KR20060093487A - Compression supply system of a bio-gas moisture remove - Google Patents

Abstract

The present invention relates to a water removal and compression supply system of high-humidity fuel gas (also called digested gas, biogas, and here, refers to digested gas or biogas containing a large amount of water), in particular, sewage treatment plants, food treatment plants, livestock wastewater. Moisture contained in the humidified fuel gas from the digestion tanks of the treatment plant and the alcohol factory is passed through a series of devices with simple structure and ultra-low power, and the dried fuel gas is decompressed to the available pressure. It is intended to be used to supply equipment such as micro gas turbine generator.

Water removal and compression supply system of energy-saving humidified gas

Description

Compression supply system of a bio-gas moisture remove

1 is a block diagram of a water removal and compression supply system of the power-saving humidified fuel gas according to the present invention.

2 is a simplified configuration diagram of a conventional humid gas supply device,

3 is a simplified configuration diagram of another conventional humid gas supply device.

(Explanation of symbols for the main parts of the drawing)

100; Storage tank 200; Dehumidification tank

210,220,230; Drain valve 300; compressor

310; Oil tank 400; Radiator

500; Gas-liquid separator 600; Adsorption Dehumidifier

700; Heat exchanger 800,810; Micro Gas Turbine Generator

900; Gas flow sensor 910; Pressure sensor

The present invention relates to a water removal and compression supply system of energy-saving humid fuel gas, and in particular, a series of devices containing moisture contained in the humid fuel gas generated in a digestion tank such as a sewage treatment plant, a food treatment plant, a livestock wastewater treatment plant, and a alcohol factory. The compressed dry fuel gas, which is effectively removed while passing in sequence, and has been dehydrated, relates to a water removal and compression supply system of a power-saving humidified fuel gas that can be used and supplied to a device such as a micro gas turbine generator.

In general, a large amount of humid fuel gas is generated in the digester such as sewage treatment plant, food treatment plant, livestock wastewater treatment plant, and alcohol factory.

This humid fuel gas is used as a fuel for supplying equipment such as a micro gas turbine generator. In order to use the humid fuel gas as a fuel, the humid fuel gas should be used after removing moisture contained in the humid fuel gas.

Therefore, in the related art, a number of humid fuel gas supply devices for removing the moisture contained in the humid fuel gas as described above and using it as a fuel have been devised.

The humidified fuel gas supply device 1 as shown in FIG. 2 has a disadvantage in that the humidified fuel gas is supplied directly to the compressor 2 without being first dehumidified in the storage tank, thereby shortening the life of the compressor 2 when used for a long time.

In addition, the humidified fuel gas compressed by the compressor 2 requires high power consumption because moisture is condensed and separated by the electric refrigeration cooler 3. In this case, the discharged gas has a low temperature and thus a supply gas. There was a disadvantage that recondensation occurred due to temperature difference in the pipe or frozen in winter.

Since the humid fuel gas supply device 10 as shown in FIG. 3 is supplied to the compressor 11 immediately without the first dehumidification, like the humid fuel gas supply device 1 of FIG. ) Has shortcomings.

In addition, the compressed air is supplied to one of the two electric refrigeration type coolers 13 and 14 installed at the rear end by the three-way valve 12 and interlocked with the three-way valve 15 on the discharge side.

On the other hand, when regenerating after a certain period of time, the electric heater evaporates moisture by a thermal method and humidified gas is supplied to the cooler in the atmosphere.

In this case, the power consumption is high, and the structure is complicated, the driving cost is high.

The object of the present invention was devised in view of the above-described conventional problems, and a series of moisture-contained moisture contained in a humidified fuel gas generated in a digestion tank such as a sewage treatment plant, a food treatment plant, a livestock wastewater treatment plant, and a alcohol factory. It provides the moisture removal and compression supply system of the humidified fuel gas, which can be effectively removed while passing through the device, and the compressed dry fuel gas can be supplied to equipment such as micro gas turbine generator. The present invention provides an efficient operation system of a used device by controlling and monitoring the amount of generated gas.

As a means for achieving the above object, the present invention, the dehumidification tank for firstly removing the moisture contained in the humidified fuel gas when the humidified fuel gas stored in the storage tank is supplied to the apparatus of the present invention, the dehumidification tank Passed humidified fuel gas is compressed by the compressor to discharge pressure 5kgf / cm2, and flows into the air cooling radiator, the next device, and the second tube removes fin tube type radiator that condenses and separates most of the moisture contained in the humidified fuel gas. And a gas-liquid separator which is integrally formed at the bottom of the radiator and separates the condensed water from the radiator, and is discharged to the outside. Adsorption dehumidification tank to remove the, and compressed dry fuel gas is completely removed from the adsorption dehumidification tank by heating the micro It is a basic feature of the technical configuration that the water contained in the humid fuel gas is removed while passing through a series of devices such as a heat exchanger which supplies the gas turbine generator.

In particular, the main power saving method of the present invention is a fan motor (150W) by adopting an air-cooled radiator to take away from the conventional refrigeration (1000W or more), heating heater (2000W or more) method required power used for dehumidification.

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

1 is a block diagram of a water removal and compression supply system of the ultra low power type high humidity fuel gas according to the present invention.

1 is a storage tank for dehumidifying and drying the humidified gas generated in a digestion tank such as a sewage treatment plant, a food treatment plant, a livestock wastewater treatment plant, a alcohol factory, and supplying it to a micro gas turbine generator 800 (810). The dehumidification tank 200, the compressor 300, the radiator 400, the gas-liquid separator 500, the adsorption type dehumidification tank 600, and the heat exchanger 700 are basically mobilized.

Storage tank 100 is installed in each treatment plant as a tank for the first filling and storage of the humid fuel gas generated in the digestion tank of the sewage treatment plant, food treatment plant, livestock wastewater treatment plant, alcohol factory, etc., the amount of gas in the storage tank 100 The gas amount sensor 900 for detecting is installed.

The gas amount sensor 900 is initially set to a predetermined value, if the gas amount of the humidified fuel gas stored in the storage tank 100 is greater than the set value of the gas amount sensor 900, the micro gas turbine generator 800 (810) If all the normal operation) is less than the set value, the micro gas turbine generator 810 reduces or stops the power generation output, and serves to operate only the micro gas turbine generator 800.

Here, the micro gas turbine generator (800, 810) is shown only two devices in the drawings, it can be used to install a number depending on the amount of gas generated and the purpose of use, it is clear that other equipment that requires fuel can be installed and used.

The dehumidification tank 200 serves to first remove moisture by dehumidifying moisture contained in the humid fuel gas when the humid fuel gas stored in the storage tank 100 is supplied to the inside.

This dehumidification method can be used by using a filter or a condensation induction method (not shown).

The compressor 300 is configured to compress the humidified fuel gas at a pressure of 4 to 6 kgf / cm 2 required by the micro gas turbine generators 800 and 810, and a pressure sensor 910 in the gas line of the compressor 300. Is used for installation.

The pressure sensor 910 is initially set at an arbitrary setting value, and if the gas pressure of the compressor 300 is higher than the setting value, the rotation speed of the compressor 300 is lowered. Was raised to maintain a constant discharge pressure.

The heat generated in the compression process is absorbed and cooled by oil circulated along the cooling oil circulation system formed outside the compressor, and the absorbed heat is used as a heat source of the small radiator and heat exchanger 700 (not shown).

The radiator 400 and the gas-liquid separator 500 are integrally formed, and the radiator 400 is formed at the upper end of the fin tube method so that the humidified fuel gas passing through the dehumidification tank 200 is discharged by the compressor 300 5 kgf. / cm2 is compressed into the radiator and the moisture contained in the humidified fuel gas is condensed by the rapid temperature difference to perform the role of removing the secondary water most of the water is removed from this device, gas-liquid separator 500 Is formed at the bottom of the radiator to separate the condensed water from the radiator 400 to be discharged to the outside.

As a method of separating condensate, a cyclone method or another method may be used.

Here, the radiator 400 and the gas-liquid separator 500 are integrally formed, but are not limited thereto, and the radiator 400 and the gas-liquid separator 500 may be separated and manufactured according to the installation site conditions and uses. Reveal.

Adsorption-type dehumidification tank 600 is connected to the gas-liquid separator 400, when the fuel gas in which water is removed by the radiator 400 is introduced, the adsorbent is embedded therein to completely remove the moisture by absorbing the residual moisture, The inside of the adsorption tank which is not shown in figure is provided with the non-power heating apparatus and ventilation apparatus for regeneration of an adsorbent.

The heat exchanger 700 serves to heat the dry fuel gas from which the moisture is completely removed from the adsorption type dehumidification tank 600 to supply the micro gas turbine generators 800 and 810, and the heat source of the heat exchanger 700. Is transferred by the cooling oil that absorbs and circulates the compressed heat generated during the operation of the compressor 300, and the cooling oil is used to fill the oil tank 310.

The reason for heating and supplying dry fuel gas is to prevent recondensation due to temperature difference in the supply gas pipe during the supply to the microturbine or other equipment.

Internal structures of the storage tank 100, the dehumidification tank 200, the compressor 300, the radiator 400, the gas-liquid separator 500, the adsorption type dehumidification tank 600, and the heat exchanger 700 as described above are commonly used. Since detailed description thereof will be omitted, the present invention is the main configuration to remove the moisture contained in the humid fuel gas while passing through a series of devices as described above.

Reference numerals 210, 220, and 230 are drain valves for discharging moisture generated when the humidified gas is processed to the outside.

In the present invention configured as described above, when the humidified fuel gas generated in a digestion tank of a sewage treatment plant, a food treatment plant, a livestock wastewater treatment plant, a alcohol factory, and the like is filled in the storage tank 100, the gas volume sensor 900 is stored in the storage tank 100. The amount of gas filled is detected.

If the amount of gas filled in the storage tank 100 is greater than the set value of the gas volume sensor 900, all of the micro gas turbine generators 800 and 810 are normally operated. 810 reduces or stops power generation and allows only the micro gas turbine generator 800 to operate.

When the humidified fuel gas stored in the storage tank 100 is supplied into the dehumidification tank 200, the dehumidification tank 200 dehumidifies moisture contained in the humidified fuel gas to first remove moisture, and the primary moisture is dehydrated. The removed humid gas is supplied to the compressor 300.

When the humidified fuel gas supplied to the compressor 300 is compressed to the discharge pressure 5kgf / cm 2 required by the micro gas turbine generators 800 and 810 and flows into the radiator 400, the radiator is contained in the humidified fuel gas. By condensing the existing water to remove the water secondary.

At this time, the pressure sensor 910 formed in the gas line of the compressor 300 senses the gas pressure of the compressor 300 and lowers the rotation speed of the compressor 300 if the gas pressure of the compressor 300 is greater than the set value. If the value is less than the compressor 300 to increase the rotation speed to maintain a constant discharge pressure.

The condensed water generated in the radiator 400 is separated by the gas-liquid separator 500 and discharged to the outside, and the humidified gas gas in which most of the moisture is removed from the gas-liquid separator is supplied into the adsorption-type dehumidification tank 600.

Then, the adsorption type dehumidification tank 600 adsorbs moisture contained in the humidified fuel gas to be supplied to the heat exchanger in a state where residual moisture is removed.

On the other hand, the moisture generated through the dehumidification tank 200, gas-liquid separator 500, adsorption-type dehumidification tank 600 is discharged to the outside through the drain valve 210, 220, 230, respectively.

When the dry fuel gas passed through the adsorption type dehumidification tank 600 is introduced into the heat exchanger 600 as described above, the heat exchanger 600 heats the dry fuel gas to form the micro gas turbine generators 800 and 810 or the same. Supply to outside use.

The heat source of the heat exchanger 600 as described above is transferred by the cooling oil filled in the oil tank 310. Since the cooling oil continues to circulate while absorbing the compressed heat generated during the operation of the compressor, the heat exchanger 600 maintains constant heat. It is delivered continuously.

As described above, according to the present invention, the water contained in the humidified fuel gas generated in the digestion tank of the sewage treatment plant, food treatment plant, livestock wastewater treatment plant, and alcohol factory passes through a series of devices having a simple structure and ultra-low power consumption. While the dry fuel gas is removed and water is supplied to equipment such as a micro gas turbine generator, it can operate the equipment with less power consumption, and its structure is simpler than before, which greatly reduces production cost and operating cost. It can be such an effect.

The present invention has been described above with reference to specific preferred embodiments, but the present invention is not limited to the above-described embodiments, and various changes and modifications may be made by those skilled in the art without departing from the gist of the present invention. Make sure you can.

Claims (3)

When the humidified fuel gas stored in the storage tank 100 is supplied to the apparatus, the dehumidification tank 200 for first removing moisture contained in the humidified fuel gas, and the humidified fuel gas passing through the dehumidification tank 200 are compressors ( 300) is compressed to the discharge pressure 5kgf / cm2 and flows into the radiator to condense the moisture contained in the humidified fuel gas to remove the secondary water in the fin tube type radiator 400 and the bottom of the radiator 400 A gas-liquid separator 500 which is formed integrally and separates the condensed water generated in the radiator 400 and is discharged to the outside, and is connected to the gas-liquid separator 500, and most of the moisture is removed by the gas-liquid separator 500. When the high humidity fuel gas is introduced, the adsorption-type dehumidification tank 600 for absorbing moisture to remove residual water and the micro-gas turbine generator 800 by heating the dry fuel gas from which the moisture is completely removed from the adsorption-type dehumidification tank 600 ( Ball as 810 The heat exchanger 700 while passing through the series of power-saving fuel and humidity, in order to remove moisture and humidity, fuel and pressurized feed system of the gas characterized in that the water will be contained in the gas removal device such as that. According to claim 1, After the gas amount sensor 900 is installed in the storage tank 100, if the gas amount of the humidified fuel gas stored in the storage tank 100 is detected and is equal to or greater than the set value set in the gas amount sensor 900, When the gas turbine generators 800 and 810 are all operating normally, and below the set value, the micro gas turbine generator 810 reduces or stops the power generation output and operates only the micro gas turbine generator 800. Power-saving multi-humid fuel gas moisture removal and compression supply system. According to claim 1, Compressor rotation speed is lowered if the gas pressure of the compressor 300 than the set value set in the pressure sensor 910 after installing the pressure sensor 910 in the gas line of the compressor 300 And, if the set value is less than the set value, the compressor rotational speed is increased.

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