60 disposed at the upper end of the 40, the controller 70 calculates the storage amount of the biogas stored in the inner membrane 30. Operation of the air blower 80 and the pressure control valve 85 mounted to the air supply pipe P1 is controlled by 70, and biogas is formed by the inner membrane 30 through the gas inlet pipe P2. When the gas is supplied to the gas storage unit 35, the biogas of the gas storage unit 35 is supplied to the place of use through the gas delivery pipe P3, and the pressure of the gas storage unit 35 is higher than the set pressure, the gas storage unit The biogas of 35 is passed through the gas discharge pipe P4 equipped with the safety vent device 90. Is discharged to the outside, the gas inlet pipe (P2), gas delivery pipe (P3) and the gas discharge pipe (P4) is characterized in that connected to the gas storage unit 35 of the inner membrane 30 through the base structure (10) A double gas sealed biogas storage tank.
The method of claim 2,
The bottom membrane 20, the inner membrane 30 and the outer membrane 40 are composed of a polyester nonwoven fabric coated with a PVC material, all the joints are heat-sealed, and the methane permeability is 165 ml / m 2 · day bar Hereinafter, a double gas sealed biogas storage tank, characterized in that the finishing agent and the softening agent are applied to both surfaces.
The method of claim 3, wherein
The inner membrane 20 is formed in a dome shape, the biogas storage tank of a double hermetic structure, characterized in that the reinforcing band of stainless material is inserted into the end portion of the load is concentrated.
The method of claim 3, wherein
The outer membrane 30 is formed in a dome shape, the monitoring window 12 is provided, characterized in that the reinforcing band of stainless material is inserted into the end and the monitoring window, or the finishing portion to which the instrument is attached to the load is concentrated. A double gas sealed biogas storage tank.

Images