KR101042603B1 - Gasification system - Google Patents

Abstract

The gasification system of the present invention is a vaporization facility 20 for producing a synthesis gas from coal or carbon-containing waste from the raw material supply source 10, and a purification facility 30 for preliminary purification of dust and acid gas in the generated synthesis gas. And a first oxygen production / carbon dioxide separation / fixation unit 100 for separating and fixing carbon dioxide in the synthesis gas and burning the synthesis gas in which carbon dioxide is separated, while producing carbon necessary for gasification by supplying carbon dioxide. And a second oxygen production / carbon dioxide separation / fixing unit 200 for supplying a high concentration of carbon dioxide, a combustion product of the synthesis gas utilization facility 50, to produce gasification oxygen, and an oxygen production facility. In the carbon dioxide separation and fixing unit 100 and 200, oxygen is generated using superoxide or peroxide, and carbon dioxide is separated and fixed.

According to the present invention, by simplifying the air separation equipment (ASU) and the separation and fixing of carbon dioxide in one installation process, it is possible to drastically reduce the equipment cost and operating costs, and to compact the equipment to reduce the land area, waste It can be applied to various gasification processes for international environmental changes such as the use of energy, the use of clean fuel to prevent air pollution, and the reduction of carbon dioxide to cope with climate change.

Coal, waste, gasification, oxygen production and carbon dioxide separation and fixation, superoxide, peroxide

Description

Gasification System {GASIFICATION SYSTEM}

The present invention relates to a gasification system, and more particularly, by supplying oxygen required for gasification of coal or other carbon-containing waste by using carbon dioxide generated in a gasification process and a synthesis gas combustion process, the compactness of the equipment and the reduction of operating costs It relates to a gasification system that can achieve.

As is well known, generating electricity using an evaporative combined cycle power generation system results in lower power generation costs and less environmental impact than standard coal fired power plants.

In such vaporized combined cycle power generation systems, coal or other carbon containing waste is vaporized with oxygen and the resulting gas is purified to obtain low sulfur fuel gas. These fuel gases are used to generate power while reducing environmental pollutants in gas turbine power generation systems. In recent years, the increased interest in gaseous combined cycle (GCC) technology has led to higher efficiency, which improves the reliability of advanced gas turbines, coal gasification processes and air separation systems used in integrated gaseous combined cycle (IGCC) systems. It is proven. As such, IGCC systems require the correct integration of these three components to achieve maximum operating efficiency and lowest generation costs. Such IGCC is disclosed in detail in U.S. Patent No. 05740673, registered under the name "Operation of integrated gasficationl combined cycle power generation systems at part load," and in this gasification process, the conventional cryogenic air separation (CAS) I adopt).

1 shows a configuration of a conventional gasification system. As shown, when the coal or other carbon-containing waste from the raw material supply 10 is supplied to the vaporization plant 30 with the oxygen supplied from the air separation unit 20, the vaporization unit 30 is vaporized. CO, H _2, CO _2, H ₂ S, HCI, H is the ₂ O synthesis gas is generated, by purification in the synthesis purification plant (40) from the gas in order to obtain low-sulfur fuel gas CO, H _2, CO ₂ Purify with syngas from H ₂ O. Synthesis gas of CO, H ₂ , CO ₂ , H ₂ O purified in the purification plant 40 is combined with oxygen supplied from the air separation unit (ASU) 20, for example, a gas turbine or a gas engine. The gas is supplied to the gas utilization facility 50, and combustion is performed to generate steam for generating gas turbines and to supply electric power. In addition, CO ₂ and H ₂ O are generated as combustion products in the synthesis gas utilization facility 50, and the CO ₂ is stored in a carbon dioxide container storage / transporter 70 and transported to a carbon dioxide marine storage 80. do.

On the other hand, a part of the synthesis gas of CO, H ₂ , CO ₂ , H ₂ O purified in the purification facility 40 flows into the synthesis gas recirculation burner 60, by the oxygen supplied from the air separation unit 20 It is combusted and supplies heat and CO ₂ to the vaporization facility 30 to help vaporization.

However, since the gasification process of the prior art as described above employs an expensive cryogenic air separation device (CAS) for oxygen required for the process, installation costs are high and power costs are high. In addition, since carbon dioxide in the synthesis gas causes a decrease in calories and an unstable power generation, there is a problem in that large amounts of equipment and a lot of energy are consumed in order to separate the carbon dioxide.

Therefore, the present invention has been made to solve the above problems, the object is to separate and fix the carbon dioxide discharged from various energy and manufacturing plant industry while gasification system that can simultaneously produce the pure oxygen necessary for the process as a raw material To provide.

In addition, an object of the present invention is to provide a gasification system that can significantly reduce the high equipment cost and operating costs, and compact the equipment by a new concept process integrating the existing air separation equipment and carbon dioxide separation and fixing process into one.

The gasification system of the present invention for achieving the above-mentioned objects is a preliminary purification of dust and acid gas in the vaporization facility for producing a synthesis gas from coal or carbon-containing waste from the raw material supply source, and the synthesis gas generated in the vaporization facility A first oxygen production / carbon dioxide separation / fixing unit for supplying carbon dioxide in the syngas purified in the purification plant to produce oxygen necessary for gasification and separating and fixing carbon dioxide in the syngas; 1 Oxygen production / Second gas production facility for combusting syngas separated from carbon dioxide from a carbon dioxide separation / fixing unit, and second oxygen production / producing oxygenation for gasification by supplying a high concentration of carbon dioxide which is a combustion product of the synthesis gas utilization facility / Includes carbon dioxide separation and fixing unit, oxygen production / carbon dioxide separation In the fixed unit, superoxide or peroxide is used to generate oxygen and to separate and fix the carbon dioxide.

In the present invention, the first and second oxygen production / carbon dioxide separation / fixing units use one reactor of a fluidized bed, a fixed bed, a moving bed, and a dividing bed as the reactor, and can be configured integrally with each other.

According to the present invention, it is possible to drastically reduce the installation cost and operation cost by simplifying the separation and fixing facilities of the ASU and the carbon dioxide, which require a high installation cost, a large installation area, and a large operating cost, The compactness of the equipment can reduce the area, and can be applied to various gasification processes for international environmental changes such as the use of waste energy, the use of clean fuel to prevent air pollution, and the reduction of carbon dioxide to cope with climate change. Has

Hereinafter, with reference to the accompanying drawings will be described in detail the operation of an embodiment according to the present invention. In the drawings, the same components as in the related art are denoted by the same reference numerals, and detailed description thereof is omitted for convenience of description.

2 shows the configuration of the gasification system of the present invention. As shown, the gasification system of the present invention is to supply the coal or carbon-containing waste from the raw material supply source 10 to the vaporization plant (30) to vaporize, CO, H ₂ , CO ₂ , H ₂ S, HCI, A syngas of H ₂ O is produced, and the generated syngas is purified in the refinery 40 to obtain a low sulfur fuel gas. For example, in the synthesis gas utilization facility 50 consisting of a gas turbine or a gas engine, combustion is performed using the synthesis gas purified in the refining facility 40, thereby generating steam to generate the gas turbine and supplying power thereto. . At this time, as a characteristic configuration of the present invention, the oxygen used for syngas combustion in the syngas utilization facility 50 is not supplied from the air separation unit (ASU) 20 as conventionally, but the first oxygen production / carbon dioxide It is supplied from the separation and fixing unit 100. That is, when the synthesis gas of CO, H ₂ , CO ₂ , H ₂ O purified from the purification facility 40 is supplied to the oxygen production / carbon dioxide separation / fixing unit 100, the first acid production using superoxide or peroxide is performed. In the carbon dioxide separation / fixing unit 100, for example, when a superoxide is used, a chemical reaction occurs as follows.

2 KO ₂ + H ₂ O → 2 KOH + 1.5 O ₂
2 KOH + CO ₂ → K ₂ CO ₃ + H ₂ O
2 EN ₂ + CO ₂ → K ₂ CO ₃ + 1.5 O ₂

That is, in the first acid production / carbon dioxide separation / fixing unit 100, carbon dioxide is separated and fixed with potassium acetate or sodium peroxide before entering the syngas utilization facility 50 as shown in the above chemical reaction formula, and as the reaction by-product. By providing oxygen necessary for the vaporization facility 30 and the synthesis gas utilization facility 50, a constant output can be obtained by increasing the calorific value of the synthesis gas and at the same time maintaining a constant gas composition flowing into the synthesis gas utilization facility 50. .

As oxygen is supplied from the first oxygen production / carbon dioxide separation / fixing unit 100 and CO ₂ is separated and fixed, the syngas of CO, H ₂ , and oxygen is composed of a gas turbine or a gas engine. By entering 50 and performing combustion, steam is generated to generate gas turbines to supply power.

In addition, as oxygen is provided in the first oxygen production / carbon dioxide separation / fixing unit 100, a part of the synthesis gas of CO, H ₂ , and oxygen flows into the synthesis gas recycle burner 60, and as a result of combustion, heat and CO ₂ is supplied to the gasification system 30 to help vaporize.

On the other hand, the high concentration of CO _{2 which} is the combustion product of the synthesis gas utilization facility 50 flows into the second oxygen production / carbon dioxide separation / fixing unit 200 again, and the carbon dioxide is separated and fixed as in the chemical reaction formula, Oxygen is supplied to the vaporization facility 30, the synthesis gas recirculation burner 60, and the synthesis gas utilization facility 50 to produce high concentrations of carbon dioxide as gaseous oxygen for gasification of waste or coal.

As described above, the oxygen production / carbon dioxide separation / fixing unit (100) (200) of the present invention is a reactor, and among the various types of reactors, it is of course possible to use an appropriately selected among fluidized bed, fixed bed, moving bed, and divided bed. In the present embodiment, the same effect was obtained even when one of the enemies was selected.

In the above, the oxygen production / carbon dioxide separation / fixing unit 100 and 200 are installed at the front and rear ends of the syngas utilization facility 50, but as another embodiment, it may be integrated as shown in FIG. Of course, since the same operation as the above description, a detailed description thereof will be omitted.

As described above, the gasification system of the present invention gasifies waste or coal by using pure oxygen, and effectively uses the generated syngas, and then, in the system for separating and fixing carbon dioxide in the exhaust gas, the existing gas for producing oxygen. It provides a compact gasification system that can reduce equipment cost and operation cost by integrating air separation equipment (ASU) and carbon dioxide separation and fixing equipment into one facility.

As described above, the gasification system according to the present invention is only one preferred embodiment, and the present invention is not limited to the above-described embodiment, and thus the scope of the present invention is not limited to the claims. Without departing from the scope of the present invention, those skilled in the art will have the technical spirit of the present invention to the extent that various modifications can be made.

1 is a block diagram showing the configuration of a conventional gasification system,

2 is a block diagram showing the configuration of a gasification system according to an embodiment of the present invention,

3 is a block diagram showing the configuration of a gasification system according to another embodiment of the present invention.

<Explanation of symbols for major symbols in the drawings>

10: raw material supply source 20: air separation unit

30: vaporization facility 40: refining facility

50: Syngas use facility 60: Syngas recirculation burner

70: carbon dioxide container storage / transportation unit

80: carbon dioxide marine storage

100: first oxygen production / carbon dioxide separation and fixing unit

200: second oxygen production / carbon dioxide separation and fixing unit

Claims (4)

In a gasification system, Vaporization equipment for producing syngas from coal or carbon-containing wastes from raw material sources; Refining equipment for purifying dust, acid gas in advance from the synthesis gas produced by the vaporization equipment, When the purified synthesis gas is supplied from the refining equipment, the carbon dioxide in the synthesis gas is separated and fixed using superoxide or peroxide, and the oxygen for gasification is produced as a reaction by-product of the synthesis gas and superoxide or peroxide. 1 oxygen production / carbon dioxide separation / fixing unit, A syngas utilization facility for combusting syngas separated from carbon dioxide from the first oxygen production / carbon dioxide separation / fixing unit; When the combustion product combusted in the synthesis gas utilization facility is supplied, the superoxide or peroxide is used to supply and separate and fix a high concentration of carbon dioxide, the combustion product, and to gasify it as a reaction by-product of the combustion product and superoxide or peroxide. A second oxygen production / carbon dioxide separation / fixing unit for producing oxygen required for Gasification system. delete The method of claim 1, The first and second oxygen production / carbon dioxide separation and fixing unit is configured integrally Gasification system. The method according to claim 1 or 3, The first and second oxygen production / carbon dioxide separation and fixing unit is a reactor, using one of the fluidized bed, fixed bed, moving bed, fractionation bed Gasification system.

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