KR101527817B1 - Biogas dryer equipped with temperature rising function by using heat exchange - Google Patents

Abstract

The present invention relates to a biogas-dehumidifying device having a heat-up function of heat exchange, comprising: an input pipe for receiving biogas; A dehumidifier for receiving the biogas from the input pipe and removing moisture present in the biogas; An output pipe for feeding and conveying the dehumidified biogas from the dehumidifying part; And a heat exchanger for transferring the heat of the input pipe to the output pipe and raising the temperature of the biogas transferred through the output pipe. In this case, a separate preheater or a temperature elevator is not provided, Thereby providing an effect of reducing the cost.

Description

TECHNICAL FIELD [0001] The present invention relates to a biogas dehumidifying device having a heat exchange function,

The present invention relates to a biogas dehumidifier having a function of raising the temperature of a heat exchange system. More particularly, the present invention relates to a biogas dehumidifier having a function of heat-exchanging a cold biogas having passed through a dehumidifier with a high temperature biogas .

In recent years, the steady rise of international oil prices has led to the need for stable energy supply and the development of alternative energy sources. In addition, there has been a steady increase in the generation of greenhouse gases that cause global warming. This is a growing situation.

Accordingly, the government announced the vision of low carbon green growth and is pursuing various energy and environmental policies with the goal of reducing greenhouse gas emissions by 30% by 2020.

In response to these social changes, the production and utilization of biogas to recycle organic wastes, sewage sludge, etc. are actively being carried out. As a part of this, biogas is included in the category of city gas by revising the city gas business law. The law is also being restructured.

Most of the biogas currently produced is used for power generation / heat production or fuel for automobiles through fuel and gas engines of boilers, and if it is not easy to use as energy resources, it is disposed in the atmosphere.

However, since these methods have difficulties in finding low-efficiency, continuous use, and difficulty in securing a car charging station, injection into a vehicle fuel or city gas pipeline, which has the highest energy utilization efficiency, is becoming the most effective method.

In order to be used for fuel for vehicles or city gas, purification of impurities as well as separation of carbon dioxide and improvement of methane purity should be performed.

Methods for solidifying the biogas include a membrane system, a PSA (pressure circulation adsorption) system, a water scrubbing system, a seawater cooling system, etc. The present invention discloses a method for reducing energy in a membrane system, .

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic view showing each facility for increasing methane purity of a biogas to which the present invention is applied. FIG.

As shown in Fig. 1, the biogas is stored in the biogas tank 1 and then passes through a desulfurization facility 2 for removing sulfur (S) and a siloxane removal facility 3 for removal of siloxane.

The membrane module 5 is then used to separate the carbon dioxide (CO ₂ ) to increase the purity of methane. The membrane module 5 utilizes the difference in partial partial pressures of the components and the use of a compressor to make the pressure difference .

Also, in the membrane process using the membrane module 5, since the liquid water interferes with the characteristics of the membrane, the removal of condensed water is included as an essential process.

The dehumidifier 20 for dehumidifying the moisture present in the biogas takes a method of dropping the dew point to 5 ° C or lower and removing the moisture present in the biogas. The membrane module 5 removes carbon dioxide The temperature of the biogas flowing into the inlet side of the membrane module 5 must be maintained in the range of 20 to 35 ° C so that the temperature of the biogas on the outlet side of the dehumidifier 20, There was a necessary problem indispensable.

In order to raise the temperature, existing technologies require additional energy by having a separate preheater or warmer, and there has been a problem that a separate facility for preheating or raising the temperature has to be constructed.

The introduction of such a separate preheater or warmer has a disadvantage of lowering the resource utilization by consuming extra energy to produce energy resources and raising the production cost of biogas as well as non-economic problems.

Related technologies include "a biogas reforming system using waste heat and a biogas reforming method (application No. 10-2010-0106697, hereinafter referred to as" cited invention "), but the cited invention relates to biogas reforming using waste heat System, which does not even recognize the technical idea for adjusting the temperature of the biogas at the inlet of the membrane due to the temperature drop after dehumidification. As a result, the dehumidifier, which is simple, easy and energy efficient, And the temperature of the biogas that has passed through it is not raised.

A biogas dehumidifier having a heat-up function according to the present invention has been developed to solve the above-mentioned problems, and it is an object of the present invention to provide a biogas dehumidifier having a heat- And to provide a biogas dehumidifier capable of raising the temperature.

The solution of the present invention is not limited to those mentioned above, and other solutions not mentioned can be clearly understood by those skilled in the art from the following description.

A biogas dehumidifying device equipped with a heat-up function of a heat exchange system according to the present invention has the following means for solving the above-mentioned problems to be solved.

A biogas dehumidifier having a heat exchange function according to the present invention includes an input pipe through which a biogas is transferred; A dehumidifier for receiving the biogas from the input pipe and removing moisture present in the biogas; An output pipe for feeding and conveying the dehumidified biogas from the dehumidifying part; And a heat exchanger for transferring the heat of the input pipe to the output pipe and raising the temperature of the biogas transferred through the output pipe.

The dehumidifying part of the biogas dehumidifying device equipped with the heat exchange function according to the present invention may include a chiller for cooling the biogas transferred from the input pipe to 5 ° C or less.

The heat exchanger of the biogas dehumidifier having a heat-up function according to the present invention is provided with a covering part positioned to surround the outer periphery of the input pipe and conducting high temperature of the input pipe; And a curved pipe portion communicating with the output pipe to transfer the biogas from the output pipe and located at an outer periphery of the covering portion and receiving a high temperature transferred from the covering portion to increase the temperature of the biogas .

A biogas dehumidifier having a heat exchange function according to the present invention includes a valve located in the input pipe and opening and closing the inside of the input pipe; A temperature sensor for detecting the temperature of the biogas heated in the heat exchanging unit (hereinafter, referred to as 'the temperature of the biogas heated in the heat exchanging unit' is referred to as a 'temperature elevating temperature') located in the heat exchanging unit; And a controller receiving the information of the temperature increase temperature from the temperature sensor and adjusting the valve so that the temperature increase temperature is maintained within a predetermined temperature range.

The predetermined temperature range of the biogas-dehumidifying device equipped with the heat exchange function according to the present invention is 20 ° C to 35 ° C.

The biogas dehumidifier having the heat exchanging function according to the present invention having the above-described structure has the following effects.

First, the biogas cooled by the dehumidifier is heat-exchanged with the high-temperature biogas entering the dehumidifier, thereby providing an effect of not requiring a separate preheater or a warmer.

Secondly, since there is no separate preheater or temperature gauge, it provides the effect of streamlining the equipment.

Third, since a separate preheater or a temperature elevator is not provided, the energy efficiency and production cost of the biogas are reduced.

Fourth, the biogas supplied to the membrane module is maintained at a constant temperature, thereby providing the best performance of the membrane module.

The effects of the present invention are not limited to those mentioned above, and other effects not mentioned can be clearly understood by those skilled in the art from the following description.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic view showing each facility for increasing methane purity of a biogas to which the present invention is applied. FIG.
2 is a conceptual view showing a heat exchanger according to a preferred embodiment of the present invention.
3 is an enlarged view showing an enlarged view of each configuration of a heat exchanger according to a preferred embodiment of the present invention.

The biogas dehumidifier having the heat exchange function according to the present invention may be modified in various ways and various embodiments may be provided. Specific embodiments will be described in detail with reference to the drawings. . It should be understood, however, that the invention is not intended to be limited to the particular embodiments, but includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention.

Hereinafter, a biogas dehumidifier having a heat exchange function according to the present invention will be described in detail with reference to the drawings.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic view showing each facility for increasing methane purity of a biogas to which the present invention is applied. FIG. 2 is a conceptual view showing a heat exchanger according to a preferred embodiment of the present invention. 3 is an enlarged view showing an enlarged view of each configuration of a heat exchanger according to a preferred embodiment of the present invention.

A biogas dehumidifier having a heat-up function according to the present invention includes an input pipe (10, 10a); A dehumidifying part (20); An output pipe 10b; And a heat exchange unit (30).

First, as shown in FIG. 1, the input pipes 10 and 10a receive biogas from the compressor 4 and transport the biogas to the dehumidifying part 20. As shown in FIG.

Basically, the temperature of the biogas that has passed through the compressor (4) is usually in the range of 30 to 80 ° C.

Thereafter, the dehumidifying unit 20 receives the biogas from the input pipes 10 and 10a, drops the temperature of the biogas, and removes the moisture present in the biogas.

Preferably, the dehumidifying part 20 drops the temperature to 5 ° C or less, and removes moisture due to condensation of water vapor as the dew point is lowered.

Preferably, the dehumidifying part 20 reduces the temperature of the biogas through the chillers 20a and 20b.

The biogas having passed through the dehumidifying section 20 has a temperature of about 5 ° C. as described above. When the biogas having such a temperature is supplied to the membrane module 5, the membrane module 5 can be supplied with the highest efficiency And a temperature difference of 20 to 35 DEG C which is a temperature range at which carbon dioxide can be removed.

Therefore, the biogas having passed through the dehumidifying unit 20 is not supplied directly to the membrane module 5 through the output pipe 10b, but needs to be heated.

The output pipe 10b allows the heat exchanger 30 to pass the biogas having a cold temperature range (about 5 deg. C).

The heat exchanging unit 30 transfers the high temperature thermal energy of the input pipes 10 and 10a to the output pipe 10b by using heat exchange between the input pipes 10 and 10a and the output pipe 10b.

More specifically, the heat exchanging portion 30 includes a covering portion 11; And a curved pipe portion 12.

2 and 3, the covering portion 11 is positioned to surround the outer periphery of the input pipes 10 and 10a, and the high-temperature heat of the input pipes 10 and 10a is introduced into a curved pipe 12).

The covering portion 11 is preferably made of an alloy containing a metal having a good thermal conductivity, preferably copper.

The curved pipe 12 is located at the outer periphery of the covering portion 11 in a zigzag manner, as shown in Fig. The curved pipe 12 receives the heat of the output pipe 10b and at the same time, the curved shape increases the collision of the molecules of the biogas flowing in the inside and the collision frequency with the inner wall of the curved pipe 12, .

The curved pipe 12 communicates with the output pipe 10b and then with the pipe leading to the membrane module 5.

The curved pipe 12 receives the thermal energy of the input pipe 10, 10a conducted through the covering part 11 and passes through the dehumidifying part 20 to raise the temperature of the cooled biogas.

A biogas dehumidifier having a heat exchange function according to the present invention includes a valve; A temperature sensor (not shown); And a control unit 40. [0028]

The valve is located in the input pipes 10, 10a and opens and closes the inside of the input pipes 10, 10a.

The temperature sensor (not shown) is located in the heat exchanging section 30, more specifically, the pipe 10c at the output end of the heat exchanging section 30 and is connected to the heat exchanging section 30 And senses the temperature of the heated biogas (hereinafter referred to as " temperature rise temperature ").

The control unit 40 receives the information of the temperature increase temperature from the temperature sensor and adjusts the valve so that the temperature increase temperature is maintained within a predetermined temperature range, for example, 20 占 폚 to 35 占 폚.

As used herein, the singular " include "should be understood to include a plurality of representations unless the context clearly dictates otherwise, and the terms" comprises & , Parts or combinations thereof, and does not preclude the presence or addition of one or more other features, integers, steps, components, components, or combinations thereof.

The scope of the present invention is defined by the claims, the parentheses used in the claims are not used for optional limitation but are used for the definite components and the description in parentheses is also interpreted as an essential component .

1: Biogas tank
1a, 1b: Chiller
1c: Dehumidifying device
1d: blower
2: Desulfurization equipment
3: Siloxane removal equipment
3a: Gas filter
4: Compressor
4a, b: cooling tower
5: Membrane module
6: CNG / city gas supply
7: Atmospheric release device
10: Input pipe (part not passing through the heat exchanger)
10a: input pipe (part passing through the heat exchange part)
10b: output pipe
10c: Membrane feed pipe
20: Dehumidification part
20a, b: chiller
30: Heat exchanger
40:

Claims (5)

In a biogas dehumidifier equipped with a heat exchange function,
An input pipe through which the biogas is transferred;
A dehumidifier for receiving the biogas from the input pipe and removing moisture present in the biogas;
An output pipe for feeding and conveying the dehumidified biogas from the dehumidifying part; And
And a heat exchanger for transferring the heat of the input pipe to the output pipe and raising the temperature of the biogas transferred through the output pipe,
The heat-
A covering unit positioned to surround an outer periphery of the input pipe and conducting thermal energy of the input pipe; And
And a curved pipe portion communicating with the output pipe to transfer the biogas from the output pipe and to be positioned at the outer periphery of the covering portion and to receive the thermal energy transmitted from the covering portion to increase the temperature of the biogas Features a biogas dehumidifier.
The air conditioner according to claim 1,
And a chiller for cooling the biogas transferred from the input pipe to 5 DEG C or less.
delete 2. The biogas dehumidifying device according to claim 1,
A valve located in the input pipe and opening and closing the inside of the input pipe;
A temperature sensor for detecting the temperature of the biogas heated in the heat exchanging unit (hereinafter, referred to as 'the temperature of the biogas heated in the heat exchanging unit' is referred to as a 'temperature elevating temperature') located in the heat exchanging unit; And
And a controller for receiving the information of the temperature increase temperature from the temperature sensor and adjusting the valve to maintain the temperature increase temperature within a predetermined temperature range.
The biogas dehumidifier according to claim 4, wherein the predetermined temperature range is 20 ° C to 35 ° C.

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