JPS6396411A - Deodorizing device - Google Patents

Abstract

PURPOSE:To control generated quantity of NOx without misfire by blowing odor gas and combustion gas into the flame part of a combustion chamber. CONSTITUTION:An odor gas is sent to a burner windbox 1c by 20 parts and to a combustion chamber by 80 parts. The total quantity of the odor gas is taken as 100 parts, and the exhaust gas of 22 parts is extracted from a waste heat boiler 4 and mixed with said odor gas of 80 parts. The exhaust gas of 8 parts from the boiler 4 is mixed with said odor gas of 20 parts. As the temp. of the odor gas preheated by a heat exchanger 2 is 350 deg.C, and the temp. of the exhaust gas mixed therewith is 150 deg.C, and the mixing is made at said ratio, then the mixed gas is blown into the fire flame of the combustion chamber through a slot cylinder part in the mixed gas condition with 310 deg.C. Thereby, quantity of NOx to be generated is effectively controlled without misfire.

Description

DETAILED DESCRIPTION OF THE INVENTION [Object of the Invention] fLL52杜肚t1 The present invention relates to a deodorizing device for decomposing a sour odor gas containing organic components by combustion.

[& Tragedy] As such a deodorizing device, the one shown in FIG. 2 has been in practical use for some time.

That is, the conventional deodorizing device consists of a deodorizing furnace 1, a retention chamber 1a1, a heat exchanger 2, a waste heat boiler 4, and a chimney 5, and the odor gas is preheated from the blower 3 via the heat exchanger 2 and then deodorized. It is supplied to the furnace 1. The deodorizing furnace 1 is equipped with a burner as a combustion device. For example, a heavy oil burner is used as this burner.

The structure of the deodorizing furnace 1 is shown in FIG. The deodorizing furnace 1 is equipped with a heavy oil burner 1b, and a wind box 1c for taking in combustion air is provided around the heavy oil burner 1b to form a combustion chamber. The combustion chamber includes a combustion wall 1d and a slot cylinder part 1.
Consists of e. A retention chamber 1a is connected to this combustion chamber.

In the deodorizing furnace 1, unlike in the case of a normal combustion furnace, odor gas (99% or more air) is supplied as combustion air.

This odor gas is supplied to the slot cylinder section 1e, but before that, it is preheated in the heat exchanger 2. This preheating reduces the amount of fuel consumed to be supplied to the heavy oil burner 1b.

During combustion, it is necessary to send air to the wind box 1c of the burner, so a part of the odor gas is supplied to the wind box 1c of the burner through the blower 6.

According to such combustion, the inside of the deodorizing furnace 1 is placed in a high temperature state, so that the amount of NOx generated increases. In order to reduce this amount of NOx, it is usually carried out to mix part of the exhaust gas into the combustion air.

By increasing the amount of this exhaust gas feedback, the 02 ratio in the combustion air is reduced, resulting in a low 02
Combustion is performed under concentrated conditions, and the generation of NOx is suppressed.

Ming tries to i.屓Lα.

However, due to an increase in the amount of exhaust gas feedback, No.
Even if the amount generated is suppressed, combustion becomes unstable due to a decrease in the 0□ ratio, and in extreme cases, there is a problem of misfire.

Therefore, conventionally there was a limit to the increase in the amount of feedback of exhaust gas.

The present invention has been made to solve this problem. The method is to feed back the exhaust gas not only into the combustion air but also to the slot cylinder portion 1b where combustion is most actively occurring.

While conducting experiments to increase the amount of feedback of exhaust gas, the inventor discovered as a result of his research a method of feedback of exhaust gas via the slot of a slot sill.

[Structure of the Invention] The deodorizing device of the present invention includes a deodorizing furnace including a burner, a combustion chamber, and a slot cylinder section, a retention chamber connected to the deodorization furnace, and a combustion chamber from the retention chamber. It consists of a heat exchanger that preheats odor gas with exhaust gas, a waste heat boiler that uses the heat of the exhaust gas from the heat exchanger, and a chimney that releases the exhaust gas from the waste heat boiler into the atmosphere. In the direct flame deodorizing device, part of the odor gas is supplied to the wind box of the burner, and the other part of the odor gas is preheated by the heat exchanger and then supplied to the slot cylinder part. The present invention is characterized in that a part of the gas is supplied to the wind box of the burner, and exhaust gas is mixed with the odor gas supplied to a part of the slot cylinder and blown into the flame part of the combustion chamber. The exhaust gas that is blown into the flame part of the combustion chamber is taken in directly from the outlet side of the waste heat boiler, or a part of the exhaust gas that is supplied to the wind box of the burner is taken in through a branch. be.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described below with reference to the drawings.

In FIG. 1, 1 is a deodorizing furnace, which has the same structure as the conventional structure shown in FIG.

A heat exchanger 2 preheats a part of the odor gas sent by the blower 3 with combustion exhaust gas. 4 is a waste heat boiler, and 5 is a chimney.

Therefore, fuel such as heavy oil is supplied to the burner of the deodorizing furnace 1, and part of the odor gas is sent into the wind box 1c by the blower 6 to be burned. This odor gas is mixed with exhaust gas whose temperature has been lowered by the waste heat boiler 4.

Further, as described above, the odor gas preheated by the heat exchanger 2 is blown from the slot cylinder part 1e to the flame tip in the combustion chamber.

This odor gas is supplied to the waste heat boiler 4 and the blower 7.
The stray gas taken in by the combustion air is mixed, lowering the temperature of the preheated odorous gas and lowering the 02 ratio in the combustion air, thereby suppressing the amount of NOx generated. Note that the exhaust gas to be mixed with the odor gas may be taken in by branching off a part of the wandering gas supplied to the wind box IC of the burner 1)), as shown by the phantom line.

20 parts of W anti-emitter odor gas to the wind box 1c of the burner and 80 parts to the combustion chamber.
supply in proportions.

When the total amount of odor gas is 100 parts, 22 parts of wandering gas is extracted from the waste heat boiler 4 and mixed with the 80 parts of odor gas. Further, 8 parts of exhaust gas is extracted from the waste heat boiler 4 and mixed with the 20 g of odor gas.

Furthermore, the temperature of the odor gas preheated by the heat exchanger 2 is 350°C, and the temperature of the exhaust gas mixed with this is 1
Since the temperature is 50℃, if you mix it in the above ratio, it will be 310℃
The mixed gas state is blown into the flame of the combustion chamber from the slot cylinder portion 1e.

[Effects of the Invention] The present invention blows a mixed gas of odor gas and combustion exhaust gas into the flame part of the combustion chamber, so there is no risk of misfire.
It became possible to effectively suppress the amount of Ox generated at f18.

[Brief explanation of the drawing]

FIG. 1 is a diagram showing an embodiment of the deodorizing device of the present invention, FIG. 2 is a diagram of a conventional deodorizing device, and FIG. 3 is a configuration diagram of a deodorizing furnace.

Claims (3)

[Claims] (1) A deodorizing furnace consisting of a burner, a combustion chamber, and a slot cylinder section, a retention chamber connected to the combustion chamber, a heat exchanger that preheats odor gas with the combustion exhaust gas from the deodorizing furnace, and the heat exchanger It consists of a waste heat boiler that uses the heat of the exhaust gas from the burner, and a chimney that releases the exhaust gas from the waste heat boiler into the atmosphere. In the direct flame deodorizing device, which supplies the slot cylinder part after preheating the other part by the heat exchanger, part of the exhaust gas from the waste heat boiler is supplied to the wind box of the burner, and the part of the exhaust gas is supplied to the wind box of the burner. A deodorizing device characterized by mixing exhaust gas with odor gas supplied to a slot cylinder section and blowing the mixture into a flame section of a combustion chamber. (2) The deodorizing device according to claim 1, wherein the exhaust gas blown into the flame part of the combustion chamber is directly taken in from the outlet side of the waste heat boiler. (3) The deodorizing device according to claim 1, wherein the exhaust gas blown into the flame part of the combustion chamber is taken in by branching off a part of the exhaust gas supplied to the wind box of the burner.