KR20090065698A - Combustion apparatus - Google Patents

Abstract

A combustion device is provided to prevent environmental contamination and create new energy source by storing utility gas. A combustion device comprises a combustion chamber(10), a condensation removing unit(30), and a utility gas storage unit(40). In the combustion chamber, a fuel supply pipe(4), a steam supply pipe(20), and an exhaust pipe(8) are connected. The fuel supply pipe supplies CaCO3 powder and coal powder to the fuel. The steam supply pipe supplies the steam of the high temperature. The exhaust pipe ejects the exhaust gas due to burning coal powder, the steam of high temperature, and the CaCO3 powder at the same time. The exhaust pipe is connected to a chimney(6). The condensation removing unit condenses and removes pollution element of the exhaust gas within the exhaust pipe. The condensation removing unit is installed within the exhaust pipe. The utility gas storage unit is installed to store utility gas in which the condensation is removed.

Description

Combustion device {COMBUSTION APPARATUS}

The present invention relates to a combustion device, and more particularly, coal powder, high temperature water vapor, and CaCO3 powder are supplied as fuel to a combustion chamber of a power plant, and simultaneously burned at high temperature to form OH and combined with C to be a practical gas. The present invention relates to a combustion apparatus capable of producing and storing oil, reducing the amount of fuel in coal powder, and condensing and removing exhaust gas as water to be supplied to prevent air pollution while preventing pollution.

As is well known, in a combustion chamber in a power plant or the like, by burning coal powder, power is generated by operating a turbine as steam vaporized by heating water. The temperature of the steam for operating the turbine is at least 1500 degrees Fahrenheit.

Typically the steam after starting the turbine is configured to circulate into the combustion chamber to liquefy and reheat again by cooling in a cooling tower.

However, the high-temperature exhaust gas from burning coal powder in the combustion chamber is discharged to the atmosphere through the chimney, which contains pollutants such as nitrogen and sulfur and pollutes the environment. Since a large amount of coal powder is required to generate the fuel, there is a need for reducing fuel, but a device corresponding thereto has not been developed yet.

In addition, because of the exhaust fumes (soot) accumulated in the exhaust pipe or the chimney of the combustion device is blocked, there was an inconvenience that must be removed regularly.

The present invention has been made to solve the above problems, the object of the present invention is to supply coal powder, high temperature water vapor, CaCO3 powder as fuel, and simultaneously burn at high temperature to form OH to combine with C and practical gas It is possible to provide a combustion apparatus capable of producing and storing fuel, reducing the amount of fuel in coal powder, and condensing and removing the exhaust gas as the supplied water, thereby preventing the emission of pollutants into the atmosphere and preventing environmental pollution.

The combustion apparatus of the present invention comprises a fuel supply pipe for supplying coal powder and CaCO ₃ powder as fuel, a steam supply pipe for supplying high temperature steam, and simultaneously burning the coal powder and high temperature steam and CaCO ₃ powder at a high temperature. A combustion chamber connected to an exhaust pipe connected to the chimney to discharge the exhaust gas, condensate removing means installed in the exhaust pipe to condense and remove pollutants of the exhaust gas in the exhaust pipe, and a purification in which the condensate is removed. And a utility gas storage means installed to store the used utility gas.

As described above, in the combustion apparatus of the present invention, water supplied through a heat exchange coil surrounding an exhaust pipe of a combustion chamber combusting coal powder fuel is vaporized and supplied to the combustion chamber as hot steam, thereby providing coal powder and CaCO ₃ powder. Co-burning together not only reduces the amount of coal powder, but also separates H ₂ O and CaCO ₃ elements to form OH and combines with C to produce a utility gas, while neutralizing the acid by Ca and vaporizing it. By condensing and removing pollutants by using the water, it has the effect of preventing the pollution of air pollutants, preventing environmental pollution, and storing utility gas and creating it as a new energy source. This has the effect of operating the power turbine by heating steam for power generation.

The gist of the present invention will be understood from the following detailed description of the drawings and the detailed description of the drawings.

Fig. 1 schematically shows the configuration of the combustion apparatus of the present invention, and Fig. 2 shows a cross section taken along the line A-A in Fig. 1.

As shown, the combustion apparatus of the present invention is installed so as to surround the combustion chamber 10 for burning coal powder 2 and the inner tube 22 in the exhaust pipe 8 of the combustion chamber 10. A water supply coil 24 for supplying W) and a steam supply pipe connected with the water supply coil 24 to vaporize the water supplied by the high temperature exhaust gas with high temperature water vapor to supply the combustion chamber 10 ( 20) and the exhaust gas discharged through the inner tube 22 is condensed by the water of the water supply coil 24 installed to surround the inner tube 22, so that the condensate is removed in the inner tube 22. Condensate removal means 30 is provided, and the utility gas storage means 40 for separating and storing the components of the utility gas in the exhaust gas.

The water supplied through the water supply coil 24 is vaporized into high temperature steam by the heat of the high temperature exhaust gas of the inner tube 22 and supplied to the combustion chamber 10 through the steam supply pipe 20, and the coal powder ( 2) and high temperature steam simultaneously burn with CaCO ₃ powder. At this time, the coal powder 2 is 20-30% by weight, the vaporized high temperature water vapor is 55-65% by weight, CaCO ₃ is preferably a mixing ratio of 10-20% by weight.

The water supplied to the combustion chamber 10 is vaporized into hot steam by the hot exhaust gas, and the required amount of coal powder is reduced by the thermal power of the vaporized hot steam. CaCO ₃ powder having a neutralizing agent and high temperature water vapor are separated as H ₂ O and CaCO ₃ elements to form OH and combine with C to generate a utility gas, which is stored as a new energy source as described below. At the same time, acid is neutralized by Ca, and condensation of pollutants by water vaporized prevents the release of pollutants to the atmosphere, thereby preventing environmental pollution.

The combustion chamber 10 includes a fuel supply pipe 4 for supplying coal powder 2 and CaCO ₃ powder as fuel, and a supplied coal powder 2 and CaCO _3. An exhaust pipe 8 connected to the chimney 6 is connected to discharge the exhaust gas according to the combustion of the powder.

In addition, since the high temperature steam outlet pipe 12 connected to the cooling tower (not shown) is connected to the combustion chamber 10, and the cooling water inlet pipe 14 into which the water cooled in the cooling tower flows is connected, the steam heated to vaporize the water. As a power source, power is generated by driving a turbine (not shown).

On the other hand, in order to condense the exhaust gas of the combustion chamber 10, the exhaust pipe 8 has a water supply coil 24 wrapped around the inner tube 22 therein to perform heat exchange to vaporize the water in the water supply coil 24. It is preferable to be supplied to the steam supply pipe (20). Accordingly, the exhaust gas in which the coal powder 2 supplied into the combustion chamber 10 and the high temperature steam supplied to the steam supply pipe 20 and the added CaCO ₃ powder are burned together is discharged from the inner tube 22 of the exhaust pipe 8. ) Is condensed by the water of the water supply coil 24 supplied by wrapping the acid, and the acid is neutralized to separate nitrogen and sulfur to generate condensate.

On the other hand, in the combustion apparatus of the present invention, the condensate removing means 30 is installed in the exhaust pipe 8 so as to remove the condensate thus produced. The condensate removal means 30 includes an inner tube 22 installed in the exhaust pipe 8 of the combustion chamber 10 to discharge the exhaust gas, a spiral rail member 25 installed in the inner tube 22, Including a movable motor 26 for moving the belt (B1) to rotate the spiral rail member 25, when the condensate in the exhaust gas sinks in the inner tube 22, the movable motor 26 is operated to spiral The rail member 25 is rotated to remove the condensate through the third open / close valve 56 under the chimney 6.

In the combustion apparatus of the present invention, the utility gas storage means 40 is branched from the chimney 6 so as to store the utility gas in the exhaust gas and store it as a new energy source. The utility gas storage means 40 passes through a utility gas discharge pipe 42 connected to the chimney 6, a filter 44 installed in the utility gas discharge pipe 42, and a filter 44 in the utility gas discharge pipe 42. A fan 46 for compressing a utility gas, a movable motor 48 for operating the belt B2 to drive the fan 46, and a storage tank 50 in which the compressed utility gas is stored. . At this time, it is preferable that the non-return valve 47 is installed to prevent the stored utility gas from flowing back due to the excessive pressure.

The combustion apparatus of the present invention configured as described above operates as follows.

Coal powder (2) and CaCO ₃ powder is supplied as fuel to the combustion chamber (10) through the fuel supply pipe (4), and the water vapor in the water supply coil (24) is vaporized by high-temperature exhaust gas. When supplied to the combustion chamber 10 through the steam supply pipe 20, in the combustion chamber 10 by simultaneously burning the supplied coal powder (2), high temperature water vapor and CaCO ₃ powder together to heat and vaporize the water As steam, it flows out through the hot steam outlet pipe 12 to operate a turbine (not shown) to generate power. The heated steam is then cooled via a cooling tower (not shown), and the cooling water is returned to the combustion chamber 10 for reheating via the cooling water inlet 14.

On the other hand, the exhaust gas discharged through the inner tube 22 in the exhaust pipe 8 of the combustion chamber 10 is condensed by heat exchange by the water supply coil 24, and acts as a neutralizing agent such as Ca separated by combustion, thereby coal Sulfur and nitrogen are separated from the acid generated by combustion. At this time, the soot in the exhaust gas is condensed and collected on the inner tube 22 side of the exhaust pipe 8, and the collected soot condensate is helical rail member 25 by the operation of the belt B1 by the movable motor 26. As it is rotated and removed in the inner tube 22, the third open / close valve 56 at the bottom of the chimney 6 is opened and discharged to the outside.

In addition, when the exhaust gas is discharged to the chimney 6 through the inner tube 22, the first opening and closing valve 52 of the chimney 6 is closed, the utility gas discharge pipe 42 branched to the chimney 6 connected The second on-off valve 54 provided at the opening is opened, and when the utility gas flows into the utility gas discharge pipe 42 and passes through the filter 44, the fan (B2) is operated by the operation of the belt B2 by the movable motor 48. 46 is operated to gradually compress the practical gas passing through the filter 44, and when the pressure exceeds a predetermined pressure, the non-return valve 47 is opened and compressed and stored in the storage tank 50.

As described above, the present invention saves fuel cost during power generation by adding a constant ratio of CaCO ₃ powder containing high temperature water vapor and neutralizer to coal powder as fuel, and a new energy source is generated by the generated utility gas. At the same time, as the pollutants are condensed before being discharged, the condensate is easily removed, and the compressed gas is stored separately to prevent environmental pollution.

What has been described above is only one preferred embodiment of the combustion apparatus according to the present invention, and the present invention is not limited to the above-described embodiment, and thus the scope of the present invention is departed from the scope of the following 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 schematic view showing the configuration of a combustion apparatus according to an embodiment of the present invention,

2 is a cross-sectional view taken along the line A-A of FIG.

<Description of the symbols for the main parts of the drawings>

2: coal powder 4: fuel supply pipe

6: chimney 8: exhaust pipe

10: combustion chamber 12: high temperature steam outlet pipe

14: cooling water inlet pipe 20: steam supply pipe

22: inner tube 24: water supply coil

25: spiral rail member 26: movable motor

30: condensate removal means 40: utility gas storage means

42: practical gas discharge pipe 44: filter

46: fan 48: moving motor

50: storage tank

Claims (7)

In the combustion device, A fuel supply pipe for supplying coal powder and CaCO ₃ powder as fuel, a steam supply pipe for supplying high temperature steam, and a chimney to discharge exhaust gas from burning the coal powder and high temperature steam and CaCO ₃ powder simultaneously at high temperature Combustion chamber is connected to the exhaust pipe is connected to, Condensate removal means installed in the exhaust pipe to condense and remove pollutants of the exhaust gas in the exhaust pipe; A utility gas storage means installed to store the purified utility gas from which the condensate has been removed; Combustion apparatus. The method of claim 1, The condensate removal means  An inner tube installed in the exhaust pipe to discharge exhaust gas; A water supply coil that vaporizes the water supplied by wrapping the inner tube and vaporizes with high temperature steam; A spiral rail member installed in the inner tube; Combustion apparatus comprising a movable motor for rotating the spiral rail member. The method of claim 1, The utility gas storage means Utility gas discharge pipe connected to the chimney, A filter installed in the utility gas discharge pipe; A fan for compressing the utility gas passing through the filter; A movable motor for driving the fan; Combustion apparatus comprising a storage tank for storing the compressed utility gas. The method of claim 1, And a high temperature steam outlet pipe connected to the cooling tower, and a coolant inlet pipe into which the cooling water cooled in the cooling tower flows. According to claim 1, wherein the chimney A first opening / closing valve which opens when the purified exhaust chamber gas is discharged and closes when the condensate is removed; And a third open / close valve that is opened only upon removal of the condensate. The method according to claim 1, wherein the CaCO ₃ comprises a neutralizing agent, the coal powder, the hot water vapor and the CaCO ₃ is 20-30% by weight, 55-65% by weight, 10-20% by weight Combustor characterized in that. In the combustion method, A combustion method of simultaneously burning coal powder, CaCO ₃ powder, and high temperature water vapor at a high temperature in a fuel source, separating the elements of the three materials to form OH and combining with C to produce a utility gas. .

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