KR20090116117A - Boiler nox reduction method and system with humidifying combustion air - Google Patents

Abstract

PURPOSE: A method with a combustion air humidifying function and a system thereof are provided to reduce NOx of a boiler combustion chamber by 70% according to the quantity of water. CONSTITUTION: The waste heat is retrieved through the heat exchange from the exhaust gas of a middle-low temperature using a recovery device(2). The warm water is produced by the collected waste heat. The produced warm water humidifies and heats the combustion air in a preheating and humidifying device(4). The preheated air with the vapor is supplied to a combustion chamber of a boiler through a burner and the NOx of the combustion chamber is reduced by burning the combustion air with fuel.

Description

Boiler NOx reduction method and system with humidifying combustion air

The present invention relates to a method and system for reducing air humidification type NOx for boiler combustion, and specifically, to recover waste heat using a heat exchanger from exhaust gas discharged from a boiler, to produce hot water, and to use the waste heat of hot water for combustion of a boiler. The present invention relates to a technique for reducing the generation of NOx in a boiler combustion chamber by preheating and humidifying air.

In general, the NOx reduction system in a boiler combustion apparatus uses a method of reducing NOx by injecting water vapor into a combustion chamber. However, this method uses a large amount of water vapor directly in the combustion chamber, so there is a cost problem due to the use of water vapor.

As another method, there is a method of reducing NOx in a boiler combustion chamber by burning water and the like in a combustion fuel of a boiler. However, this method has a problem that the heat generation amount of the combustion chamber can be reduced because the water at room temperature in the fuel must be evaporated and burned, so that additional energy costs may occur, and the amount of water that can be contained in the fuel is limited to NOx. There is a problem that the reduction performance may be limited.

On the other hand, in the boiler, a low temperature exhaust gas is discharged to the atmosphere, a huge amount of energy is wasted. Waste heat of the exhaust gas may be recovered using a heat exchanger, and hot water may be produced. Several high-efficiency heat exchangers have been developed to enable the exhaust gas heat recovery of these low temperature boilers.

An object of the present invention for solving the above problems is to produce hot water from the low-temperature exhaust gas waste heat generated in the boiler to preheat and humidify the combustion air of the boiler in the air preheating and humidification device for the combustion containing such warm moisture An air humidification type NOx reduction method for supplying air to a boiler combustion chamber through a burner can reduce the amount of NOx generated in the boiler combustion chamber.

Another object of the present invention is to produce hot water from the low-temperature exhaust gas waste heat generated in the boiler to preheat and humidify the combustion air of the boiler in the air preheating and humidification device to burn the combustion air containing the warm moisture through the burner boiler The present invention provides an air humidification type NOx reduction system capable of reducing the amount of NOx generated in a boiler combustion chamber by burning after supplying a furnace.

The present invention to achieve the object as described above and to solve the conventional drawbacks is to recover the waste heat by heat exchange using a boiler exhaust gas heat recovery device from the low-temperature exhaust gas generated in the boiler to produce hot water, The preheated and humidified fresh combustion air is preheated and humidified in the air preheating and humidifying device. It is achieved by providing an air humidified NOx reduction method for boiler combustion characterized by a reduction method.

The low-temperature exhaust gas temperature is characterized in that about 70-200 ℃.

The temperature of the produced hot water is characterized in that about 50 ~ 90 ℃.

The temperature of the preheated combustion air containing steam is about 30-50 ° C., and the absolute humidity of the combustion air is about 0.01-0.10 kg / kg.

In addition, the present invention provides a boiler in which a fuel supplied by a burner and combustion air containing preheated and steam are combusted in a combustion chamber to produce steam;

A boiler exhaust gas heat recovery apparatus for recovering waste heat from the exhaust gas generated in the boiler;

A stack for discharging exhaust gas cooled by heat exchange while passing through the boiler exhaust gas heat recovery apparatus;

An air preheating and humidifying device for supplying cold water to the boiler exhaust gas heat recovery device to preheat and humidify combustion air by receiving hot water heat exchanged with waste heat through another pipe;

An air blower for supplying fresh air to the air preheating and humidifying device;

Boiler combustion characterized in that it is installed in the pipe between the boiler exhaust gas heat recovery device and the air preheating and humidification device consisting of a water pump for circulating the hot water produced in the boiler exhaust gas heat recovery device to reduce the generation of NOx in the boiler combustion chamber By providing an air humidified NOx abatement system.

The present invention provides the advantage of reducing the NOx of the boiler combustion chamber by about 70% according to the amount of water by supplying steam or moisture to the combustion air by using the waste heat of the boiler exhaust gas,

In addition, the invention is a useful invention with the advantage that it can effectively reduce the NOx without additional energy costs for water vapor or water supply to the boiler is an invention that is expected to use the industrial greatly.

Hereinafter, the configuration and the operation of the embodiments of the present invention will be described in detail with reference to the accompanying drawings. In describing the present invention, when it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

1 is a diagram illustrating a system for reducing NOx using waste heat in boiler exhaust gas according to the present invention, as shown in FIG.

A boiler 1 in which the fuel supplied by the burner 11 and the combustion air containing preheated and steam are combusted in the combustion chamber to produce steam;

A boiler exhaust gas heat recovery apparatus (2) for recovering waste heat from the exhaust gas generated in the boiler;

A stack (3) for discharging exhaust gas cooled by heat exchange while passing through the boiler exhaust gas heat recovery device 2;

An air preheating and humidifying device 4 for supplying cold water to the boiler exhaust gas heat recovery device 2 to preheat and humidify the combustion air by receiving hot water exchanged with waste heat through another pipe;

An air blower (5) for supplying fresh air to the air preheating and humidifying device (4);

It can be seen that the water pump 6 is installed in the pipe between the boiler exhaust gas heat recovery device 2 and the air preheating and humidification device 4 to circulate and supply hot water produced by the boiler exhaust gas heat recovery device 2.

The air preheating and humidifying device 4 can use a variety of conventional heat exchange techniques. First, the hot water may be injected into the air passage to preheat and humidify the air. Alternatively, the packing may be installed in the air passage and the hot water may be injected from the upper portion to preheat and humidify the air. The hot water may be supplied to the upper portion of the distribution plate installed in the air passage to form an air-water fluidized bed to preheat and humidify the air.

In the present invention as described above, in the general boiler 1, the low and low temperature exhaust gas is discharged to the atmosphere through the stack 3, and the boiler exhaust gas heat recovery device 2 is used to recover the waste heat of the exhaust gas. To supplement, in general, flue gas of about 70-200 ° C is discharged through the stack to the atmosphere. The flue gas contains the sensible heat of the flue gas and the latent heat of water vapor in the flue gas. Big. Recovering such low-temperature waste heat, a large amount of hot water can be produced in the range of about 50 ~ 90 ℃.

When hot water or the like is produced in the boiler exhaust gas heat recovery device 2, the waste air of the hot water can be used to heat and humidify the combustion air supplied to the combustion chamber of the boiler in the air preheating and humidification device 4. As such, the temperature of the combustion air containing a large amount of steam produced by heating and humidifying the combustion air of the boiler in the air preheating and humidifying apparatus 4 is about 30-50 ° C, and the absolute humidity of the combustion air is It is about 0.01-0.10 kg / kg. The calorific value of this combustion air depends on the humidity of the air, but is about 1-5% of the boiler's heat generation. Therefore, when the waste heat of the boiler is recovered and the heating efficiency is only relatively small when only heating the combustion air, the humidification of the combustion air, the thermal efficiency improvement can be greatly increased.

The combustion air containing such water vapor is combusted while being supplied to the combustion chamber in the boiler 1 through the burner 11 using the air blower 5. Then, the water supplied by heat preheating and cooling in the air preheating and humidifying device 4 is supplied to the boiler exhaust gas heat recovery device 2 using the water pump 6 to produce hot water again, and the water supply is recycled.

As described above and the description of the configuration, the present invention recovers waste heat from the exhaust gas using a high-efficiency boiler exhaust gas heat recovery device 2 from the low-temperature exhaust gas discharged to the stack 3 of the boiler 1, and the like. It is to produce, using the hot water is to preheat and humidify the air for combustion supplied to the burner (11) installed in the boiler (1) combustion chamber. When the combustion air containing steam is supplied to the combustion chamber inside the boiler 1, the flame temperature in the combustion chamber is lowered to reduce the generation of NOx in the combustion chamber.

In the case of a boiler, humidifying the combustion air lowers the flame temperature in the combustion chamber and reduces the radiant heat transfer amount of the flame. However, since the combustion air containing water is supplied to the combustion chamber in a state of being heated to about 30 to 50 ° C. to some extent, there is a certain air preheating effect. The amount of radiant heat is increased, and as a whole, the amount of heat generated in the boiler combustion chamber is not significantly affected.

Therefore, by using the waste gas waste heat, it is possible to reduce the generation of NOx in the combustion chamber and effectively reduce the generation of NOx in the combustion chamber of the boiler without additional energy costs.

That is, when heating and humidifying the combustion air according to the present invention, it is possible to reduce the amount of NOx generated in the combustion chamber of the boiler, this NOx reduction effect is similar to the case of injecting steam directly into the combustion chamber flame. The reduction rate of NOx in the boiler combustion chamber by this humidification increases by about 70% depending on the moisture content.

The present invention is not limited to the above-described specific preferred embodiments, and various modifications can be made by any person having ordinary skill in the art without departing from the gist of the present invention claimed in the claims. Of course, such changes will fall within the scope of the claims.

1 is a diagram illustrating a system for reducing NOx using waste heat in boiler exhaust gas according to the present invention.

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

(1): boiler

(2): Boiler exhaust gas heat recovery system

(3): stack

(4): Air preheating and humidifier

(5): air blower

(6): water pump

(11): burner

Claims (5)

Waste water is recovered by heat exchange using the boiler exhaust gas heat recovery device from the low and low temperature flue gas generated in the boiler to produce hot water, and the produced hot water is preheated and humidified by the air preheating and humidifier to contain steam. A method of reducing air humidification type NOx for boiler combustion, characterized in that a preheated combustion air is supplied to a combustion chamber of a boiler through a burner and then burned together with fuel to reduce the generation of NOx in the combustion chamber. The method of claim 1, The low-temperature exhaust gas temperature is 70-200 ℃ air humidification type NOx reduction method for boiler combustion, characterized in that. The method of claim 1, The temperature of the produced hot water is an air humidification type NOx reduction method for boiler combustion, characterized in that 50 ~ 90 ℃. The method of claim 1, The temperature of the preheated combustion air containing steam is 30-50 ℃, the absolute humidity of the combustion air is 0.01-0.10 kg / kg air humidification type NOx reduction method for boiler combustion. A boiler 1 in which the fuel supplied by the burner 11 and the combustion air containing preheated and steam are combusted in the combustion chamber to produce steam; A boiler exhaust gas heat recovery apparatus (2) for recovering waste heat from the exhaust gas generated in the boiler; A stack (3) for discharging exhaust gas cooled by heat exchange while passing through the boiler exhaust gas heat recovery device 2; An air preheating and humidifying device (4) for supplying cold water to the boiler exhaust gas heat recovery device (2) to recover waste heat and receiving heat exchanged hot water through another pipe to preheat and humidify the combustion air; An air blower (5) for supplying fresh air to the air preheating and humidifying device (4); NOx in the boiler combustion chamber consisting of a water pump (6) installed in the pipe between the boiler exhaust gas heat recovery device (2) and the air preheating and humidification device (4) for circulating and supplying hot water produced by the boiler exhaust gas heat recovery device (2) Air humidification type NOx reduction system for boiler combustion characterized in that configured to reduce the occurrence of.

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