KR102041421B1 - Boiler for vessel - Google Patents

Abstract

It is possible to reduce the fuel consumption of the combustion boiler, and to obtain a marine boiler having an excellent effect on energy saving.
In the first water chamber 1, a combustion boiler 4 having a first linkage 3 for flowing combustion exhaust gas of the combustion device 2 and a second linkage 5 for flowing main equipment exhaust gas are provided. In the combined boiler 9 in which the built-in main apparatus exhaust heat recovery boiler 6 is combined and the exhaust gas outlets 7 and 8 of the combustion boiler 4 and the main apparatus exhaust heat recovery boiler 6 are provided separately, Further, the boiler connected to the auxiliary apparatus exhaust heat recovery boiler 10 and the composite boiler 9 for recovering the heat of the exhaust gas of the auxiliary equipment is connected so that the steam generated from the auxiliary apparatus exhaust heat recovery boiler 10 is connected. It was made to be supplied to the steam using apparatus through the said water chamber 1 of (9), and the exhaust heat of the auxiliary apparatus was utilized effectively, and the fuel consumption amount in the combustion boiler 4 was reduced.

Description

Marine boilers {BOILER FOR VESSEL}

The present invention relates to a marine boiler.

BACKGROUND ART Conventionally, this type of boiler comprises a flue gas section evaporating tube group and an oil heating part evaporating tube group arranged laterally, and the main exhaust gas and combustion exhaust gas obtained by oil heating are There is an associative composite boiler which is configured to pass through the inside of the pipe and the outside of the inside as a water chamber, and is compactly and compactly configured (see Patent Document 1, for example).

In the composite boiler described in Patent Literature 1, an auxiliary boiler having a combustion device is installed in a boiler using exhaust heat held by exhaust gas of a ship engine serving as a main device as a heat source, and exhausted by reducing or stopping the load of the engine. When the heat quantity of gas is insufficient, it reheats by the combustion apparatus of an auxiliary boiler, and acquires required heat quantity.

Japanese Patent Laid-Open No. 9-329301

As mentioned above, although the composite boiler of patent document 1 uses the exhaust heat which the exhaust gas of the ship engine which becomes a main apparatus as a main heat source, in recent years, improvement of a ship engine progresses because of an environmental problem, and the engine efficiency As a result, the temperature of the exhaust gas discharged from the ship engine is lowered, and in order to ensure the amount of heat recovery in the conventional manner, problems such as an increase in the installation space due to the enlargement of the boiler or an increase in the combustion load on the combustion boiler side occur. have.

The present inventors have conducted research to solve such a problem, and as a result, the inventors have focused on using the heat of exhaust gas emitted by equipment other than the main engine (hereinafter referred to as an auxiliary equipment) such as a generator provided in a ship. The invention has been completed.

An object of the present invention is to provide a marine boiler which aims at reducing fuel consumption of a combustion boiler and exerts an excellent effect on energy saving.

In order to achieve the above object, a first aspect of the present invention provides a combustion boiler having a first linkage in which a combustion exhaust gas of a combustion apparatus flows in a first water chamber, and a main equipment exhaust gas. In a composite boiler in which a main device exhaust heat recovery boiler having a second association built therein is provided separately from the outlet of the exhaust gas of the combustion boiler and the main device exhaust heat recovery boiler, further, the exhaust gas heat of the auxiliary device is further reduced. The auxiliary device exhaust heat recovery boiler for recovering the gas and the boiler water of the composite boiler communicate with each other, and use the steam generated from the auxiliary device exhaust heat recovery boiler through the first water chamber of the composite boiler. Characterized in that the supply to the device.

According to the first aspect of the present invention, the auxiliary device exhaust heat recovery boiler for recovering heat of exhaust gas of the auxiliary device and the boiler water of the composite boiler are connected so that the steam generated from the auxiliary device exhaust heat recovery boiler is connected. Since it is made to supply to a steam use apparatus through the said 1st water chamber of a composite boiler, the fuel consumption in the said combustion boiler can be reduced by making use of the exhaust heat of the auxiliary apparatus discharged | emitted so far without being recovered.

In addition, since the auxiliary apparatus exhaust heat recovery boiler and the boiler water of the composite boiler are connected so as to communicate with each other, steam can always be generated regardless of the heat recovery of any auxiliary equipment, and the saturated water of the saturation temperature equal to the set pressure ( Water can be stored in the first water chamber of the composite boiler, allowing instant steam supply to meet the demand of the load.

In addition, when a plurality of auxiliary device exhaust heat recovery boilers for recovering heat of exhaust gas of each auxiliary device are connected to the composite boiler, the heat of the exhaust gas discharged from the plurality of auxiliary devices can be efficiently recovered.

In addition, the auxiliary equipment exhaust heat recovery boiler for recovering the heat of the exhaust gas of the auxiliary equipment is only in communication with the boiler water of the composite boiler, and there is no common configuration, and the exhaust gas inlet duct and the exhaust gas discharge duct are independent configurations. By doing so, it is possible to satisfy the classification required for the ship standard.

According to a second aspect of the present invention, the auxiliary equipment exhaust heat recovery boiler is configured by embedding a third linkage in a second water chamber, and the second water chamber and the first water chamber of the composite boiler are connected by a connecting pipe. It features.

According to the second aspect of the present invention, in the auxiliary equipment exhaust heat recovery boiler, the gaseous gas in which the exhaust gas of the auxiliary equipment passing through the third tube built in the second water chamber and water in the second water chamber are heat-exchanged. The boiler water in which i) is mixed flows into the first water chamber of the composite boiler to be gas-liquid separated, and the vapor, which is a gas, is supplied to the steam using device.

According to a third aspect of the present invention, in the auxiliary apparatus exhaust heat recovery boiler, an auxiliary equipment exhaust gas flows through an outer surface of the water pipe by connecting a water pipe between an upper chamber and a lower chamber. And the first chamber and the first chamber of the complex boiler are connected to each other by a connecting pipe.

According to the third aspect of the present invention, the water in the water pipe and the auxiliary equipment exhaust gas flowing through the outer surface of the water pipe are heat-exchanged, so that the boiler water into which the heated gas liquid is mixed flows into the first water chamber of the composite boiler to separate the gas-liquid. Steam, which is a gas, is fed to steam-using equipment.

According to a fourth aspect of the present invention, there is provided a combustion boiler having a first linkage in which a combustion exhaust gas of a combustion apparatus flows in a first water chamber, and a main device exhaust heat recovery boiler incorporating a second linkage flowing a main equipment exhaust gas. In a combination boiler provided separately with the outlet of the exhaust gas of the said combustion boiler and the said main apparatus exhaust heat recovery boiler, A secondary apparatus which incorporates the 3rd association which makes an auxiliary apparatus exhaust gas flow in the said 1st water chamber is combined. An exhaust heat recovery boiler is further provided, and the outlet of the exhaust gas of the auxiliary equipment exhaust heat recovery boiler is provided separately from the outlet of the exhaust gas of the combustion boiler and the main apparatus exhaust heat recovery boiler.

According to the 4th aspect of this invention, since the auxiliary apparatus exhaust heat recovery boiler was further installed in the said 1st water chamber and the 3rd association which makes auxiliary apparatus exhaust gas flow, the auxiliary apparatus which was discharged | emitted without being recovered until now is By effectively utilizing the exhaust heat of the fuel consumption in the combustion boiler can be reduced.

In addition, since the water in the first water chamber is heated by heat exchange with the auxiliary equipment exhaust gas flowing through the third channel, it is possible to always generate steam regardless of the heat recovery of any auxiliary equipment. Saturated water at a saturation temperature, such as a set pressure, can be stored, enabling instant steam supply to meet the demands of the load.

Further, since the auxiliary device exhaust heat recovery portion as the auxiliary device exhaust heat recovery boiler can be provided inside the composite boiler, the entire boiler can be compactly configured.

Further, since the outlet of the exhaust gas of the auxiliary equipment exhaust heat recovery boiler is provided separately from the outlet of the exhaust gas of the combustion boiler and the main apparatus exhaust heat recovery boiler, it is possible to satisfy the class required by the ship standard.

According to a fifth aspect of the present invention, in the auxiliary equipment exhaust heat recovery boiler according to the first to fourth aspects, noise means is provided at either or both of the inlet and the outlet of the auxiliary equipment exhaust gas.

According to the fifth aspect of the present invention, since the inlet or outlet of the auxiliary equipment exhaust gas is provided with a noise means, the sound generated from the auxiliary equipment can be reduced, and the environment around the anchoring area can be improved.

According to the present invention, since the auxiliary boiler exhaust heat recovery boiler for recovering the heat of the exhaust gas of the auxiliary equipment is combined with the composite boiler combining the combustion boiler and the main equipment exhaust heat recovery boiler, the exhaust heat discharged from the auxiliary equipment is effectively It is possible to reduce the fuel consumption of the combustion boiler. In particular, even when the main equipment is stopped during anchoring, by recovering the heat of the auxiliary equipment, steam can always be supplied and the boiler water in the boiler can store saturated water at the saturation temperature equal to the set pressure. In addition, it is possible to immediately supply steam to the demand of the load, reduce the fuel consumption on the combustion boiler side, and reduce the cost.

BRIEF DESCRIPTION OF THE DRAWINGS It is the whole structure explanatory drawing which shows the 1st example of embodiment of the marine boiler which concerns on this invention.
2 is an overall structural explanatory diagram showing a second example of an embodiment of a marine boiler according to the present invention.
3 is an overall structural explanatory diagram showing a third example of the embodiment of the marine boiler according to the present invention.
FIG. 4 is an explanatory view of a part of the AA line of FIG. 3.
5 is an overall structural explanatory diagram showing a fourth example of the embodiment of the marine boiler according to the present invention.
FIG. 6 is an exploded cross-sectional view of a part of AA lines of FIG. 5. FIG.
FIG. 7 is a partially omitted plan view of FIG. 5. FIG.

EMBODIMENT OF THE INVENTION Below, the Example of the marine boiler which concerns on this invention is described in detail with reference to drawings.

BRIEF DESCRIPTION OF THE DRAWINGS It is the whole structure explanatory drawing which shows the 1st example of embodiment of the marine boiler which concerns on this invention.

The marine boiler of this example has a combustion boiler 4 having a combustion chamber 4 having a combustion exhaust gas of the combustion device 2 in a water chamber 1 having a steam generating space thereon, and a main equipment exhaust gas. The main equipment exhaust heat recovery boiler 6 of the combustion boiler 4 and the main equipment exhaust heat outlet 6 of the main equipment exhaust heat recovery boiler 6 are combined with the main equipment exhaust heat recovery boiler 6 which has the incorporation (5) which flows through. The auxiliary boiler exhaust heat recovery boiler 10 for recovering the heat of the exhaust gas of the auxiliary equipment and the boiler water of the composite boiler 9 are connected to the composite boiler 9 provided with (8) separately. The water (mixture of steam and liquid) heated by the apparatus exhaust heat recovery boiler 10 is gas-liquid separated in the water chamber 1 of the composite boiler 9 so as to supply steam to the steam using apparatus. In this example, the engine of the ship is used as the main equipment, and a generator is used as the auxiliary equipment.

In detail, the water chamber 1 has a cylindrical shape, and an upper end portion and a lower end portion of the trunk plate 11 forming an internal pressure portion are divided into an upper tube plate 12 and a lower tube plate 13, A water chamber 1 is formed between the tube plate 12 and the lower tube plate 13. Moreover, the combustion apparatus 2 is provided in the trunk | drum 11 by separating the part in the trunk | drum 11 located in the lower tube board 13, and is provided.

In addition, a main apparatus exhaust gas inflow chamber 14 is provided below the lower tube plate 13. The main machine exhaust gas inlet chamber 14 is provided with a main machine exhaust gas inlet 15, and the main machine exhaust gas inlet 15 introduces the main machine exhaust gas into the main machine exhaust gas inlet chamber 14. The appliance exhaust gas introduction duct is connected.

On the upper side of the upper tube plate 12, an association 3 through which combustion exhaust gas flows and an association 5 through which main equipment exhaust gas flows are separated into partition plates 17 so as to discharge the exhaust gas independently. The combustion exhaust gas outflow chamber 18 through which the combustion exhaust gas flows out, and the main equipment exhaust gas outflow chamber 19 through which the main equipment exhaust gas flows out are formed. The combustion exhaust gas outlet 7 is provided with a combustion exhaust gas outlet 7, and the combustion exhaust gas outlet 7 is connected with a combustion exhaust gas discharge duct for discharging the combustion exhaust gas to the outside of the ship. In addition, a main machine exhaust gas outlet 8 is provided in the main machine exhaust gas outlet chamber 19, and a main machine exhaust gas discharge duct for discharging the main machine exhaust gas out of the ship is provided in the main machine exhaust gas outlet 8. Is connected.

Further, the water chamber 1 includes a plurality of associations 3 connecting the combustion apparatus 2 and the combustion exhaust gas outlet chamber 18, the main equipment exhaust gas inlet chamber 14, and the main equipment exhaust gas outlet chamber. A plurality of plumbings 5 connected between 19 are embedded so that the water in the water chamber 1 passes through the flue 3 and the heat of the main equipment exhaust gas passing through the plumbing 5. It is intended to exchange heat.

The combustion boiler 4 is connected to a combustion device 2 in which a part of the water chamber 1 is provided separately, and a water chamber 1 connected between the combustion device 2 and the combustion exhaust gas outlet chamber 18. The main device exhaust heat recovery boiler 6 includes a plurality of built-in associations 3, and the main device exhaust heat recovery boiler 6 includes a main device exhaust gas inlet chamber 14, a main device exhaust gas outlet chamber 19, and a main device exhaust gas inlet. It is comprised by the several connection 5 built in the water chamber 1 which connected between the chamber 14 and the main equipment exhaust gas outflow chamber 19. As shown in FIG.

In the auxiliary equipment exhaust heat recovery boiler 10 for recovering the heat of the exhaust gas of the auxiliary equipment, the upper tube plate 21 and the lower tube plate form a cylindrical shape in this example, and the upper and lower ends of the body plate 20 forming the internal pressure portion. (22), the water chamber 23 is formed between the upper tube plate 21 and the lower tube plate 22, and the auxiliary equipment exhaust gas inlet 24 is provided below the water chamber 23, An auxiliary device exhaust gas outlet 25 is provided above the water chamber 23, and the water chamber 23 has a plurality of associations between the auxiliary device exhaust gas inlet 24 and the auxiliary device exhaust gas outlet 25 ( 26), and the water in the water chamber 23 is a linkage formula configured to heat exchange with the heat of the auxiliary equipment exhaust gas passing through the pipe (26).

The auxiliary device exhaust gas inlet 24 is connected to an auxiliary device exhaust gas introduction duct for introducing the exhaust gas of the auxiliary device into the auxiliary device exhaust gas inlet 24. In addition, the auxiliary device exhaust gas outlet 25 is connected to an auxiliary device exhaust gas discharge duct for discharging the exhaust gas of the auxiliary device whose heat is recovered by the auxiliary device exhaust heat recovery boiler 10 to which the temperature has decreased to the outside of the ship.

It is installed so as to protrude upward from the upper tube plate 21 of the auxiliary equipment exhaust heat recovery boiler 10 so that the water chamber 23 of the auxiliary equipment exhaust heat recovery boiler 10 configured as described above and the boiler water of the composite boiler 9 communicate with each other. It is connected to the upper connection pipe 27, and the lower part of the water chamber 23 of the auxiliary equipment exhaust heat recovery boiler 10 and the lower part of the water chamber 1 of the composite boiler 9 are connected to the lower connection pipe 28.

In addition, the auxiliary device exhaust gas outlet 25 is provided with a noise means 30 for reducing exhaust noise of the auxiliary device. In this example, the noise means 30 is provided in the auxiliary equipment exhaust gas outlet 25, but may be provided in the auxiliary equipment exhaust gas inlet 24, and the auxiliary equipment exhaust gas outlet 25 and the auxiliary equipment exhaust. You may provide in both of the gas inflow openings 24. As shown in FIG.

As the noise means 30, a punching metal is formed between the outer circumference of the cylinder formed in a cylindrical shape and a material having a sound absorption effect such as glass wool between the outer circumference of the exhaust gas outlet 25, or Moreover, although the thing of the structure which lengthened the length of the exhaust gas outlet 25 or made the step | step in the exhaust gas outlet 25 is used, it is not specifically limited.

According to the marine boiler of this example configured as described above, the water in the combustion exhaust gas of the combustion apparatus in which the water in the water chamber 1 burns in the combustion boiler 4 passing through the pipe 3 embedded in the water chamber 1 and It is heated by the heat of the main apparatus exhaust gas in the main apparatus exhaust heat recovery boiler 6 which passes through the pipe | tube 5, gas-liquid isolate | separates in the upper part of the water chamber 1, and is supplied to a steam use apparatus.

In addition, in the auxiliary equipment exhaust heat recovery boiler 10, the water in the water chamber 23 is heated by the auxiliary equipment exhaust gas flowing through the pipe 26 from below, and the heated water (mixture of steam and liquid) The composite boiler 9 which flows into the water chamber 1 of the composite boiler 9, is gas-liquid separated from the water chamber 1 of the composite boiler 9, and consists of the combustion boiler 4 and the main apparatus exhaust heat recovery boiler 6. It is fed to steam-using equipment along with the steam it produces.

In this way, in the auxiliary device exhaust heat recovery boiler 10, the auxiliary device exhaust heat can be effectively used to recover heat from the exhaust gas generated from the auxiliary device, thereby reducing the fuel consumption of the combustion boiler 4.

In addition, even when the main equipment is stopped during anchoring, by recovering heat of the auxiliary equipment, steam can be supplied at all times, and boiler water in the boiler can store saturated water at a saturation temperature equal to the set pressure. In addition, it is possible to immediately supply steam to the load request, reduce the fuel consumption on the combustion boiler 4 side, and reduce the cost.

In addition, in this example, since the auxiliary device exhaust gas outlet 25 is provided with a noise means 30 for reducing the exhaust noise of the auxiliary device, the environment around the anchoring area can be improved.

In addition, although the auxiliary apparatus exhaust heat recovery boiler 10 is adjacent to the composite boiler 9 in FIG. 1, the length of the upper connection pipe 27 and the lower connection pipe 28 is assisted with the composite boiler 9 and FIG. It is also possible to change the auxiliary apparatus exhaust heat recovery boiler 10 to the composite boiler 9 freely by changing it to the arrangement | positioning in the line of an apparatus (not shown).

Further, valves are provided in the upper connecting pipe 27 and the lower connecting pipe 28 respectively connecting the water chamber 23 of the auxiliary equipment exhaust heat recovery boiler 10 and the water chamber 1 of the composite boiler 9, By closing the valve, the auxiliary apparatus exhaust heat recovery boiler 10 and the composite boiler 9 can be separated, and the auxiliary apparatus exhaust heat recovery boiler 10 can be easily repaired or replaced.

2 is an overall structural explanatory diagram showing a second example of an embodiment of a marine boiler according to the present invention.

About the marine boiler of this example, the same code | symbol is attached | subjected about the same structure as the said 1st example, the description is abbreviate | omitted, and only a structure different from a 1st example is demonstrated.

The configuration different from the present example and the first example is only the configuration of the auxiliary equipment exhaust heat recovery boiler 10.

In the auxiliary equipment exhaust heat recovery boiler 10 of this example, a plurality of water pipes 33 are connected between the upper header 31 and the lower header 32, and between the upper header 31 and the lower header 32. Is covered with a boiler body cover 34 formed in a cylindrical shape. The boiler body cover 34 is provided with an auxiliary device exhaust gas inlet 24 and an auxiliary device exhaust gas outlet 25, and water in the water pipe 33 is introduced into the boiler body cover 34 so that It is a water pipe type configured to heat exchange with heat of exhaust gas of auxiliary equipment flowing through the outer surface.

The auxiliary equipment exhaust gas inlet 24 is connected to the auxiliary equipment exhaust gas introduction duct for introducing the exhaust gas of the auxiliary equipment into the boiler body cover 34. In addition, the auxiliary device exhaust gas outlet 25 is connected to an auxiliary device exhaust gas discharge duct for discharging the exhaust gas of the auxiliary device whose heat is recovered by the auxiliary device exhaust heat recovery boiler 10 to which the temperature has decreased to the outside of the ship.

The auxiliary apparatus exhaust heat recovery boiler 10 and the composite boiler 9 configured as described above are liquid phase in the upper header 31 of the auxiliary equipment exhaust heat recovery boiler 10 and the water chamber 1 of the composite boiler 9. Each of the parts and the gas phase parts, or one of the liquid parts and the gas phase parts are connected to the upper connecting pipes 27a and 27b, and the lower header 32 and the composite boiler ( The lower part of the water chamber 1 of 9) is connected to the lower connection pipe 28. In this example, in the upper part of the upper header 31 of the auxiliary equipment exhaust heat recovery boiler 10 and the water chamber 1 of the composite boiler 9, the liquid phase part and the gas phase part are respectively connected to the upper connecting pipes 27a and 27b. Is connected. Valves may be provided in the upper connecting pipes 27a and 27b and the lower connecting pipe 28.

In addition, the auxiliary device exhaust gas outlet 25 is provided with a noise means 30 for reducing exhaust noise of the auxiliary device. In this example, the noise means 30 is provided in the auxiliary equipment exhaust gas outlet 25, but may be provided in the auxiliary equipment exhaust gas inlet 24, and the auxiliary equipment exhaust gas outlet 25 and the auxiliary equipment exhaust. You may provide in both of the gas inflow openings 24. As shown in FIG.

As the noise means 30, a structure in which a material having a sound-absorbing effect such as glass wool is sandwiched between the outer circumference of the cylinder formed of a punching metal and a cylindrical shape and the inner circumferential surface of the exhaust gas outlet 25 is used, or the exhaust gas outlet Although the length of the length of 25 or the step of making a step in the exhaust gas outlet 25 is used, it is not particularly limited.

According to the marine boiler of this example comprised in this way, in the auxiliary apparatus exhaust heat recovery boiler 10, the water in the water pipe 33 which connects the upper header 31 and the lower header 32 is the boiler body cover 34. By the heat of the auxiliary equipment exhaust gas which flowed in, it boils and evaporates, and the steam containing the hot water in the upper header 31 is discharged from the upper connection pipe 27a, 27b to the water chamber of the composite boiler 9 ( It flows into the upper part of 1) and is supplied to a steam-use device together with the steam which is produced in the composite boiler 9 which consists of the combustion boiler 4 and the main apparatus exhaust heat recovery boiler 6.

Thus, since it was set as the structure which combines the auxiliary apparatus exhaust heat recovery boiler 10 which collect | recovers the heat of an auxiliary apparatus in the composite boiler 9 which combined the combustion boiler 4 and the main apparatus exhaust heat recovery boiler 6, it is an auxiliary apparatus. By utilizing the exhaust heat discharged | emitted from this effectively, the fuel consumption amount of the combustion boiler 4 can be reduced.

In addition, even when the main equipment is stopped during anchoring, steam can be supplied at all times by performing heat recovery of the auxiliary equipment, thereby reducing the fuel consumption on the combustion boiler 4 side and reducing the cost. have.

In addition, the upper part of the upper header 31 of the auxiliary equipment exhaust heat recovery boiler 10 and the upper part of the water chamber 1 of the composite boiler 9 have a structure in which the liquid phase part and the gas phase part are connected to the upper connection pipes 27a and 27b, respectively. Since the steam generated from the auxiliary equipment exhaust heat recovery boiler 10 can be supplied alone while circulating the boiler water, the steam generation can be made faster.

In addition, although the auxiliary apparatus exhaust heat recovery boiler 10 is adjacent to the composite boiler 9 in FIG. 2, the length of the upper connection pipe 27a, 27b and the lower connection pipe 28 is combined with the composite boiler 9, and, as shown in FIG. It is also possible to change the auxiliary apparatus exhaust heat recovery boiler 10 to the composite boiler 9 freely in accordance with the arrangement of the auxiliary equipment (not shown).

Other effects are the same as those in the first example, and therefore the description of the first example is used.

3 and 4 show a third example of an embodiment of the marine boiler according to the present invention, FIG. 3 is an overall structural explanatory diagram of the present example, and FIG. 4 is a partially omitted cross-sectional explanatory diagram of FIG. 3.

About the marine boiler of this example, the same code | symbol is attached | subjected about the same structure as the said 1st example, the description is abbreviate | omitted, and only a structure different from a 1st example is demonstrated.

The marine boiler of this example has a combustion boiler 4 having a combustion chamber 4 having a combustion exhaust gas of the combustion device 2 in a water chamber 1 having a steam generating space thereon, and a main equipment exhaust gas. The main equipment exhaust heat recovery boiler 6 of the combustion boiler 4 and the main equipment exhaust heat outlet 6 of the main equipment exhaust heat recovery boiler 6 are combined with the main equipment exhaust heat recovery boiler 6 which has the incorporation (5) which flows through. The auxiliary boiler exhaust heat recovery boiler 10 is installed in the composite boiler 9 in which (8) is separately installed, and in the water chamber 1, an internal linkage 26 through which auxiliary gas exhaust gas flows. The auxiliary equipment exhaust gas outlet 25 of the apparatus exhaust heat recovery boiler 10 is separate from the combustion exhaust gas outlet 7 of the combustion boiler 4 and the main apparatus exhaust gas outlet 8 of the main apparatus exhaust heat recovery boiler 6. I install it.

In detail, the lower part of the lower tube board 13 which divides the lower end part of the trunk board 11 into the plumbing 5 which flows main equipment exhaust gas, and the plumbing 26 which flows auxiliary equipment exhaust gas are main equipment exhaust. The partition plate 36 is divided into a partition plate 36 so that the gas and the auxiliary equipment exhaust gas flows independently from each other, and the main equipment exhaust gas inlet chamber 14 for introducing the main equipment exhaust gas and the auxiliary equipment exhaust gas for introducing the auxiliary equipment exhaust gas. An inflow chamber 37 is formed. The auxiliary equipment exhaust gas inlet chamber 37 is provided with an auxiliary equipment exhaust gas inlet 24, and the auxiliary equipment exhaust gas inlet 24 is configured to introduce exhaust gas from the auxiliary equipment into the auxiliary equipment exhaust gas inlet chamber 37. The appliance exhaust gas introduction duct is connected.

On the upper side of the upper tube plate 12, the pipe 3 through which the combustion exhaust gas flows, the pipe 5 through which the main device exhaust gas flows, and the pipe 26 through which the auxiliary device exhaust gas flows are independently exhausted. It is divided into a partition plate 39 and a partition plate 40 so as to discharge the gas, and a combustion exhaust gas outlet chamber 18 through which the combustion exhaust gas flows out, and a main device exhaust gas outlet chamber 19 through which the main device exhaust gas flows out. And an auxiliary device exhaust gas outlet chamber 41 through which the auxiliary device exhaust gas is discharged.

The combustion exhaust gas outlet 7 is provided with a combustion exhaust gas outlet 7, and the combustion exhaust gas outlet 7 is connected with a combustion exhaust gas discharge duct for discharging the combustion exhaust gas to the outside of the ship. In addition, a main machine exhaust gas outlet 8 is provided in the main machine exhaust gas outlet chamber 19, and a main machine exhaust gas discharge duct for discharging the main machine exhaust gas out of the ship is provided in the main machine exhaust gas outlet 8. Is connected. Further, the auxiliary equipment exhaust gas outlet 25 is provided with an auxiliary equipment exhaust gas outlet 25, and the auxiliary equipment exhaust gas outlet 25 is an auxiliary equipment exhaust gas discharge duct for discharging the auxiliary equipment exhaust gas to the outside of the ship. Is connected.

Further, the water chamber 1 includes a plurality of associations 3 connecting the combustion apparatus 2 and the combustion exhaust gas outlet chamber 18, the main equipment exhaust gas inlet chamber 14, and the main equipment exhaust gas outlet chamber. A plurality of associations 5 connected between the 19 and a plurality of associations 26 connected between the auxiliary equipment exhaust gas inlet chamber 37 and the auxiliary equipment exhaust gas outlet chamber 41 are incorporated. The heat in the water chamber 1 is adapted to heat exchange with the heat of the combustion exhaust gas passing through the pipe 3, the main equipment exhaust gas passing through the pipe 5, and the auxiliary equipment exhaust gas passing through the pipe 26.

The combustion boiler 4 includes a combustion device 2 in which a part of the body plate 11 is provided separately, and a water chamber 1 connecting the combustion device 2 and the combustion exhaust gas outlet chamber 18. The main apparatus exhaust heat recovery boiler 6 includes a main apparatus exhaust gas inlet chamber 14, a main apparatus exhaust gas outlet chamber 19, and a main apparatus exhaust gas. It consists of a plurality of associations 5 built in the water chamber 1 which connected between the inflow chamber 14 and the main equipment exhaust gas outflow chamber 19, and the auxiliary equipment exhaust heat recovery boiler 10 is auxiliary It is comprised from the several connection | attachment 26 built in the water chamber 1 which connected between the apparatus exhaust gas inflow chamber 37 and the auxiliary apparatus exhaust gas outlet chamber 41. As shown in FIG.

In addition, the auxiliary device exhaust gas outlet 25 is provided with a noise means 30 for reducing exhaust noise of the auxiliary device. In this example, as shown in the cross section of the auxiliary equipment exhaust gas outlet 25 in FIG. 3, the silencer 30 is provided in the auxiliary equipment exhaust gas outlet 25, but the auxiliary equipment exhaust gas inlet 24 is provided. ) And may be provided in both the auxiliary equipment exhaust gas outlet 25 and the auxiliary equipment exhaust gas inlet 24.

As the noise means 30, a structure in which a material having a sound-absorbing effect such as glass wool is sandwiched between the outer circumference of the cylinder formed of a punching metal and a cylindrical shape and the inner circumferential surface of the exhaust gas outlet 25 is used, or the exhaust gas outlet Although the length of the length of 25 or the step of making a step in the exhaust gas outlet 25 is used, it is not particularly limited.

According to the marine boiler of this example configured as described above, since the auxiliary equipment exhaust heat recovery portion as the auxiliary equipment exhaust heat recovery boiler 10 is provided inside the composite boiler 9, the composite boiler 9 and the auxiliary equipment exhaust heat recovery boiler 10 Can be integrated, and the entire boiler can be miniaturized.

Other effects are the same as those in the first example, and therefore the description of the first example is used.

5-7 shows the 4th example of embodiment of the marine boiler which concerns on this invention, FIG. 5 is the whole structure explanatory drawing of this example, FIG. 6 is a partial cross-sectional explanatory drawing of FIG. 5, FIG. It is an explanatory drawing of some omission plane of FIG.

In the marine boiler of this example, the same components as those in the third example will be denoted by the same reference numerals and the description thereof will be omitted, and only the configuration different from the third example will be described.

The structure different from the present example and the third example is only the configuration of the auxiliary equipment exhaust heat recovery boiler 10 in which the vessel boiler of the present example is provided with a built-in linkage 26 through which auxiliary equipment exhaust gas flows in the water chamber 1.

In the present example, the auxiliary equipment exhaust gas inflow chamber 37 formed below the lower tube plate 13 that divides the lower end of the trunk plate 11 includes a plurality of auxiliary devices, and in this example, exhaust gas of two auxiliary devices. The auxiliary equipment exhaust gas inflow chambers 37a and 37b which are divided into the partition plates 42 and allow the auxiliary equipment exhaust gas to flow therein are formed so as to flow in independently of each other. Auxiliary device exhaust gas inlets 24a and 24b are provided in the auxiliary device exhaust gas inlet chambers 37a and 37b, respectively. Auxiliary device exhaust gas inlet ports 24a and 24b provide exhaust gas of the auxiliary device to the auxiliary device exhaust gas inlet chambers. The auxiliary equipment exhaust gas introduction duct introduced into the 37a, 37b is connected.

In addition, in the auxiliary equipment exhaust gas outlet chamber 41 formed above the upper tube plate 12, the associations 26a and 26b for flowing the auxiliary equipment exhaust gas of the auxiliary equipment exhaust gas inlet chambers 37a and 37b are independent. And the auxiliary device exhaust gas outlet chambers 41a and 41b which are divided by the partition plate 43 and allow the auxiliary device exhaust gas to flow out so as to discharge the exhaust gas. The auxiliary equipment exhaust gas outlets 25a and 25b are respectively provided in the auxiliary equipment exhaust gas outlet chambers 41a and 41b, and the auxiliary equipment exhaust gas outlets 25a and 25b are provided to assist the auxiliary equipment exhaust gas to be discharged out of the ship. The appliance exhaust gas exhaust duct is connected.

In this example, the case where the number of the auxiliary equipment is two is illustrated, but more than that may be sufficient, in this case, it returns to the auxiliary equipment exhaust gas inflow chamber 37 and the auxiliary equipment exhaust gas outlet chamber 41 again. Install the partition plate.

According to the marine boiler of this example configured as described above, since the respective exhaust gas flow paths are installed independently and share the boiler water, the exhaust gas discharged from the auxiliary equipment in operation can be efficiently recovered to generate steam. You can.

Other effects are the same as those in the third example, and therefore the description of the third example is used.

1: water chamber (first water chamber) 2: combustion device
3: association (first association) 4: combustion boiler
5: pipe (second pipe) 6: main unit exhaust heat recovery boiler
7: combustion exhaust gas outlet 8: main equipment exhaust gas outlet
9: composite boiler
10: auxiliary equipment exhaust heat recovery boiler 11: body plate
12: upper tube plate 13: lower tube plate
14: main equipment exhaust gas inlet chamber 15: main equipment exhaust gas inlet
17: partition plate 18: combustion exhaust gas outlet chamber
19: main equipment exhaust gas outflow chamber 20: body plate
21: upper tube plate 22: lower tube plate
23: Second room (second room)
24, 24a, 24b: auxiliary equipment exhaust inlet
25, 25a, 25b: Auxiliary Equipment Exhaust Gas Outlets
26, 26a, 26b: tube (third tube) 27, 27a, 27b: upper connector
28: lower connector 30: noise means
31: upper header 32: lower header
33: water pipe 34: boiler body cover
36: partition plate
37, 37a, 37b: auxiliary equipment exhaust gas inlet chamber
39, 40: partition plate
41, 41a, 41b: Auxiliary Equipment Exhaust Gas Outlet Chamber
42, 43: partition plate

Claims (5)

In the first chamber, the combustion boiler comprising a combustion boiler with a first combustion pipe through which the combustion exhaust gas of the combustion device flows, and a main appliance exhaust heat recovery boiler with a second combustion pipe through which the main device exhaust gas flows. In the composite boiler in which the outlet of the exhaust gas of the main equipment exhaust heat recovery boiler is provided separately,
An auxiliary equipment exhaust heat recovery boiler for recovering heat of exhaust gas of the auxiliary equipment is connected to the composite boiler by a connecting pipe so as to communicate the boiler water of the auxiliary equipment exhaust heat recovery boiler with the boiler water of the composite boiler, A vessel boiler, characterized in that for supplying steam generated from the apparatus exhaust heat recovery boiler to the steam using equipment through the first water chamber of the composite boiler. The method of claim 1,
The auxiliary apparatus exhaust heat recovery boiler is constructed by embedding a third linkage in a second water chamber, wherein the second water chamber and the first water chamber of the composite boiler are connected to the connecting pipe. The method of claim 1,
The auxiliary apparatus exhaust heat recovery boiler is configured to connect an auxiliary device exhaust gas to an outer surface of the water pipe by connecting a water pipe between the upper chamber and the lower chamber, and to the first chamber of the upper chamber and the lower chamber and the complex boiler. A marine boiler, characterized in that the water chamber is connected to each of the connecting pipes. The method according to any one of claims 1 to 3,
The auxiliary boiler exhaust heat recovery boiler is provided with a noise means at one or both of the inlet and the outlet of the auxiliary gas exhaust gas. delete

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