KR20040080571A - Condensing oil Boiler - Google Patents

Abstract

PURPOSE: A condensing oil boiler is provided to reduce an installation space by installing a latent heat exchanger at the top of a sensible heat exchanger, and to prevent the corrosion by manufacturing the latent heat exchanger with high corrosion-resistance metal. CONSTITUTION: In a condensing oil boiler including a sensible heat exchanger(2) and a latent heat exchanger(5), the latent heat exchanger is installed at the top of the sensible heat exchanger, and is made of high corrosion-resistance metal. A condensate neutralizing unit(6) neutralizes condensate condensed in the latent heat exchanger.

Description

Condensing oil boiler {

The present invention relates to a condensing oil boiler for heating heating water by using latent heat of exhaust gas passing through a heat exchanger, and more particularly, a latent heat exchanger in the form of a water tube is installed at the top of the sensible heat exchanger. The latent heat exchanger is made of a highly corrosion-resistant metal material, and includes a neutralizing device capable of neutralizing condensed water condensed in the latent heat exchanger.

Boiler is most widely used as a basic heating and hot water supply facility in general households, and there are various kinds according to the heat source for heating the heating water and the fuel used. Boilers commonly used for heating and hot water supply in homes can be divided into gas boilers and oil boilers, depending on the fuel used. In the case of gas boilers, LPG may be used as a raw material. However, since LPG contains little sulfur, LPG is mostly used to minimize air pollution. In the case of boilers, kerosene is used.

On the other hand, hydrogen (H ₂ ) contained in the fuel of the boiler is combined with oxygen (O ₂ ) during combustion, converts into water (H ₂ O) and emits heat at the same time. Since it changes and exits in the form of exhaust gas, when the temperature of the water vapor mixed in the exhaust gas is lowered below 100 ° C., it turns into water (H ₂ O) and releases heat. The boiler made to absorb the heat released by the boiler is called a condensing boiler.

Unlike the non-condensing method, the condensing method has a latent heat exchanger that heats the heating water by using latent heat of the exhaust gas, and recovers the sensible heat and the latent heat of steam contained in the exhaust gas at the same time to maximize the thermal efficiency of the boiler. 105%).

Korea, a poor country of energy resources, is seriously aware of the economic proportion of energy due to the 1st and 2nd oil crisis and economic crisis.However, in case of gas boilers using LPG and LNG, many products are put to practical use by condensing method. While contributing to the reduction of fuel costs, high-efficiency oil fuel boilers are currently unable to commercialize and commercialize condensing boilers due to the following problems.

First, in oil boilers using liquid fossil fuels, in order to increase efficiency due to the condensing effect, when the exhaust gas temperature is lower than the dew point temperature of the acid, water vapor and sulfur in fuel (heating oil: 0.073%) are produced. The components react to produce sulfuric acid, which is a major factor in the corrosion of boiler equipment.

S + O ₂ = SO ₂

SO ₂ + (1/2) O ₂ = SO ₃ (sulfuric anhydride)

SO ₃ + H ₂ O = H ₂ SO ₄ (sulfuric acid)

Second, in the condensing boiler, a small and efficient latent heat exchanger is essential. In the case of the associated heat exchanger, the size of the heat exchanger is reduced due to the constraint for securing the cross-sectional area of the exhaust gas, thereby reducing economic efficiency.

Third, the condensed water of the condensing oil boiler is pH 2 which is strongly acidic compared to the condensed water of the condensing gas boiler which is pH 4 as the sulfuric acid increases. Since this is a serious cause of environmental pollution, appropriate methods are needed to neutralize it.

Based on the drawings, the problem of the condensing oil boiler will be examined.

1 is an internal configuration diagram of a condensing oil boiler using an associated heat exchanger.

The oil boiler is installed side by side with the burner (1) for heating the combustion gas at a high temperature, the sensible heat exchanger (2) where heat is exchanged between the combustion gas and the heating water, and the sensible heat exchanger (2). It consists of a latent heat exchanger (5) for heating the heating water by using, a condensate collection tank 13 to collect the condensed water condensed in the latent heat exchanger (5) to be discharged to the outside.

The high temperature combustion gas transfers heat passing through the sensible heat exchanger (2), and forms heat transfer through latent heat by condensation in the latent heat exchanger (12) and is discharged to the flue (4). At this time, the water vapor component of the exhaust gas is condensed to become a strong acid condensed water, if it is discharged to the outside as a cause of environmental pollution.

In a condensing boiler, a small and highly efficient latent heat exchanger is essential. In the case of the associated latent heat exchanger 12, the size of the associated latent heat exchanger 12 is increased to secure a cross-sectional area of the exhaust gas. In addition, as shown in the drawing is installed in parallel with the sensible heat exchanger (2) there is a problem that the space utilization of the boiler falls. In addition, the condensate has a strong acid so that the latent heat exchanger 12 inside the case of a boiler made of a conventional material to corrode.

Meanwhile, the heating water for heating the boiler flows into the heating inlets H1 and H3 of the sensible or latent heat exchanger 2 and 12, and goes to the heating outlets H2 and H4 above the respective heat exchangers 2 and 12. It flows out and moves to the heating load through the heating outlet H4. When hot water is used, the water is introduced into hot water inlets G1 and G3 of the sensible heat portion or the latent heat portion heat exchangers 2 and 12, heated through each heat exchanger, and then flows out through hot water outlets G2 and G4.

The present invention has been invented in view of the above circumstances, the latent heat exchanger consisting of a water pipe type to be installed on the top of the sensible heat exchanger to reduce the installation space to secure the economics of the heat exchanger, use a high corrosion-resistant metal material In order to suppress the corrosion by condensate, and to install the condensate neutralizer in the condensate outlet to neutralize the acid condensate, to solve the above problems to provide a condensing oil boiler that can implement the condensing method in the oil boiler. The purpose is.

1 is an internal configuration diagram of a condensing oil boiler using an associated heat exchanger

Figure 2 is an internal configuration of the condensing oil boiler according to an embodiment of the present invention

<Description of Main Parts of Drawing>

2: sensible heat exchanger 5: latent heat exchanger

6: neutralizer 11: flow detector

P: Circulation Pump V: Three Way Valve

Condensing oil boiler according to the present invention for realizing the above object is a latent heat exchanger made of a water pipe type and installed on the top of the sensible heat exchanger and made of a highly corrosion-resistant metal material, condensed in the latent heat exchanger It includes a condensate neutralizer to neutralize condensate into condensate, which is harmless to the environment.

Therefore, according to the above configuration, space utilization and cost-efficiency can be improved compared to the boiler made of the associated heat-heating heat exchanger installed side by side with the sensible heat-heat exchanger shown in FIG. 1, and to prevent environmental pollution through the neutralization device. It is characterized by consisting of.

Hereinafter, the configuration and operation according to an embodiment of the present invention will be described in detail based on the drawings.

Figure 2 is an internal configuration of the condensing oil boiler according to an embodiment of the present invention.

As shown, the installation space is reduced by installing the latent heat exchanger (5) in series at the top of the associated sensible heat exchanger (2), the latent heat exchanger (5) is a compact tube type tube ( Spiral tube or pinned tube, spirial tube, etc.) and the baffle (10) inside the heat exchange can be made slowly by increasing the heat efficiency.

The material of the sensible heat exchanger (2) is made of blue, copper and stainless steel as in the conventional boiler, but the latent heat exchanger (5) may be corroded in contact with the strong acid condensate, so Corrosion resistant metal is used.

The operation of the boiler according to the internal configuration is as follows.

The high temperature combustion gas heated by the burner 1 passes through the sensible heat exchanger 2 to achieve heat transfer, and passes through the latent heat exchanger 5 above, and then is discharged through the flue 4.

The exhaust gas of about 200 ° C passing through the sensible heat exchanger (2) is lowered to about 30 to 80 ° C while passing through the latent heat exchanger (5), and the water vapor in the exhaust gas condenses to form a water pipe-type latent heat exchanger (5). It flows down the wall or the pipe of).

The condensate generated in the latent heat exchanger (5) is collected in the condensate collection tank at the bottom of the latent heat exchanger (5), discharged to the condensate outlet, and then flows into the neutralizer (6). The neutralizing device 6 is provided with a neutralizing tank in which a neutralizing agent is stored, and neutralizes the strongly acidic condensate to neutral and discharges it to the outside in a state harmless to the environment.

On the other hand, the heating water cooled by passing the heating load (floor heating, radiator, etc.) flows into the heating inlet (H1) of the latent heat exchanger (5) of the boiler, and the heating outlet (top) of the latent heat exchanger (5). After flowing out to H2) and being primarily heated, it flows into the sensible heat exchanger (2) heating inlet (H3). Heating water secondary heated in the sensible heat exchanger (2) is moved to the heating load through the heating outlet (H4) of the upper portion of the sensible heat exchanger (2). At this time, the direction of the trilateral direction is B.

When hot water is used, the water supply (cold water) flows into the hot water inlet (G1) of the sensible heat exchanger (2), is heated in the hot water heat exchanger (3), and then the top hot water outlet (G2) of the sensible heat exchanger (2). Out).

As shown in FIG. 2, a separate hot water supply heat exchanger is not installed inside the latent heat exchanger 5, and a flow detector 11 is installed at the hot water inlet G1 or the hot water outlet G2 to provide the flow detector 11. In 11), when the use of the hot water supply is recognized, the three-way valve V for changing the direction of the three sides according to the operation of the pump P acts to convert the direction of the three sides to A. Therefore, the irrigation of the sensible heat exchanger (2) and the latent heat exchanger (5) circulates with each other so that there is no overheating of the latent heat exchanger (5), thereby improving the hot water supply efficiency.

An overheat protector 9 is installed in the flue 4 as a preventive device for abnormal operation of the boiler to stop the operation of the boiler when the temperature of exhaust gas rises due to the abnormal operation of the boiler (80 to 100 ° C).

As described above, according to the present invention condensing oil boiler, a latent heat exchanger (5) made of a water tube type tube installed on the upper end of the sensible heat exchanger (2) and made of a highly corrosion-resistant metal material, and the latent heat portion By using the condensate neutralization device 6 which can neutralize the condensed water condensed in the heat exchanger 5 into condensate which is harmless to the environment, it improves the space utilization even in the oil boiler, has economical and high efficiency, and provides strong acidic condensed water. A condensing scheme that can be neutralized can be implemented.

Therefore, in the oil boiler using the domestic fuel, the condensing technique reduces the fuel by 5 to 20%, which has the effect of saving the source of energy in Korea, which relies on the total amount of oil imported.

Claims (2)

A condensing boiler comprising a sensible heat exchanger (2) and a latent heat exchanger (5), which is configured in the form of a water tube and installed on the top of the sensible heat exchanger (2) and is made of a high corrosion resistant metal material. Condensing oil boiler characterized in that it comprises a latent heat exchanger (5) made of, and a condensate neutralization device (6) capable of neutralizing the condensate condensed in the latent heat exchanger (5) to condensate harmless to the environment. According to claim 1, Flow sensor 11, which is installed in the hot water inlet (G1) or hot water outlet (G2) of the sensible heat exchanger (2) to detect the flow of water supply, the sensible heat exchanger (2) Pump P, which is installed on a passage through which the heating water moves between the heating outlet H4 of the heating load and the heating load, operates in accordance with the detection signal of the flow detector 11, and the three-way according to the operation of the pump P. Including a three-way valve (V) for changing the direction of the side, it has a structure that prevents overheating of the latent heat portion by the conversion of the three-sided side without the need to install a separate hot water heat exchanger in the latent heat portion heat exchanger (5) Condensing oil boiler, characterized in that