JP2007255801A - Dissimilar-fuel mixing combustion small-scale boiler - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a fuel supply device capable of performing dissimilar fuel mixing combustion by a simple structure in a small-scale boiler in which three-step control is performed by a solenoid valve. <P>SOLUTION: A third nozzle for dissimilar fuel and its piping are additionally mounted to the small-scale boiler operated on the basis of three-step control by using two fuel nozzles, that is, a first nozzle and a second nozzle, the fuel equivalent to a low load is jetted from the third nozzle for dissimilar fuel and the second nozzle for main fuel of a small capacity in a low load, and the fuel equivalent to a high load is jetted from all of three fuel nozzles in a high load. Further a connection pipe is disposed in the piping of a main fuel system and a dissimilar fuel system to easily perform an switching operation of main fuel combustion and dissimilar fuel mixing combustion, and a mode changing switch is disposed to operate the solenoid valve to perform three-step control operation by allowing the main fuel to flow to the first nozzle and the third nozzle in the main fuel combustion mode, and allowing the main fuel to flow to the first nozzle and the second nozzle, and allowing the dissimilar fuel to flow to the third nozzle in a dissimilar fuel mixing combustion mode. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  This invention is a small-scale boiler operated by three-position control of high load “High”, low load “Low”, and stop “Off” according to the steam pressure. In addition, the operation mode of the main fuel single combustion (main fuel combustion) and the operation mode of the main fuel and different fuels (mixed combustion of different fuels) can be easily and easily switched by the solenoid valve.

  Small-scale boilers that use fuel oil A, kerosene, etc. as fuel are widely used for commercial hot water supply, air conditioning, etc., and small-scale boilers for such applications use two fuel injection nozzles according to the steam pressure. By opening and closing the connected solenoid valve, the fuel amount is switched to three stages of high load “High”, low load “Low”, and stop “Off”, and in response to this, an air supply damper It is operated with three-position control that switches the opening to a high opening, a low opening, and a blower stop. Since this type of fuel control is performed by switching the solenoid valve of the branch pipe, the fuel is limited to one type.

On the other hand, in large boilers for thermal power generation and the like, main fuel (for example, coal fuel) and dissimilar fuel (for example, oil fuel) are co-fired in order to diversify fuel and reduce fuel costs (specialty). No. 2000-55308).
This uses a computer to keep the flow rate commands for pulverized coal and fuel oil within an allowable range so that the mixed combustion operation can be continued smoothly.

In addition, for example, A heavy oil and waste oil emulsion (waste oil and water emulsion) are co-fired to reduce exhaust gas NOx and effectively use waste oil.
By the way, in the case where the main fuel and the heterogeneous fuel are co-fired, the different fuel has a calorific value per unit amount different from that of the main fuel, and is usually much lower. The amount is different and the control of fuel supply, combustion air supply, etc. is different. Therefore, in order to change the main fuel-fired boiler to a heterogeneous fuel mixed-fired boiler, it is necessary to significantly change the fuel supply and combustion control.

  Furthermore, in order to be able to appropriately switch between the exclusive firing operation and the mixed firing operation, it is necessary to change the fuel injection device, the combustion air supply device, the control device, and the like, and it is inevitable that the mechanism becomes complicated.

A small-scale boiler in which the combustion load is switched according to the level of the steam pressure is operated at three positions: a high load “High”, a low load “Low”, and a stop “Off”, with simple control by a solenoid valve. The fuel supply system of this is as shown in FIG.
In this small-scale boiler, main fuel is injected from the fuel nozzles 4 and 5 of the boiler combustion chamber 1 from the main fuel tank T1 through the main fuel pump P1. A first nozzle 4 and a second nozzle 5 are arranged close to the top of the boiler combustion chamber 1. The main fuel pipe 2 has an original solenoid valve 7, and a first nozzle pipe 4a and a second nozzle pipe 5a are connected to the secondary side of the original solenoid valve 7, and the first and second nozzle pipes are connected to the first and second nozzle pipes 4a and 5a. Solenoid valves 9 and 8 are provided, respectively.
The nozzle size of the first nozzle 4 and the second nozzle 5 is, for example, the most produced reduced evaporation amount (converting 100 ° C. water to 100 ° C. steam) 2 t / h small once-through boiler, for example, A When heavy oil is used as fuel and pressurized at 1.5 MPa, it is 13.5 / 12. This value indicates the injection amount (gallon / hour) based on the reference pressure and the reference viscosity. . "

At the time of initial startup of the boiler, the original solenoid valve 7 is “open”, the solenoid valve 8 of the second nozzle pipe is “opened”, fuel is injected from the second nozzle 5 and ignited by the electric igniter. Since the steam pressure is low, the high load operation immediately becomes “High” after ignition at a low load, the solenoid valve 9 of the first nozzle pipe is “opened”, and fuel is injected from the first nozzle 4 and the second nozzle 5. The boiler is operated at a high load.
When the steam pressure reaches the high limit, the low load command is “Low”, the solenoid valve 9 is “closed”, fuel is injected only from the second nozzle 5, and the boiler is operated at a low load.

For the simple small-scale boilers described above, the main fuel (A heavy oil) and dissimilar fuels (waste oil, waste oil emulsion, ethanol water, etc.) are used to diversify fuel, reduce fuel consumption, reduce NOx, and reduce CO _2. What can be co-fired is required.
For this reason, there is a method of using one nozzle for different types of fuel, but since different types of fuel often contain water, the calorific value per unit amount is usually significantly low, and the flammability is poor. It is necessary to use the low load nozzle 5 for the main fuel and the nozzle 6 for the additional combustion at the high load for the different fuel.
Since the low load of such a small boiler is desirably 50% or less of the rated load, the amount of fuel heat for additional combustion at high load exceeds 50%, and the actual injection volume of dissimilar fuel with low calorific value is Since it reaches 2 to 3 times the main fuel injection, it is difficult to maintain good combustion in the boiler combustion chamber of the same volume.

In addition, for small-scale boilers, it is required not only to co-fire different fuels but also to switch appropriately between main fuel mono-combustion and heterogeneous fuel co-fired with a simple and easy operation because of the problem of stably obtaining different fuels. In order to meet such demands, the main fuel mono-combustion and the heterogeneous fuel co-firing can be performed simply by controlling the solenoid valve ON / OFF, in order to enable the co-firing of different fuels with small-scale boilers being possible. Therefore, it is necessary to devise the basic structure of the fuel supply device so that it can be switched to.
JP 2000-55308 A

  In view of the above, the problem of the present invention is that a fuel supply apparatus capable of co-firing different types of fuel with a simple structure for a small-scale boiler capable of three-position control of “High”, “Low”, and “Off” by a solenoid valve. In addition, the fuel supply system is devised so that the main fuel mono-combustion and the heterogeneous fuel co-firing can be simply switched.

Means for solving the first problem “devising a device capable of co-firing different fuels” are as follows, assuming a small-scale boiler operated by three-position control. It is comprised by.
(B) Two nozzles for main fuel and one nozzle for different fuels are arranged close to each other,
(B) A main solenoid valve is provided in the main fuel supply pipe, a secondary side of the original solenoid valve is branched into a first nozzle pipe and a second nozzle pipe, and the first nozzle pipe is connected to the first solenoid valve via the first solenoid valve. Connect the nozzle, connect the second nozzle pipe to the second nozzle via the second solenoid valve,
(C) An original solenoid valve is provided in the different fuel supply pipe, and a third nozzle is connected to the secondary side of the original solenoid valve via the third solenoid valve,
(D) The operation by the main fuel injection of the second nozzle and the heterogeneous fuel injection of the third nozzle is a low load operation,
(E) The operation by the main fuel injection of the first nozzle and the second nozzle and the heterogeneous fuel injection of the third nozzle is a high load operation,
(F) The different fuel injection amount of the third nozzle corresponds to 50% by volume or less of the total fuel amount at the time of high load.

During the low load operation “Low”, the first solenoid valve is not opened, and the second solenoid valve and the third solenoid valve are opened. As a result, the first nozzle for the main fuel does not operate, the second nozzle for the main fuel and the third nozzle for the different fuel operate, and the boiler is operated at a low load.
On the other hand, at the time of high load operation “High”, the first solenoid valve, the second solenoid valve, and the third solenoid valve are opened, main fuel is injected from the first and second nozzles 7, and different types of fuel are injected from the third nozzle. The fuel is injected, the main fuel and the heterogeneous fuel are co-fired, and the boiler is operated at a high load.

  In this case, the combination of the size of the second nozzle for the main fuel and the size of the third nozzle for the different fuel and the pump pressure of each fuel makes the total fuel about 50% corresponding to the low load “Low”, and different types of fuel. The amount of fuel can be freely selected under conditions that do not become excessive in order to maintain good combustion. That is, from the results shown in Example 1 to be described later, the heat quantity of the different fuel of the third nozzle is 30% or less (50% or less of the total injected fuel volume), and the heat quantity of the low-load main fuel of the second nozzle is 50%. By combining the nozzle size and the pump pressure so that the remaining amount of the heat of the main fuel for the high load of the first nozzle becomes 50%, the operation by the three-position control can be performed as usual.

About the above small-scale boiler, the fuel supply system (means for solving the second problem) for simply switching between the main fuel mono-combustion and the heterogeneous fuel co-firing is the above-described solution (a) to ( F) and the following (g) to (nu).
(G) The primary side of the second solenoid valve of the second nozzle pipe and the primary side of the third solenoid valve of the third nozzle pipe are connected by a connecting pipe, and a check valve and a solenoid valve are provided in the connecting pipe. The check valve is a check valve that prevents the flow of different fuel from the third nozzle pipe to the second nozzle pipe.
(H) In the main fuel combustion mode, the solenoid valve of the connecting pipe is “open”, the second solenoid valve of the second nozzle pipe is “closed”,
During high load operation “High”, the first solenoid valve of the first nozzle pipe and the third solenoid valve of the third nozzle pipe are “opened”, and main fuel is injected from the first nozzle and the third nozzle,
At the time of low load operation “Low”, the first solenoid valve of the first nozzle pipe is “closed”, and main fuel necessary for low load is injected only from the third nozzle,
(Li) In the mixed combustion operation mode of different fuels, the solenoid valve of the connecting pipe is set to “closed”,
During the high load operation “High”, the first solenoid valve of the first nozzle pipe, the second solenoid valve of the second nozzle pipe, and the third solenoid valve of the third nozzle pipe are “opened”, and the first nozzle and the second solenoid valve are opened. Main fuel is injected from 2 nozzles, different fuel is injected from 3rd nozzle,
During low load operation “Low”, the first solenoid valve of the first nozzle tube is “closed”, main fuel is injected from the second nozzle, and different fuel is injected from the third nozzle.
(N) The operation panel must be provided with an operation mode changeover switch incorporating the movement of the solenoid valve corresponding to the main fuel combustion mode and the heterogeneous fuel mixed combustion mode.

When the operation mode changeover switch is set to the main fuel combustion, the main fuel is injected from the third nozzle in the low load operation “Low”, and the main fuel is injected from the first nozzle and the third nozzle in the high load operation. Is done.
When the operation mode switch is set to different fuel co-firing, when the low load operation is “Low”, the main fuel is injected from the second nozzle, the different fuel is injected from the third nozzle, and when the high load operation is “High”, the first nozzle The main fuel is injected from the second nozzle, and the different fuel is injected from the third nozzle.
In any operation mode, three-position control operation of “High”, “Low”, and “Off”, which is the same as existing boilers, is possible. It will be switched.

By the way, there is fermented ethanol, which is expected to be stably supplied, as a CO ₂ neutral biomass fuel for global warming countermeasures. Since this is highly flammable, it is a dangerous material (alcohol) comparable to gasoline in the Fire Service Act, and it is difficult for users of small boilers to handle it.
However, ethanol water in which ethanol is mixed with water (ethanol weight ratio of less than 60%) is excluded from dangerous materials in the Fire Service Act, and can therefore be used as fuel for small-scale boilers.
Therefore, in a small once-through boiler with a converted evaporation rate of 2 t / h, the main fuel is A heavy oil, the different fuel is ethanol water (ethanol volume ratio 60% = weight ratio 54.4%), and the size of the fuel injection nozzles 4, 5, 6 13.5 / 7/12, the pump pressure of the main fuel (A heavy oil) is 1.5 MPa, and the pump pressure of the different fuel (ethanol water) is 1.0 MPa, about 13% of the total input heat (ethanol About 20% in volume ratio / about 33% in ethanol water volume ratio) can be co-fired.

A small-scale boiler that is widely used is a relatively inexpensive facility of 1 million yen. Combustion equipment (fuel supply device, combustion air supply device, and these control devices, etc.) by three-position control of this small-scale boiler Is extremely simple and inexpensive.
The present invention is based on the three-position control (“High”, “Low”, “Off”) by two injection valves used in the small-scale boiler, but the basic structure of this boiler is left as it is, Enables co-firing of different fuels.

  In addition, it is possible to easily and easily switch between main fuel combustion and heterogeneous fuel co-firing simply by operating the operation mode changeover switch. I can drive.

Small-scale boilers include those that use A heavy oil as the main fuel, those that use kerosene, and those that use gas. This embodiment uses A heavy oil as the main fuel, and the amount of generated steam is 2 t / h. 1 is a small-scale boiler having a basic structure of the conventional example of FIG. 1 and capable of co-firing different fuels of A heavy oil and ethanol water (mixing ratio 60 volume%).
In this case, a third nozzle 6 is provided in addition to the first and second nozzles 4 and 5 in the conventional example, and these three nozzles are arranged in an equilateral triangle shape.

This small-scale boiler is a small once-through boiler, and has a burner at the center of the top of the combustion chamber. A fuel injection nozzle is arranged at the center thereof, and combustion air is blown out coaxially.
Fuel is mixed with combustion air and combusted in the upper part of the combustion chamber, and the combustion gas passes between water pipes arranged on the outer periphery of the combustion chamber and is discharged from the chimney, while heating water flowing through the water pipe (For the basic structure of a small once-through boiler, see, for example, Japanese Patent Laid-Open No. 9-203501).

In the fuel system shown in FIG. 2, the first embodiment has a burner at the center of the top of the combustion chamber, and three nozzles are arranged at the center of the flame holding plate 20 in the center of the burner (see FIG. 5). ). Specifically, an equilateral triangular support block 21 is inserted into the center hole 20a of the flame holding plate 20, and the first, second, and third nozzles 4, 5, and 6 are inserted into the support block 21. Is provided. These nozzles are formed by nozzle tips 22 fixed by screwing to a support block 21, and an injection hole 23 of about 1 mm is provided at the apex of the hemispherical top.
The first nozzle pipe 4a and the second nozzle pipe 5a for main fuel are connected to the first nozzle (for additional main fuel at high load) 4 and the second nozzle (for low load main fuel) 5 as in the prior art. Has been. The main fuel pipe 2 is provided with an original electromagnetic valve 7, and the first nozzle pipe 4 a and the second nozzle pipe 5 a are provided with a first electromagnetic valve 9 and a second electromagnetic valve 8. The third nozzle (for different fuel) 6 is connected to the third nozzle pipe 6a, the original solenoid valve 10 is provided in the different fuel pipe 3, and the third solenoid valve 11 is provided in the third nozzle pipe 6a. Is provided.

The first solenoid valve 9 (for additional main fuel at high load), the second solenoid valve 8 (for low load main fuel), and the third solenoid valve 11 (for different fuel) respond to a load command based on boiler steam pressure. Are switched at three positions, “High”, “Low”, and “Off”.
As an example when this embodiment is applied to a small once-through boiler with a converted evaporation amount of 2 t / h, the nozzle sizes of the first nozzle 4, the second nozzle 5, and the third nozzle 6 are 13.5 / 6.5 / 25, and when the pump pressure of the main fuel (A heavy oil) supply system is 1.5 MPa and the pump pressure of the dissimilar fuel (ethanol water) supply system is 1.0 MPa, the ethanol water during the high load operation “High” The co-firing volume ratio is 50% of the total fuel amount (ethanol co-firing volume ratio is 30%), but it can be used practically without smoke, vibration, excessive CO generation, etc.
By changing the combination of the nozzle sizes of the second nozzle 5 and the third nozzle 6, the mixed firing ratio can be changed.

In the second embodiment, a changeover switch for changing the movement of the solenoid valve of the fuel pipe is provided in the operation panel so that the movement of the solenoid valve of the fuel pipe can be changed to easily switch between the main fuel combustion and the heterogeneous fuel mixed firing. .
In the main fuel combustion mode of FIG. 3, only the main fuel supply system is controlled to open and close as in the conventional example of FIG.
During the high load operation “High”, the first solenoid valve 9 of the first nozzle pipe, the third solenoid valve 11 of the third nozzle pipe, and the solenoid valve 14 of the connecting pipe 12 are opened, and the first nozzle 4 and the third nozzle Main fuel is injected from 6.
When applied to a small once-through boiler with a converted evaporation amount of 2 t / h, the nozzle size of the first nozzle 4 and the third nozzle 6 is 13.5 / 12, which is the same as the conventional boiler, and the main fuel (A heavy oil) supply system When the pump pressure of 1.5 MPa is set to 1.5 MPa and the damper opening degree of the combustion air is set to “high”, the same rated output operation as that of the conventional boiler is performed.

  During the low load operation “Low”, the third solenoid valve 11 is “open”, the first solenoid valve 9 is “closed”, and A heavy oil is injected from the third nozzle 6 (for low load main fuel), It is operated at low load (1/2 of “high load”).

In the heterogeneous fuel co-firing operation mode of FIG. 4, the solenoid valve 14 of the connecting pipe 12 is closed,
Similar to the heterogeneous fuel co-firing fuel system in FIG. 2, the main fuel system and the heterogeneous fuel system are divided.
During the high load operation “High”, the first solenoid valve 9 of the first nozzle pipe, the second solenoid valve 10 of the second nozzle pipe, and the third solenoid valve 11 of the third nozzle pipe are opened, and the first nozzle 4, Main fuel is injected from the second nozzle 5 and different fuel is injected from the third nozzle.
The nozzle size of the first nozzle 4, the second nozzle 5, and the third nozzle 6 is 13.5 / 7/12, the pump pressure of the main fuel (A heavy oil) supply system is 1.5 MPa, and the dissimilar fuel (ethanol water) is supplied. When the pump pressure of the system is 1.0 MPa and the damper opening degree of the combustion air is “high”, the same rated output operation as that of the conventional boiler is performed, and the mixed volume ratio of ethanol water is 33% (the mixed volume ratio of ethanol is 20%).

  On the other hand, when the low load operation is “Low”, the damper opening degree of the fuel air is “low”, the first solenoid valve 9 of the first nozzle pipe is closed, and the second solenoid valve 10 of the second nozzle pipe is closed. The third solenoid valve 11 of the three-nozzle pipe remains open, A heavy oil is ejected from the second nozzle 5, and ethanol water is ejected from the third nozzle 6, resulting in a low load operation of about 1/2 of the rated load.

These are the schematics of the fuel supply apparatus of the small scale boiler by the conventional 3 position control. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic view of a fuel supply device according to a first embodiment. These are the schematic diagrams of the fuel supply apparatus of the main fuel combustion of Example 2. FIG. These are the schematics of the fuel supply apparatus of the heterogeneous fuel co-firing of Example 2. FIG. These are top views which show arrangement | positioning of the fuel nozzle of an Example.

Explanation of symbols

1: boiler combustion chamber 2: main fuel pipe 3: dissimilar fuel pipes 4, 5, 6: fuel nozzle 4a: first nozzle pipe 5a: second nozzle pipe 6a: third nozzle pipe 7: original solenoid valve 8: second Solenoid valve 9: First solenoid valve 10: Original solenoid valve 11: Third solenoid valve 12: Connection pipe 13, 15: Check valve 14: Solenoid valve 20: Flame holding plate 21: Support block 22: Nozzle tip 23: Injection Hole T1: Main fuel tank T2: Dissimilar fuel tank P1: Main fuel pump P2: Dissimilar fuel pump

Claims (4)

A small boiler operated by three-position control,
Two nozzles for main fuel and one nozzle for different fuels are arranged close to each other,
A main solenoid valve is provided in the main fuel supply pipe, a secondary side of the original solenoid valve is branched into a first nozzle pipe and a second nozzle pipe, and the first nozzle pipe is connected to the first solenoid valve via the first solenoid valve. A first nozzle is connected, and a second nozzle is connected to the second nozzle pipe via a second solenoid valve;
The original solenoid valve is provided in the heterogeneous fuel supply pipe, and the third nozzle is connected to the secondary side of the original solenoid valve via the third solenoid valve,
The operation by the main fuel injection of the second nozzle and the heterogeneous fuel injection by the third nozzle is a low load operation,
The operation by the main fuel injection of the first nozzle and the second nozzle and the heterogeneous fuel injection of the third nozzle is a high load operation,
A small-scale boiler in which the volume injection amount of different fuel from the third nozzle corresponds to 50% or less of the total fuel amount at high load. The primary side of the second solenoid valve of the second nozzle pipe and the primary side of the third solenoid valve of the third nozzle pipe are connected by a connecting pipe, and the solenoid valve and the third nozzle pipe are connected to the connecting pipe. A check valve for preventing the mixing of different fuel into the second nozzle pipe,
In the main fuel combustion mode, the solenoid valve of the connecting pipe is "open"
During high load operation, the first solenoid valve of the first nozzle tube and the third solenoid valve of the third nozzle tube are "opened", and the second solenoid valve of the second nozzle tube is "closed" The main fuel is injected from the first nozzle and the third nozzle in an amount necessary for high-load operation,
At the time of low load operation, the first solenoid valve of the first nozzle pipe is “closed”, and main fuel is injected from the third nozzle only in an amount necessary for low load operation,
In the heterogeneous fuel co-firing mode, the solenoid valve of the connecting pipe is “closed”
During high load operation, the first solenoid valve of the first nozzle pipe and the second solenoid valve of the second nozzle pipe are “opened” so that the main fuel is fed from the first nozzle and the second nozzle, and further the third nozzle pipe. The third solenoid valve of the engine is "opened", and a different amount of fuel is injected from the third nozzle together with an amount necessary for high-load operation,
In the low load operation, the first solenoid valve of the first nozzle pipe is “closed”, and the main fuel from the second nozzle and the different fuel from the third nozzle are necessary for the low load operation. 2. The small-scale boiler according to claim 1, further comprising an operation mode changeover switch incorporating a movement of the electromagnetic valve so as to be injected in a quantity.   The small-scale boiler according to claim 2, wherein the main fuel is A heavy oil and the different fuel is ethanol water. The small-scale boiler according to claim 3, wherein the mixing ratio of the ethanol water is 60% by volume.

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