JP4084356B2 - Apparatus for producing and supplying water-in-oil emulsion fuel - Google Patents

Description

The present invention relates to an emulsion fuel production and supply apparatus that produces emulsion fuel from heavy oil and supplies it to a boiler, and in particular emulsifies emulsifier and water into heavy oil such as bunker C oil or bunker A oil. The present invention relates to an apparatus for producing and supplying water-in-oil emulsion fuel and supplying water-in-oil emulsion fuel to a boiler.

In general, an emulsion refers to a state in which other liquid that does not mix with the liquid is uniformly dispersed in a finely divided state.

In particular, water-in-oil type (W / O) emulsion fuel is a heavy oil (Bunker C oil) that is a low-cost, high-efficiency heat source that is extremely restricted in use due to the induction of air pollutants. Etc.) is a mixture of high-carbide, high-viscosity fuel such as water or waste water and a surfactant (emulsifier). Minimizes the concentration of dust, smoke, sulfuric acid cargo (SOx), nitrogen oxide (NOx), carbon monoxide (CO), etc., which can burn and become the main culprit of air pollution in the exhaust gas generated during combustion It is a high-efficiency, low-pollution, environmentally friendly clean fuel oil that is made into fuel by adding additives.

In order to reduce the consumption of petroleum fuels such as fuel oil and light oil and to reduce NOx, smoke, and similar emissions, etc., the petroleum fuel is emulsified by mixing it with water and a small amount of surfactant. Various methods for producing and burning emulsion fuels have been proposed.

Conventionally, in order to obtain an excellent emulsion fuel by emulsifying oil and water, an emulsifier such as a surfactant and other additives is mixed with the oil and water, and an emulsion fuel has been obtained by a high-performance mixer or an oiling device. In the process of storing, transporting, preheating and supplying the burner to burn it, the phase stability is destroyed by the difference in specific gravity and interfacial tension between fuel oil and water, and not only the oil-water separation phenomenon occurs, but also each There was a problem that fuel oil could not be supplied continuously and uniformly due to inaccuracy of input amount and input ratio and unstable system. Therefore, interruption phenomena of the combustion in the combustion process often occurs, combustion efficiency also becomes defective, the desired goal of fuel oil savings was not able to achieve.

The present invention improves such problems, and its technical purpose is to provide bunker C oil (hereinafter referred to as “BC oil”) or bunker A oil (hereinafter referred to as “BA oil”). ) Emulsified by mixing emulsifier and water in a ratio that matches the optimum conditions with a heavy oil such as), and supplying the oil-in-oil emulsion fuel to the boiler to reduce air pollution by enabling combustion close to complete combustion. It is an object of the present invention to provide a water-in-oil emulsion fuel production and supply device that can prevent and save energy.

Another object of the present invention is to provide an apparatus for producing and supplying water-in-oil emulsion fuel that has an extended life by simplifying the drive system and minimizing the failure location of the operating apparatus. .

An apparatus for producing and supplying a water-in-oil emulsion fuel according to a first embodiment of the present invention includes an additive storage tank in which an emulsifier that prevents a phenomenon in which oil and water is separated when an emulsion fuel is maintained at a high temperature; A water-in-oil emulsion fuel is stored, and an emulsion tank for supplying the water-in-oil emulsion fuel to the boiler through the boiler supply line from the central side surface; and installed adjacent to one internal side of the emulsion tank A circulating electric heater that uniformly controls the temperature of the water-in-oil emulsion fuel; adjusting the amount of water-in-oil emulsion fuel installed in the emulsion tank and set to match the boiler's usage load A level switch for connecting the additive storage tank with the stored emulsifier And an additive charging pump that supplies a predetermined amount so that it can be mixed with B-C oil; and is connected to the additive charging pump to control the operation of the additive charging pump so that a predetermined amount of emulsifier can be supplied An additive flow meter; a BC oil input pump for supplying a predetermined amount so that the BC oil can be mixed with water and an emulsifier; and a predetermined amount of BC connected to the BC oil input pump. A BC oil flow meter for controlling the operation of the BC oil input pump so that oil can be supplied; an additive supply line connected to the additive flow meter; and a BC oil flow meter And a first mixer for mixing the BC oil and the emulsifier; a water shut-off valve for supplying a predetermined amount of water so that it can be mixed with the BC oil and the emulsifier; A predetermined amount of water connected to the water shutoff valve; A water meter for controlling the operation of the water shut-off valve so that it can be supplied; a water supply line connected to the water meter and the first mixer are connected together, and a feed oil in which BC oil and emulsifier are mixed A mixing ejector for uniformly and uniformly mixing and discharging water; and a feedstock oil connected to the lower end of the mixing and discharging device and the emulsion tank; A mixing pump for remixing the emulsion fuel supplied from the emulsion tank; and connected to the mixing pump to remix the primary mixed feedstock and the previously emulsified emulsion fuel. A second mixer that is emulsified into uniform and fine particles and then fed to the emulsion tank through the circulating electric heater.

At this time, the additive charging pump, BC oil charging pump, water shutoff valve, additive flow meter,
The BC oil flow meter and the water meter are operated when a low signal is transmitted from the level switch of the emulsion tank, and the additive charging pump, the BC oil charging pump, and the water shutoff valve are connected to each other. The operation is stopped in response to a stop signal transmitted when the set values of the additive flow meter, BC oil flow meter, and water meter are reached.

Even if the raw material charging is stopped after completion of the raw material charging for the set amount, in the circulation system composed of the emulsion tank, the mixing pump, the second mixer, and the circulating electric heater, the emulsion fuel to be mixed is Continuously circulating, it is possible to supply emulsion fuel in a uniform state at all times while maintaining a constant ratio, a constant moisture particle state, and a constant temperature.

A steam coil is further installed on the inner peripheral surface of the additive storage tank to maintain a constant temperature of the stored emulsifier. Preferably, the emulsifier stored in the additive storage tank Is maintained in the range of 60-110 ° C.

An electric heater is further installed at the lower end outlet side of the additive storage tank, and by maintaining the temperature of the discharged emulsifier constant, the additive can be stably supplied during initial work, preferably The temperature of the emulsifier stored in the additive storage tank is 60 to 110 ° C.
Keep it in the range.

The emulsion tank is preferably manufactured with a capacity of at least a second batch charged with raw materials.

An electric heater for heat insulation is further installed on the outer peripheral surface of the emulsion tank so that the temperature of the stored water-in-oil emulsion fuel can be kept constant. Preferably, the oil tank stored in the emulsion tank The temperature of the water droplet emulsion fuel is maintained in the range of 60-80 ° C.

The circulating electric heater preferably maintains the temperature of the water-in-oil emulsion fuel supplied to the emulsion tank in a range of 60 to 80 ° C.

Preferably, the additive charging pump is charged with an emulsifier at a fixed ratio of 0.5 to 1% of the raw material charging capacity of the first batch, and the BC oil charging pump is of the raw material charging capacity of the first batch. 6
Preferably, the BC oil is charged at a fixed ratio of 9.5 to 89.5%. At this time, the water shutoff valve supplies water at a fixed ratio of 10 to 30% of the raw material charging capacity of the first batch. It is preferable to input.

A single type line mixer can be used as the first mixer, and a double type line mixer can be used as the second mixer.

A preliminary mixing pump may be used in parallel with the mixing pump between the emulsion tank in which the mixing pump is installed and the second mixer.

  As the circulation type electric heater, a shell and tube type heat exchanger is preferable.

An apparatus for producing and supplying a water-in-oil emulsion fuel according to a second embodiment of the present invention includes an additive storage tank for storing an emulsifier that prevents a phenomenon in which oil-water is separated when the water-in-oil emulsion fuel is maintained at a high temperature. An emulsion tank having at least a first batch of raw material input capacity in which the emulsified water-in-oil emulsion fuel is stored and mixed; and is installed adjacent to one internal side of the emulsion tank and supplied A circulating electric heater that uniformly controls the temperature of the water-in-oil emulsion fuel; adjusting the amount of water-in-oil emulsion fuel installed in the emulsion tank and set to match the boiler's usage load An emulsified fuel transfer pump connected to a lower end of the emulsion tank; A service tank that supplies the water-in-oil emulsion fuel to the boiler through a boiler supply line connected to the lower end of the water-in-oil emulsion fuel mixed from the John tank and temporarily stored; An additive charging pump connected to a storage tank and supplying a predetermined amount of the emulsifier stored in the storage tank together with water and BC oil; and a predetermined amount of the emulsifier connected to the additive charging pump; An additive flow meter for controlling the operation of the additive charging pump so that the oil can be supplied; a BC oil charging pump for supplying a predetermined amount so that the BC oil can be mixed with water and an emulsifier; A BC oil flow meter connected to the C oil input pump to control the operation of the BC oil input pump so that a predetermined amount of BC oil can be supplied; An additive supply line connected to a BC oil supply line connected to the BC oil flow meter, and a first mixer for mixing the BC oil and the emulsifier; A water shut-off valve for supplying a predetermined amount of water so that it can be mixed with the emulsifier; and a water meter connected to the water shut-off valve for controlling the operation of the water shut-off valve so that a predetermined amount of water can be supplied; A water supply line connected to a water meter and the first mixer are connected together, and a mixing / discharging device in which water is uniformly first mixed and discharged into a raw material oil in which BC oil and emulsifier are mixed. And a mixing pump connected to the lower end of the mixing and discharging device and the emulsion tank to remix the feed oil supplied from the mixing and discharging device and the emulsion fuel supplied from the emulsion tank; and the mixing pump And mixed with the primary mixed raw material oil and the previously emulsified emulsion fuel to make emulsion into uniform and fine particles, and then into the emulsion tank through the circulating electric heater. A second mixer for supplying it;

At this time, the additive charging pump, BC oil charging pump, water shutoff valve, additive flow meter,
The BC oil flow meter and the water meter are operated when a low signal is transmitted from the level switch of the emulsion tank, and the additive charging pump, the BC oil charging pump, and the water shutoff valve are connected to each other. The operation is stopped in response to a stop signal transmitted when the set values of the additive flow meter, BC oil flow meter, and water meter are reached.

Even if the raw material charging is stopped after completion of the raw material charging for the set amount, in the circulation system composed of the emulsion tank, the mixing pump, the second mixer, and the circulating electric heater, the emulsion fuel to be mixed is Continuously circulating, the emulsion fuel is always supplied in a uniform state while maintaining a constant ratio, a constant moisture particle state, and a constant temperature.

The service tank is further provided with a level switch for adjusting a holding amount of the water-in-oil emulsion fuel set so as to match the usage load of the boiler, and the emulsion fuel transfer pump is configured to be connected to the service tank level switch. Operates at low signal transmission,
The operation is stopped when a low signal is transmitted to the emulsion tank level switch.

An electric heater for heat insulation is further installed on the outer peripheral surface of the service tank, and the temperature of the stored water-in-oil emulsion fuel can be kept constant.

In the apparatus for producing and supplying water-in-oil emulsion fuel according to the second embodiment of the present invention,
A single type line mixer is used as the first mixer, and a double type line mixer is used as the second mixer.

An apparatus for manufacturing and supplying a water-in-oil emulsion fuel according to a third embodiment of the present invention includes an additive storage tank for storing an emulsifier that prevents the phenomenon of oil-water separation when maintaining a high temperature of the water-in-oil emulsion fuel. An emulsion tank in which the water-in-oil emulsion fuel is stored, and the water-in-oil emulsion fuel is supplied to the boiler through the boiler supply line from the side of the central part; installed in the emulsion tank to meet the usage load of the boiler A level switch for adjusting the holding amount of the water-in-oil emulsion fuel set to: the oil storage tank connected to the additive storage tank so that the stored oil agent can be mixed with water and BC oil An additive charging pump for supplying a predetermined amount; and an additive charging pump connected to the additive charging pump for supplying a predetermined amount of the emulsifier. An additive flow meter for controlling the operation of the agent charging pump; a BC oil charging pump for supplying a predetermined amount so that the BC oil can be mixed with water and an emulsifier; and connected to the BC oil charging pump. A BC oil flow meter for controlling the operation of the BC oil input pump so that a predetermined amount of BC oil can be supplied; an additive supply line connected to the additive flow meter; and the B A first mixer that is coupled together with a BC oil supply line that is connected to a C oil flow meter and mixes the BC oil and the emulsifier; A water shut-off valve for supplying a fixed amount; a water meter connected to the water shut-off valve to control the operation of the water shut-off valve so as to supply a predetermined amount of water; and a water supply line connected to the water meter; The first mixer is connected together, and B-C oil and emulsification There second mixer and are mixed with water mixed feedstock uniform primary manner; is connected with the lower end of the second mixer and the emulsion tank, wherein the feedstock oil supplied from the second mixer A mixing pump for remixing the emulsion fuel supplied from the emulsion tank; and a circulating electric heater connected to the mixing pump for uniformly maintaining the mixed feedstock supplied therefrom at a predetermined temperature; and A third oil which is connected to the circulation type electric heater and is uniformly mixed with the raw material oil to be supplied from this and the previously emulsified emulsion fuel to be emulsified into fine particles, and then supplied to the emulsion tank. A mixer;

At this time, the additive charging pump, BC oil charging pump, water shutoff valve, additive flow meter,
The BC oil flow meter and the water meter are operated when a low signal is transmitted from the level switch of the emulsion tank, and the additive charging pump, the BC oil charging pump, and the water shutoff valve are connected to each other. The operation is stopped in response to a stop signal transmitted when the set values of the additive flow meter, BC oil flow meter, and water meter are reached.

Even if the raw material charging is stopped after the raw material charging of the set amount is completed, the emulsion fuel to be mixed is not mixed in the circulating system including the emulsion tank, the mixing pump, the circulating electric heater, and the third mixer. Continuously circulating, the emulsion fuel is always supplied in a uniform state while maintaining a constant ratio, a constant moisture particle state, and a constant temperature.

In the third embodiment of the present invention, a single mixer is used as the first mixer and the second mixer, and a double mixer is used as the third mixer.

An apparatus for producing and supplying a water-in-oil emulsion fuel according to a fourth embodiment of the present invention includes an additive storage tank for storing an emulsifier that prevents the phenomenon of oil-water separation when maintaining a high temperature of the water-in-oil emulsion fuel. An emulsion tank having at least a second batch of raw material input capacity in which water-in-oil emulsion fuel is stored and mixed; installed in the emulsion tank and set to meet the boiler's usage load A level switch for adjusting the amount of water-in-oil emulsion fuel retained; an addition connected to the additive storage tank to supply a predetermined amount so that the emulsifier stored therein can be mixed with water and BA oil An additive charging pump; an additive connected to the additive charging pump to control the operation of the additive charging pump so that a predetermined amount of emulsifier can be supplied A flow meter; a B-A oil charging pump for supplying a predetermined amount so that the B-A oil can be mixed with water and an emulsifier; and a predetermined amount of the B-A oil connected to the B-A oil charging pump. A B-A oil flow meter for controlling the operation of the B-A oil charging pump so that it can be supplied; an additive supply line connected to the additive flow meter; and a B connected to the B-A oil flow meter A first mixer that is coupled together with the A oil supply line and mixes the B-A oil and the emulsifier; a water shut-off valve that supplies a predetermined amount of water so that it can be mixed with the B-A oil and the emulsifier; A water meter connected to the shut-off valve to control the operation of the water shut-off valve so that a predetermined amount of water can be supplied; a water supply line connected to the water meter and the first mixer are connected together; Uniformly supply water to the raw oil mixed with B-A oil and emulsifier 1 Second mixer and are mixed manner; is connected with the lower end of the second mixer and the emulsion tank, re-mixed with the emulsion fuel supplied from the emulsion tank and feed oil supplied from the second mixer A mixing pump; and connected to the mixing pump to mix the primary mixed feedstock and the previously emulsified emulsion fuel into an emulsion of uniform fine particles; A third mixer for feeding to the tank.

At this time, the additive charging pump, B-A oil charging pump, water shutoff valve, additive flow meter,
The B-A oil flow meter and the water flow meter are operated when a low signal is transmitted to the level switch of the emulsion tank, and the additive charging pump, the B-A oil charging pump, and the water shutoff valve are connected to each other. The operation is stopped in response to a stop signal transmitted when the set values of the additive flow meter, the B-A oil flow meter, and the water flow meter are reached.

Even if the raw material charging is stopped after the raw material charging of the set amount is completed, the emulsion fuel to be mixed continuously circulates in the circulation system including the emulsion tank, the mixing pump, and the third mixer. Thus, the emulsion fuel is always supplied in a uniform state while maintaining a constant ratio, a constant moisture particle state, and a constant temperature.

According to the apparatus for producing and supplying a water-in-oil emulsion fuel according to the present invention, after the emulsifier and water are first mixed with heavy oil such as BC oil or BA oil, the homogeneity is extremely fine. Emulsion fuel that has undergone the secondary mixing process to form water-in-oil type particles is preheated in an emulsion tank and maintained at a constant temperature, while at the same time maintaining the best emulsion state while circulating through the circulation system of the emulsion tank By being able to supply to the boiler, not only does the combustion interruption phenomenon not occur, but there is an effect that the fuel saving effect can be further increased.

In addition, the emulsion fuel supplied from the apparatus according to the present invention is about 10,000 times smaller than the existing fuel because the oil particles combusted in the combustion chamber are finely pulverized by mixing water. Therefore, since there are many opportunities to come into contact with oxygen during combustion, relatively complete combustion is possible, and the excess oxygen concentration in the exhaust gas is reduced, so that it is possible to obtain a synergy effect that improves boiler efficiency while saving energy.

In addition, when such an apparatus is applied, it is not necessary to invest in an air pollution prevention facility such as a dust collection facility, and there is an effect that facility operating costs such as power costs or maintenance and repair costs are reduced.

Hereinafter, a most preferred embodiment in which a person having ordinary knowledge in the technical field of the present invention can easily implement the present invention will be described in detail with reference to the accompanying drawings.

First, FIG. 1 is a configuration diagram illustrating a water-in-oil emulsion fuel manufacturing and supplying apparatus according to a first embodiment of the present invention.

Referring to FIG. 1, a water-in-oil emulsion fuel production and supply apparatus 1 according to this embodiment is shown.
0 represents an additive storage tank 20 for storing an emulsifier, an emulsion tank 30 for storing a water-in-oil emulsion fuel, BC oil, an emulsifier, and water as raw materials for the water-in-oil emulsion fuel. The raw material charging unit that is charged together according to the value set in the ratio, the primary mixing unit that uniformly mixes the charged raw materials in order, and the primary mixed raw material oil are first emulsified. And a secondary mixing section for re-mixing with the emulsion fuel.

The emulsifier stored in the additive storage tank 20 is an additive that plays a role of preventing the phenomenon of separation of oil and water when the water-in-oil emulsion fuel is maintained at a high temperature.

The additive storage tank 20 is maintained at a constant temperature by glass wool for maintaining the constant temperature, and a level gauge is attached to detect the storage amount of the emulsifier. A steam coil 22 is installed on the inner peripheral surface of the additive storage tank 20 to keep the temperature of the stored emulsifier constant in the range of 60 to 110 ° C. An electric heater 24 is installed on the lower end outlet side of the additive storage tank 20 to keep the temperature of the discharged emulsifier constant in the range of 60 to 110 ° C. As a result, it is possible to discharge a certain amount by the additive charging pump 21 described below.

The emulsion tank 30 also serves as a service tank function for storing the water-in-oil emulsion fuel and supplying it to a boiler (not shown) at the same time. Such a water-in-oil emulsion fuel is supplied from the side surface of the lower end of the emulsion tank 30 through a boiler supply line (Lb).

The emulsion tank 30 is provided with a level switch 34 that adjusts the amount of water-in-oil emulsion fuel that is set so as to match the usage load of the boiler. This level switch 34 senses a 'high' or 'low' level depending on the amount of water-in-oil emulsion fuel held in the emulsion tank 30, but the amount of water-in-oil emulsion fuel held is low. When the raw material input capacity of the first batch is reached, the low level switch 34b is activated to transmit an operation signal to the fuel input part, and when the water-in-oil emulsion fuel holding amount reaches the raw material input capacity of the second batch Thus, the high-level switch 34a is activated to transmit a stop signal to the fuel input portion.

Here, the raw material input capacity of the first batch means the total amount of raw materials (BC oil, emulsifier, water) continuously input during the first input time.

Therefore, it is preferable that the emulsion tank 30 is manufactured so as to be at least equal to or larger than the raw material input capacity of the second batch.

A circulation type electric heater 32 is installed adjacent to one side surface of the emulsion tank 30. The circulating electric heater 32 transfers sufficient heat to the low temperature water-in-oil emulsion fuel supplied to the emulsion tank 30 after being newly mixed, and is controlled to be constant within a range of 60 to 80 ° C. Thus, the temperature deviation in the emulsion tank 30 is reduced. Such a structure of the circulating electric heater 32 can improve the heat exchange rate by applying a shell and tube type heat exchanger. In order to facilitate temperature control, a reducer nozzle is used on the outlet side according to the flow rate, the nozzle angle is set to 45 °, and it is installed so as to face the inlet side of the mixing pumps 28a and 28b described below. This facilitates the thermal circulation of the water-in-oil emulsion fuel by inducing the vortex phenomenon, and inducing the uniformly mixed particles to rise to the upper layer first. To do.

An electric heater 31 for heat insulation is installed on the outer peripheral surface of the emulsion tank 30 to sense the temperature of the stored water-in-oil emulsion fuel and maintain a constant temperature set within a range of 60 to 80 ° C. . Such a heat retaining electric heater 31 operates in conjunction with the circulation type electric heater 32 during the emulsion mixing operation, but is separated from this when the operation is stopped for a long time until the next operation after the operation is completed. Thus, the constant temperature maintaining function of the emulsion tank 30 is performed alone.

The raw material charging unit is equipped with a pump and a flow meter so that the emulsifier, BC oil, and water are uniformly charged according to the set values.

First, an additive charging pump 21 and an additive flow meter 23 are installed to add an emulsifier. The additive charging pump 21 is connected to the outlet of the additive storage tank 20 and operates in response to transmission of a low signal from the level switch 34 of the emulsion tank 30, and is 0.5 to 1% of the raw material charging capacity of the first batch. Emulsifier is added at a fixed ratio. Such an additive charging pump 21 receives a stop signal transmitted from the additive flow meter 23 and stops its operation. Such signal transmission is performed by a control panel (not shown). When the additive charging pump 21 stops in response to the transmitted stop signal, the piping is shut off, and at the same time, it functions as a shutoff valve for the additive supply line.

The additive flow meter 23 is connected to the additive charging pump 21 and controls the additive charging pump 21 so that the emulsifier can be charged so as to match the emulsifier addition set value. That is, additive flow meter 2
3 is activated when a low signal of the level switch 34 of the emulsion tank 30 is detected, and after supplying a predetermined amount of emulsifier, a stop signal is sent to the additive charging pump 21 to stop it.

In order to feed B-C oil, a B-C oil feeding pump 12 and a B-C oil flow meter 14 are installed. The B-C oil charging pump 12 is activated when a low signal of the level switch 34 of the emulsion tank 30 is detected, and B-C oil is supplied at a fixed ratio of 69.5 to 89.5% of the raw material charging capacity of the first batch. throw into. Such a B-C oil charging pump 12 is stopped in response to transmission of a stop signal from the B-C oil flow meter 14. Such signal transmission is performed by a control panel (not shown).
Is done by.
The BC oil flow meter 14 is connected to the BC oil input pump 12 and controls the BC oil input pump 12 so that only the set amount of BC oil can be supplied. That is, BC oil flow meter 14
Is activated when a low signal of the level switch 34 of the emulsion tank 30 is detected, and a predetermined amount of B
After supplying the -C oil, a stop signal is sent to the B-C oil charging pump 12 to stop it.

In order to introduce water, a water shutoff valve 16 and a water meter 18 are installed. Water shutoff valve 16
Operates when a low signal is detected by the level switch 34 of the emulsion tank 30, and water is charged at a fixed ratio of 10 to 30% of the raw material charging capacity of the first batch. Such a water shutoff valve 16
Receives the stop signal transmitted from the water meter 18 and stops its operation. Such signal transmission is performed by a control panel (not shown).

A water meter 18 is connected to the water shutoff valve 16 and controls the water shutoff valve 16 so that only a set amount of water is supplied. That is, the water meter 18 operates when a low signal is detected by the level switch 34 of the emulsion tank 30, and after supplying a predetermined amount of water, sends a stop signal to the water shutoff valve 16 to shut off the water supply.

On the other hand, the primary mixing unit for pre-mixing function and maximizing the efficiency of the secondary mixing unit in the initial stage of charging the raw material includes a first mixer 25 and a mixing ejector 27.

The first mixer 25 has an additive supply line (La) connected to the additive flow meter 23, and
A BC oil supply line (Lo) connected to the BC oil flow meter 14 is connected together,
Mix C oil and emulsifier. The first mixer 25 is preferably a single type (S-type) line mixer as shown in FIG.

A water supply line (Lw) and the first mixer 25 are connected to the mixing and discharging device 27, and
Water is mixed with the raw oil mixed with the emulsifier. As shown in FIG. 3, the mixing and discharging device 27 employs a method in which a secondary charging pipe is inserted and mixed into a venturi pipe which is a pipe having an enlarged and reduced diameter.

The secondary mixing unit that functions to mix the primary raw material oil uniformly mixed in the primary mixing unit into fine particles includes a mixing pump 28 and a second mixer 29.

The mixing pump 28 is connected to the mixing and discharging device 27 and the lower end of the emulsion tank 30, and remixes the raw material oil supplied from the mixing and discharging device 27 and the emulsion fuel supplied from the emulsion tank 30. Such a mixing pump 28 is continuously operated while the apparatus according to the present embodiment is in operation, and the capacity of the mixing pump 28 is the total volume of the emulsion fuel stored in the emulsion tank 30. It is preferable to have a volume that can be mixed during consumption. Further, the auxiliary mixing pump 28b is connected in parallel with the main mixing pump 28a between the emulsion tank 30 and the second mixer 29, so that it is possible to cope with an emergency situation and equipment repair.

The second mixer 29 is connected to a mixing pump 28 and a water-in-oil emulsion fuel obtained by emulsifying primary mixed raw material oil into uniform and fine particles is passed through the circulating electric heater 32 to an emulsion tank. 30. As such a second mixer 29, a double-type (D-type) line mixer as shown in FIG. 4 is preferable, and its capacity is designed to be at least twice the raw material input capacity of the first batch. Accordingly, the raw material oil that is primarily mixed and the emulsion fuel that is ideally mixed in the emulsion tank 30 flow in approximately 20% to 50% and are secondarily mixed, whereby the moisture ratio and The stability of the particles can be maximized.

  Hereinafter, the operation process of the apparatus according to this embodiment will be described.

The basic process of the water-in-oil type emulsion fuel production and supply apparatus 10 is to hold the emulsion fuel in the emulsion tank 30 and supply the emulsion fuel to the emulsion tank 30 so as to meet the load of a boiler (not shown). Consists of a replenishment and supply system.

The operation in the normal operation state is started at the low level of the emulsion tank 30 or more, and the fuel is consumed as the boiler is operated, and the level switch 34 detects the low level and transmits a low signal.

A control panel (not shown) that receives the low signal sends a signal to the raw material input part,
The first batch operation is performed by operating the additive charging pump 21 and the BC oil charging pump 12 and opening the water shutoff valve 16. In the first batch operation, emulsifier, BC
Oil and water are supplied for a predetermined time at a predetermined ratio set in advance.

The emulsifier and BC oil that are respectively added when the additive charging pump 21 and the BC oil charging pump 12 are operated are mixed with each other by the first mixer 25. When the water shutoff valve 16 is opened, water is introduced, and the introduced water is mixed with the fuel in which the emulsifier and the BC oil are mixed by the mixing and discharging device 27.

All the feedstock oils are mixed and charged into the mixing pump 28, and the premixed emulsion fuel in an amount of 20% to 50% of the feedstock oil is also supplied from the emulsion tank 30 to the mixing pump 2.
8 and mixed with raw material oil on the inlet side.

The mixed raw material oil is sent to the second mixer 29 by the mixing pump 28, mixed in an emulsion state having uniform particles by the second mixer 29, and charged into the emulsion tank 30.

When the temperature of the emulsion fuel flowing into the emulsion tank 30 is low and the temperature of the emulsion tank 30 falls below the set temperature, the circulation electric heater 32 is turned on (
When the temperature is higher than the set temperature, the power is turned off (Off).

If it is confirmed that the flow rate set for the first batch operation has been completed by each flow meter, each pump power supply is turned off in response to the signal from the flow meter that has been completed. That means
If all of the BC oil set amount is supplied by the BC oil flow meter 14, the control oil is detected by the control panel, and then the power of the BC oil input pump 12 is turned off. The emulsifier, when all set values are input by the additive flow meter 23, is sensed by the control panel, and then the power of the additive charging pump 21 is turned off. In the water meter 18, if all the set values are input, it is detected by the control panel, and then the water shutoff valve 16 is closed to shut off the water supply.

When the feed of the first batch is completed, the amount of the emulsion fuel in the emulsion tank 30 becomes equal to or less than the feed capacity of the second batch, and the emulsion fuel of only the feed capacity of the first batch according to the usage load of the boiler again. Until the fuel is consumed, the emulsion fuel in the emulsion tank 30 is continuously mixed while circulating through the mixing pump 28 and the second mixer 29.

When the emulsion fuel is continuously consumed according to the amount of boiler fuel used and the low level switch 34 of the emulsion tank 30 is activated, the emulsion fuel is replenished while the above process is repeated.

FIG. 5 is a block diagram showing an apparatus for manufacturing and supplying water-in-oil emulsion fuel according to a second embodiment of the present invention.

Referring to FIG. 5, a water-in-oil emulsion fuel production and supply apparatus 4 according to this embodiment.
0 is an additive storage tank 41 for storing an emulsifier, an emulsion tank 43 for storing a water-in-oil emulsion fuel, BC oil, an emulsifier, and water as raw materials for the water-in-oil emulsion fuel. The raw material input part to be charged together according to the set value of each ratio, the primary mixing part to uniformly mix the charged raw materials in order, and the primary mixed raw material oil to be emulsified first And a secondary mixing unit for remixing the emulsified fuel and emulsifying it, and further including a service tank 45 for storing the water-in-oil emulsified emulsion fuel before supplying it to the boiler.

The emulsion tank 43 is preferably manufactured to have a raw material input capacity of at least one batch.

The service tank 45 receives the mixed water-in-oil emulsion fuel from the emulsion tank 43 by the emulsion fuel transfer pump 47 connected to the lower end of the emulsion tank 43, temporarily stores it, and is connected to the lower end thereof. Boiler supply line (Lb
) To supply the water-in-oil emulsion fuel to the boiler.

A level switch 49 is installed in the service tank 45 to adjust the amount of water-in-oil emulsion fuel that is set to match the boiler's usage load. That is, the emulsion fuel transfer pump 47 operates when a low signal of the level switch 49 of the service tank 45 is detected, and stops operating when a low signal of the level switch 46 of the emulsion tank 43 is detected.

A heat retaining electric heater 48 is installed on the outer peripheral surface of the service tank 45, and the temperature of the stored water-in-oil emulsion fuel can be kept constant.

The construction and function of other components of the water-in-oil emulsion fuel production and supply device 40 according to this embodiment are the same as or belong to the same range as those of the first embodiment.

FIG. 6 is a block diagram showing an apparatus for producing and supplying water-in-oil emulsion fuel according to a third embodiment of the present invention.

Referring to FIG. 6, a water-in-oil emulsion fuel production and supply device 6 according to the present embodiment.
0 represents an additive storage tank 61 for storing an emulsifier, an emulsion tank 63 for storing a water-in-oil emulsion fuel, and BC oil, an emulsifier, and water as raw materials for the water-in-oil emulsion fuel. The raw material input part to be charged together according to the set value of each ratio, the primary mixing part to uniformly mix the charged raw materials in order, and the primary mixed raw material oil to be emulsified first And a secondary mixing section for re-mixing the emulsion fuel and emulsifying it.

In particular, in the water-in-oil emulsion fuel production and supply apparatus 60 according to the present embodiment, the circulation type electric heater 70 and the third mixer 69 are installed in this order on the circulation line from the mixing pump 68 to the emulsion tank 63. . Accordingly, the raw material oil mixed by the mixing pump 68 is uniformly absorbed at a predetermined temperature by the circulation electric heater 70 and supplied to the third mixer 69, and in this third mixer 69, such raw material oil is supplied. After being emulsified into uniform and fine particles, it is supplied to the emulsion tank 63.

Moreover, in the apparatus 60 by a present Example, the 1st mixer 65 with which an additive supply line (La) and BC oil supply line (Lo) meet and an emulsifier and BC oil are mixed, and this 1st A single-type mixer is applied to the second mixer 67 in which the raw material oil mixed in the mixer 65 and the water supplied from the water supply line (Lw) meet to be mixed, and the mixed raw material oil is emulsified. A double-type mixer is applied to the 3 mixer 69.

The construction and operation of other components of the water-in-oil emulsion fuel production and supply device 60 according to this embodiment are the same as or within the same range as in the first embodiment.

FIG. 7 is a block diagram showing a water-in-oil emulsion fuel production and supply apparatus according to a fourth embodiment of the present invention.
Referring to FIG. 7, a water-in-oil emulsion fuel production and supply device 80 according to this embodiment is provided.
Are an additive storage tank 81 for storing an emulsifier, an emulsion tank 83 for storing an emulsified water-in-oil emulsion fuel, and a BA oil, an emulsifier, and water that are raw materials for the water-in-oil emulsion fuel. , A raw material charging part that is charged together in accordance with each set value at a predetermined ratio, a primary mixing part that uniformly mixes the charged raw materials in order, and the primary mixed raw material oil and the first And a secondary mixing section for re-mixing the emulsified emulsion fuel with the emulsified emulsion fuel.

In the apparatus 80 according to this embodiment, the additive supply line (La) and the BA oil supply line (Lo)
) And the first mixer 84 in which the emulsifier and the B-A oil are mixed, and the first mixer 8
In the second mixer 86 in which the raw material oil mixed in 4 and the water supplied from the water supply line (Lw) meet and are mixed, both the mixing and discharging device and the single type mixer are applied. A double mixer is applied to the third mixer 88 to be emulsified.

In particular, the raw oil supplied from the mixing pump 85 is emulsified into uniform and fine particles by the third mixer 88 and immediately supplied to the emulsion tank 83.

The construction and function of the other components of the water-in-oil emulsion fuel production and supply device 80 according to this embodiment are the same as or belong to the same range as in the first embodiment.

The preferred embodiments of the present invention have been described above. However, the present invention is not limited to these embodiments, and various modifications may be made within the scope of the claims, the detailed description of the invention, and the attached drawings. This is also within the scope of the present invention.

It is the block diagram which showed the manufacture and supply apparatus of the water-in-oil type emulsion fuel by 1st Example of this invention. It is sectional drawing which showed the single type line mixer applied to the manufacture and supply apparatus of the water-in-oil type emulsion fuel by 1st Example of this invention. It is sectional drawing which showed the mixing discharge apparatus applied to the manufacture and supply apparatus of the water-in-oil emulsion fuel by 1st Example of this invention. It is sectional drawing which showed the double type line mixer applied to the manufacture and supply apparatus of the water-in-oil type emulsion fuel by 1st Example of this invention. It is the block diagram which showed the manufacture and supply apparatus of the water-in-oil type emulsion fuel by 2nd Example of this invention. It is the block diagram which showed the manufacture and supply apparatus of the water-in-oil emulsion fuel by 3rd Example of this invention. It is the block diagram which showed the manufacture and supply apparatus of the water-in-oil type emulsion fuel by 4th Example of this invention.

Claims (24)

An additive storage tank in which an emulsifier is stored to prevent the separation of oil and water when maintaining a high temperature of the water-in-oil emulsion fuel;
An emulsion tank in which the water-in-oil emulsion fuel is stored, and the water-in-oil emulsion fuel is supplied to the boiler through the boiler supply line from the center side surface;
A circulating electric heater which is installed adjacent to one side of the emulsion tank and uniformly controls the temperature of the supplied water-in-oil emulsion fuel;
A level switch that is installed in the emulsion tank and that adjusts the amount of water-in-oil emulsion fuel that is set to match the usage load of the boiler;
An additive charging pump connected to the additive storage tank and supplying a predetermined amount so that the emulsifier stored therein can be mixed with water and BC oil;
An additive flow meter connected to the additive input pump for controlling the operation of the additive input pump so that a predetermined amount of emulsifier can be supplied;
B-C oil charging pump that supplies a predetermined amount so that B-C oil can be mixed with water and an emulsifier;
A BC oil flow meter connected to the BC oil input pump to control the operation of the BC oil input pump so that a predetermined amount of BC oil can be supplied;
An additive supply line connected to the additive flow meter and a BC oil supply line connected to the BC oil flow meter are connected together to mix the BC oil and the emulsifier. ;
A water shut-off valve that supplies a predetermined amount of water so that it can be mixed with BC oil and emulsifier;
A water meter connected to the water shutoff valve for controlling the operation of the water shutoff valve so that a predetermined amount of water can be supplied;
The water supply line connected to the water meter and the first mixer are connected together, and the mixed discharge in which water is uniformly mixed and discharged into the raw oil mixed with the BC oil and the emulsifier. apparatus;
A mixing pump connected to a lower end of the mixing and discharging device and the emulsion tank to remix the raw material oil supplied from the mixing and discharging device and the emulsion fuel supplied from the emulsion tank; and connected to the mixing pump The primary mixed raw oil and the previously emulsified emulsion fuel are remixed to be emulsified into uniform fine particles, and then supplied to the emulsion tank through the circulating electric heater. A second mixer;
The additive feed pump, BC oil feed pump, water shutoff valve, additive flow meter, BC oil flow meter, and water meter are activated when a low signal of the emulsion tank level switch is transmitted. The additive feed pump, the BC oil feed pump, and the water shutoff valve are transmitted when the set values of the additive flow meter, BC oil flow meter, and water meter connected to each other are reached. In response to a stop signal,
Even if the raw material charging is stopped after the set amount of raw material has been completed, the emulsion fuel to be mixed is continuously produced in the circulation system including the emulsion tank, the mixing pump, the second mixer, and the circulating electric heater. An apparatus for producing and supplying a water-in-oil type emulsion fuel, in which an emulsion fuel in a uniform state can be always supplied while maintaining a constant ratio, a constant moisture particle state, and a constant temperature. The apparatus for producing and supplying a water-in-oil emulsion fuel according to claim 1, wherein a steam coil is further installed on an inner peripheral surface of the additive storage tank to maintain a constant temperature of the stored emulsifier. The apparatus for producing and supplying a water-in-oil emulsion fuel according to claim 2, wherein the steam coil maintains the temperature of the emulsifier stored in the additive storage tank in a range of 60 to 110 ° C. The electric heater is further installed at the lower end outlet side of the additive storage tank, and the temperature of the discharged emulsifier is kept constant so that the additive can be stably supplied during the initial operation. An apparatus for producing and supplying a water-in-oil emulsion fuel as described. The said electric heater is a manufacturing and supply apparatus of the water-in-oil emulsion fuel of Claim 4 which maintains the temperature of the emulsifier preserve | saved in the said additive storage tank in the range of 60-110 degreeC. 2. The apparatus for producing and supplying a water-in-oil emulsion fuel according to claim 1, wherein the emulsion tank has a capacity of at least a second batch capacity charged with a raw material. 2. The production of the water-in-oil emulsion fuel according to claim 1, wherein an electric heater for heat insulation is further installed on the outer peripheral surface of the emulsion tank, and the temperature of the stored water-in-oil emulsion fuel can be kept constant. And feeding device. The apparatus for producing and supplying water-in-oil emulsion fuel according to claim 7, wherein the electric heater for heat insulation maintains the temperature of the water-in-oil emulsion fuel stored in the emulsion tank in a range of 60 to 80 ° C. . The apparatus for producing and supplying water-in-oil emulsion fuel according to claim 1, wherein the circulating electric heater maintains the temperature of the water-in-oil emulsion fuel supplied to the emulsion tank in a range of 60 to 80 ° C. . 2. The apparatus for producing and supplying water-in-oil emulsion fuel according to claim 1, wherein the additive charging pump inputs the emulsifier at a fixed ratio of 0.5 to 1% of the raw material charging capacity of the first batch. 2. The water-in-oil emulsion fuel according to claim 1, wherein the BC oil input pump inputs BC oil at a fixed ratio of 69.5 to 89.5% of the raw material input capacity of the first batch. Manufacturing and supply equipment. 2. The apparatus for producing and supplying water-in-oil emulsion fuel according to claim 1, wherein the water shut-off valve inputs water at a fixed ratio of 10 to 30% of the raw material input capacity of the first batch. The apparatus for producing and supplying a water-in-oil emulsion fuel according to claim 1, wherein the first mixer is a single-type line mixer. The apparatus for producing and supplying a water-in-oil emulsion fuel according to claim 1, wherein the second mixer is a double line mixer. 2. The apparatus for producing and supplying water-in-oil emulsion fuel according to claim 1, wherein the mixing pump includes a premixing pump connected in parallel between the emulsion tank and the second mixer and the mixing pump. 3. . The apparatus for producing and supplying a water-in-oil emulsion fuel according to claim 1, wherein a shell and tube type heat exchanger is used as the circulating electric heater. An additive storage tank in which an emulsifier is stored to prevent the separation of oil and water when maintaining a high temperature of the water-in-oil emulsion fuel;
An emulsion tank having a raw material input capacity of at least a first batch, in which water-in-oil emulsion fuel is stored and mixed;
A circulating electric heater which is installed adjacent to one side of the emulsion tank and uniformly controls the temperature of the supplied water-in-oil emulsion fuel;
A level switch that is installed in the emulsion tank and that adjusts the amount of water-in-oil emulsion fuel that is set to match the usage load of the boiler;
The emulsion fuel transfer pump connected to the lower end of the emulsion tank is supplied with the water-in-oil emulsion fuel mixed from the emulsion tank and temporarily stored, while being supplied to the boiler through the boiler supply line connected to the lower end of the emulsion tank. Service tank supplying water-in-oil emulsion fuel;
An additive charging pump connected to the additive storage tank and supplying a predetermined amount so that the emulsifier stored therein can be mixed with water and BC oil;
An additive flow meter connected to the additive input pump for controlling the operation of the additive input pump so that a predetermined amount of emulsifier can be supplied;
B-C oil charging pump that supplies a predetermined amount so that B-C oil can be mixed with water and an emulsifier;
A BC oil flow meter connected to the BC oil input pump to control the operation of the BC oil input pump so that a predetermined amount of BC oil can be supplied;
A first mixer in which an additive supply line connected to the additive flow meter and a BC oil supply line connected to the BC oil flow meter are connected together to mix the BC oil and the emulsifier;
B-C oil and so can be mixed with an emulsifier, a predetermined quantity supplied water shutoff valve the water;
A water meter connected to the water shutoff valve for controlling the operation of the water shutoff valve so that a predetermined amount of water can be supplied;
The water supply line connected to the water meter and the first mixer are connected together, and the mixed discharge in which water is uniformly mixed and discharged into the raw oil mixed with the BC oil and the emulsifier. apparatus;
A mixing pump connected to a lower end of the mixing and discharging device and the emulsion tank to remix the raw material oil supplied from the mixing and discharging device and the emulsion fuel supplied from the emulsion tank; and connected to the mixing pump The primary mixed raw oil and the previously emulsified emulsion fuel are remixed to be emulsified into uniform fine particles, and then supplied to the emulsion tank through the circulating electric heater. A second mixer;
The additive charging pump, BC oil charging pump, water shutoff valve, additive flow meter, BC oil flow meter, and water meter are activated when a low signal is transmitted to the emulsion tank level switch. The additive feed pump, the BC oil feed pump, and the water shutoff valve are transmitted when the set values of the additive flow meter, BC oil flow meter, and water meter connected to each other are reached. In response to the stop signal
Even if the raw material charging is stopped after the set amount of raw material has been completed, the emulsion fuel to be mixed is continuously mixed in the circulation system including the emulsion tank, the mixing pump, the second mixer, and the circulating electric heater. An apparatus for producing and supplying water-in-oil emulsion fuel, in which the emulsion fuel is circulated and constantly supplied in a uniform state while maintaining a constant ratio, a constant moisture particle state, and a constant temperature. The apparatus for producing and supplying water-in-oil emulsion fuel according to claim 17, wherein a single-type mixer is used as the first mixer, and a double-type mixer is used as the second mixer. The service tank is further provided with a level switch for adjusting the amount of water-in-oil emulsion fuel that is set so as to match the usage load of the boiler, and the emulsion fuel transfer pump is provided at a lower level than the service tank level switch. 18. The apparatus for producing and supplying water-in-oil emulsion fuel according to claim 17, wherein the apparatus operates when a signal is transmitted and stops when a low signal is transmitted to the emulsion tank level switch. 18. The manufacture and supply of the water-in-oil emulsion fuel according to claim 17, further comprising an electric heater for heat insulation provided on an outer peripheral surface of the service tank to maintain a constant temperature of the stored water-in-oil emulsion fuel. apparatus. An additive storage tank in which an emulsifier is stored to prevent the separation of oil and water when maintaining a high temperature of the water-in-oil emulsion fuel;
An emulsion tank in which the water-in-oil emulsion fuel is stored, and the water-in-oil emulsion fuel is supplied to the boiler through the boiler supply line from the center side surface;
A level switch that is installed in the emulsion tank and that adjusts the amount of water-in-oil emulsion fuel that is set to match the usage load of the boiler;
An additive charging pump connected to the additive storage tank and supplying a predetermined amount so that the emulsifier stored therein can be mixed with water and BC oil;
An additive flow meter connected to the additive input pump for controlling the operation of the additive input pump so that a predetermined amount of emulsifier can be supplied;
B-C oil charging pump that supplies a predetermined amount so that B-C oil can be mixed with water and an emulsifier;
A BC oil flow meter connected to the BC oil input pump to control the operation of the BC oil input pump so that a predetermined amount of BC oil can be supplied;
A first mixer in which an additive supply line connected to the additive flow meter and a BC oil supply line connected to the BC oil flow meter are connected together to mix the BC oil and the emulsifier;
A water shut-off valve that supplies a predetermined amount of water so that it can be mixed with BC oil and emulsifier;
A water meter connected to the water shutoff valve for controlling the operation of the water shutoff valve so that a predetermined amount of water can be supplied;
A second mixer in which a water supply line connected to the water meter and the first mixer are connected together, and water is uniformly and primarily mixed with a raw material oil in which BC oil and emulsifier are mixed;
A mixing pump connected to the lower ends of the second mixer and the emulsion tank to remix the feed oil supplied from the second mixer and the emulsion fuel supplied from the emulsion tank;
A circulating electric heater connected to the mixing pump to uniformly maintain the mixed feed oil supplied from now on at a predetermined temperature; and a feedstock oil and a tip supplied from the circulating electric heater connected to the circulating pump. A third mixer that is mixed with the emulsified emulsion fuel to be emulsified into uniform fine particles and then fed to the emulsion tank;
The additive charging pump, BC oil charging pump, water shutoff valve, additive flow meter, BC oil flow meter, and water meter are activated when a low signal is transmitted from the level switch of the emulsion tank. A stop signal transmitted when a set value of each of the additive flow meter, the BC oil flow meter, and the water flow meter connected to each of the additive flow pump, the BC oil flow pump, and the water shutoff valve is reached. In response to
Even if the raw material charging is stopped after a predetermined amount of raw material has been charged, in the circulation system composed of the emulsion tank, the mixing pump, the circulating electric heater, and the third mixer, the emulsion fuel to be mixed is continuously added. A water-in-oil emulsion fuel production and supply device in which a constant ratio, a constant water particle state, and a constant temperature are constantly supplied while the emulsion fuel is constantly supplied. The apparatus for producing and supplying water-in-oil emulsion fuel according to claim 21, wherein a single-type mixer is used as the first mixer and the second mixer, and a double-type mixer is used as the third mixer. An additive storage tank in which an emulsifier is stored to prevent the separation of oil and water when maintaining a high temperature of the water-in-oil emulsion fuel;
An emulsion tank having at least a second batch of raw material input capacity in which water-in-oil emulsion fuel is stored and mixed;
A level switch that is installed in the emulsion tank and that adjusts the amount of water-in-oil emulsion fuel that is set to match the usage load of the boiler;
An additive charging pump connected to the additive storage tank and supplying a predetermined amount so that the emulsifier stored in the tank can be mixed with water and BA oil;
An additive flow meter connected to the additive input pump for controlling the operation of the additive input pump so that a predetermined amount of emulsifier can be supplied;
B-A oil charging pump that supplies a predetermined amount so that B-A oil can be mixed with water and an emulsifier;
A B-A oil flow meter connected to the B-A oil charging pump to control the operation of the B-A oil charging pump so that a predetermined amount of B-A oil can be supplied;
A first mixer in which an additive supply line connected to the additive flow meter and a BA oil supply line connected to the BA oil flow meter are connected together to mix the BA oil and the emulsifier;
A water shut-off valve that supplies a predetermined amount of water so that it can be mixed with B-A oil and emulsifier;
A water meter connected to the water shutoff valve for controlling the operation of the water shutoff valve so that a predetermined amount of water can be supplied;
A water supply line connected to the water meter and the first mixer are connected together, and a second mixer that uniformly mixes and discharges water to the feed oil mixed with the B-A oil and the emulsifier. ;
A mixing pump connected to the lower ends of the second mixer and the emulsion tank to remix the feed oil supplied from the second mixer and the emulsion fuel supplied from the emulsion tank; and connected to the mixing pump A third mixer that mixes the primary mixed raw oil and the previously emulsified emulsion fuel to make the emulsion into uniform fine particles and then feeds the emulsion into the emulsion tank;
The additive charging pump, the B-A oil charging pump, the water shutoff valve, the additive flow meter, the B-A oil flow meter, and the water flow meter are activated when a low signal is transmitted to the level switch of the emulsion tank. A stop signal transmitted when the set value of each of the additive flow meter, the B-A oil flow meter, and the water flow meter connected to each of the additive flow pump, the B-A oil flow pump, and the water cutoff valve is reached. In response to
Even if the raw material charging is stopped after the raw material charging of the set amount is completed, the emulsion fuel to be mixed continuously circulates in the circulation system composed of the emulsion tank, the mixing pump, and the third mixer, and is constant. A device for producing and supplying a water-in-oil emulsion fuel, in which the emulsion fuel is always supplied in a uniform state while maintaining the ratio of water, a constant moisture particle state, and a constant temperature. 24. Production of water-in-oil emulsion fuel according to claim 23, wherein both the first mixer and the second mixer are a mixing and discharging device and a single mixer, and the third mixer is a double mixer. And feeding device.

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