KR101682897B1 - A potable water feeding apparatus for ship using waste heat from cooling water and a potable water feeding method therewith - Google Patents

Abstract

By utilizing the cooling water used for the cooling water system to preheat the water heater of the hot potable water system, the waste heat of the cooling water is recovered while the waste heat of the cooling water is not excessively recovered, And a method for maintaining a constant temperature of the liquid.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a hot water supply device for a ship using a cooling water waste heat and a method for supplying hot water for a ship,

The present invention relates to an apparatus and a method for utilizing waste heat from a cooling water system used in ships and marine facilities for calorifier preheating of a hot potable water system.

In order for a ship to operate, a lot of equipment such as a main engine, a generator engine, a boiler, a pump and an air conditioner are operated. Fresh water is used as the cooling water medium to supply the cooling water to each equipment to dissipate the generated heat and recover the heat directly from each equipment. The fresh water recovered from each equipment exchanges heat with seawater through a heat exchanger and transfers heat to the seawater. The seawater thus transferred is discharged to the sea, Can be dissipated.

Conventionally, a technique for recovering waste heat of cooling water (about 80 ° C to 90 ° C) used in a high temperature cooling water system for cooling only a main engine to save energy has been mainly used. The cooling water used in the low temperature cooling water system to cool down the equipment has a low temperature range (about 40 ° C to 50 ° C), and the range of the waste heat recovered and recycled is very limited.

Meanwhile, the potable water system is a system for supplying sanitary water and drinking water to seafarers. It stores fresh water generated from a fresh water generator in a fresh water tank, supplies it to crews through a water softener and a sterilizer A hot potable water system which is a representative potable water system, and a calorifier is included therein. Generally, an electric heater is applied to a water heater and, in some cases, steam is used, electric heaters are mainly applied in terms of ease of management and hygiene. In a system for preheating a hot water heater of a hot potable water system, cooling water of a low temperature coolant system having a relatively low temperature can be utilized.

However, if the waste heat of the cooling water is excessively recovered in the hot potable water system and the temperature of the cooling water supplied to cool each facility of the low-temperature cooling water system becomes lower than the set temperature (generally 36 ° C) A problem arises.

In the case of lubricants supplied to large equipment such as engines, fluidity must be ensured and the oil film should not break, so the lubricant must be supplied at the proper temperature (typically 45 ° C), the sudden temperature of the cooling water supplied to cool the engine If the temperature of the lubricating oil is lower than the proper temperature by the change, the function may be problematic.

In the case of a piston type compressor, cooling water is supplied to cool the piston. If the cooling water temperature is too low, the water in the air condenses and hammering may damage the internal structures of the piston. Can cause various types of equipment to suffer thermal shocks.

Therefore, as in other systems, the cooling water system is also very important in stability, and it is necessary to keep the temperature of the cooling water supplied to each equipment constant so that the waste heat of the cooling water is not excessively recovered.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the problems of the prior art, and it is an object of the present invention to provide a cooling water system which can be used as a calorifier preheater of a hot potable water system by using cooling water used in a cooling water system And to provide a device and a method for maintaining the temperature of the cooling water at a constant level by preventing waste heat from being excessively collected by regulating the flow rate of the cooling water through the flow rate control valve.

In order to solve the problems and problems of the related art, the present invention provides a hot potable water supply apparatus using waste heat of cooling water used in a cooling water system (A) A preheater 12 for introducing cooling water used for cooling the equipment 11 installed on the ship and receiving waste heat through heat exchange with the cooling water to preheat the drinking water; And a calorifier (13) for receiving and heating drinking water preheated by the preheater (12).

A flow control valve 14 installed on the first supply line 21 through which the cooling water used for cooling the equipment 11 installed on the ship is introduced into the preheater 12; A temperature sensor (15) installed on a second supply line (22) in which the cooling water that transferred the waste heat in the preheater (12) is recovered to the cooling water system; And a first controller 10 connected to the flow rate control valve 14 and the temperature sensor 15 so that when the temperature measured by the temperature sensor 15 is lower than the set temperature, The control valve 14 can be controlled to lower the flow rate of the cooling water introduced into the preheater 12.

On the other hand, the cooling water system A includes a fresh water cooling pump 16 for supplying the cooling water recovered in the preheater 12 to the cooling water system; And an expansion tank 19 for maintaining the pressure in the cooling water system and may be connected to a third supply line 23 for supplying cooling water from the fresh water cooling pump 16 to the equipment 11 installed on the ship A temperature control valve 17 installed on the evaporator; A heat exchanger 18 for exchanging heat with the seawater to supply part of the cooling water discharged from the fresh water cooling pump 16 to the temperature control valve 17; And a second control unit 20 connected to the temperature control valve 17. When the temperature of the cooling water supplied from the temperature control valve 17 to the equipment 11 installed on the ship is equal to or higher than the set temperature, The controller 20 controls the temperature control valve 17 to increase the flow rate of the cooling water supplied from the heat exchanger 18 to the equipment 11 installed on the ship.

In addition, the on-drinking water supply device of the present invention includes a fresh water tank 31 for storing fresh water generated in a fresh water generator 38; A fresh water supply pump 32 for supplying fresh water stored in the fresh water tank 31 to the outside; A fresh water hydrophore vessel 33 connected to the fresh water supply pump 32 for regulating the supply amount of fresh water supplied to the outside; A water-softening device 34 for supplying mineral water to fresh water introduced from fresh water intake container 33; And a sterilizer 35 for sterilizing the fresh water introduced from the water softening device 34 and supplying sterilized fresh water as drinking water to the preheater 12. The drinking water introduced from the sterilizer 35 is supplied to the preheater And a fourth supply line 41 directly supplied to the water heater 13 without passing through the water heater 12.

The fresh water intake container (33) includes: a pressure sensor (36) for measuring an internal pressure; And a third controller 30 connected to the pressure sensor 36 and the fresh water supply pump 32. The third controller 30 controls the pressure sensor 36 based on the pressure measured by the pressure sensor 36, By controlling the supply pump 32, the amount of fresh water in the fresh water intake container 33 can be kept constant.

In another embodiment of the present invention, there is a method of supplying hot water for ships using waste heat of the cooling water used in the cooling water system (A). The cooling water used for cooling the equipment (11) installed on the ship is preheater (12) to receive waste heat through heat exchange with the cooling water to preheat the drinking water; And a step of receiving the preheated drinking water from the preheater 12 and heating the heated drinking water to a calorifier 13.

When the temperature measured by the temperature sensor 15 provided on the second supply line 22, which is used to recover the cooling water transferred from the pre-heater 12 to the cooling water system, is lower than the set temperature, The first control unit 10 connected to the temperature sensor 15 and the cooling water used for cooling the equipment 11 installed on the ship is installed on the first supply line 21 introduced into the preheater 12 The flow rate regulating valve 14 may be controlled to lower the flow rate of the cooling water introduced into the preheater 12.

The cooling water recovered in the preheater 12 may be supplied to the equipment 11 installed on the ship through a fresh water cooling pump 16 and may be supplied from the fresh water cooling pump 16 to the equipment If the temperature of the cooling water supplied from the temperature control valve 17 provided on the third supply line 23 supplied with the cooling water to the equipment 11 installed on the ship is equal to or higher than the set temperature, A second control unit 20 connected to the temperature control valve 17 controls a heat exchanger 18 for exchanging heat with a part of the cooling water discharged from the heat exchanger 16 to the temperature control valve 17, So that the flow rate of the cooling water supplied from the machine 18 to the equipment 11 installed on the ship can be increased.

On the other hand, the hot drinking water supplying method includes the steps of storing fresh water generated in the fresh water generator 38 in the fresh water tank 31; The fresh water stored in the fresh water tank 31 is connected to the fresh water supply pump 32 and the fresh water supply pump 32 to use a fresh water hydrophore vessel 33 for adjusting the supply amount of fresh water supplied to the outside To the outside of the fresh water tank (31); Supplying mineral water to the fresh water introduced into the water-softening device (34) from the fresh water intake container (33); And sterilizing the fresh water introduced into the sterilizer from the water-softening device 34 and supplying sterilized fresh water to the pre-heater 12 as drinking water.

The pressure sensor 36 is connected to the pressure sensor 36 and the fresh water supply pump 32 based on the pressure measured by the pressure sensor 36 for measuring the pressure in the clear water intake container 33 provided in the fresh water intake container 33. 3 controller 30 can control the fresh water supply pump 32 so that the amount of fresh water in the fresh water intake container 33 can be kept constant and the drinking water introduced from the sterilizer 35 can be supplied to the pre- The water heater 13 may be directly supplied to the water heater 13 instead of the water heater.

According to an embodiment of the present invention, the cooling water used in the cooling water system A is used to preheat the water heater 13 of the hot potable water system, The waste heat can be effectively recovered and the flow rate of the cooling water can be controlled through the flow rate control valve so that the waste heat is not excessively recovered, thereby maintaining the temperature of the cooling water at a constant level.

1 is a diagrammatic representation of a cooling water system A connected to a preheating 12 of a calorifier 13 of the present invention.
2 is a schematic diagram of a hot potable water system connected to the cooling water system A of the present invention.
FIG. 3 schematically illustrates a heat exchange process between cooling water and drinking water in a preheater according to an embodiment of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings, which will be readily apparent to those skilled in the art to which the present invention pertains.

Prior to the description, terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary meanings and should be construed in accordance with the technical concept of the present invention.

Throughout this specification, when an element is referred to as "including" an element, it is understood that it may include other elements as well, without departing from the other elements unless specifically stated otherwise.

Throughout this specification, when a member is " on " another member, this includes not only when the member is in contact with another member, but also when there is another member between the two members.

1 is a diagrammatic representation of a cooling water system A connected to a preheating 12 of a calorifier 13 of the present invention. The cooling water system utilized in the present invention is preferably, but not limited to, a low temperature cooling water system.

First, the cooling water used to cool the equipment (11) installed on the ship is introduced into the preheater (12) of the ship or the ocean drinking water supply system to heat-exchange the waste heat with the drinking water. As a result, the temperature of the cooling water is lowered and the temperature of the drinking water is increased. In the case of the low-temperature cooling water system, the temperature of the used cooling water is about 40 ° C to 50 ° C. Since the target temperature of the drinking water for use in the hot drinking water supply system is generally about 70 ° C, the preheated drinking water is used as a calorifier, (13) and further heated to the target temperature.

An electric heater or steam may be used as the water heater 13. It is preferable to use an electric heater in terms of ease of management and hygiene, but the present invention is not limited thereto.

On the other hand, on the first supply line 21 in which the cooling water used for cooling the equipment 11 installed on the ship is introduced into the preheater 12, the cooling water that has passed the waste heat from the flow control valve 14 and the preheater 12, A first control unit 10 connected to the temperature sensor 15 and the flow rate control valve 14 and the temperature sensor 15 may be installed on the second supply line 22 to be returned to the system. The first control unit 10 controls the flow rate control valve 14 to lower the flow rate of the cooling water introduced into the preheater 12 when the waste heat of the cooling water is excessively recovered and the temperature of the cooling water falls below the set temperature .

This is to prevent the waste heat of the cooling water from being excessively collected in the hot drinking water supply system. If the temperature of the cooling water supplied to cool each facility of the low-temperature cooling water system becomes lower than the set temperature (generally 36 ° C) Lt; / RTI >

In the case of lubricants supplied to large equipment such as engines, fluidity must be ensured and the oil film should not break, so the lubricant must be supplied at the proper temperature (typically 45 ° C), the sudden temperature of the cooling water supplied to cool the engine If the temperature of the lubricating oil is lower than the proper temperature by the change, the function may be problematic.

In the case of a piston type compressor, cooling water is supplied to cool the piston. If the cooling water temperature is too low, the water in the air condenses and hammering may damage the internal structures of the piston. Can cause various types of equipment to suffer thermal shocks.

Therefore, as in other systems, the cooling water system is also very important in stability, and the waste heat of the cooling water is not excessively recovered through the flow control valve 14, the temperature sensor 15 and the first control unit 10, The temperature of the cooling water to be supplied can be kept constant. The temperature of the cooling water used in the cooling water system is preferably maintained at about 36 ° C.

The cooling water used to cool the equipment 11 installed on the ship and / or the cooling water delivered and recovered from the preheater 12 is supplied to the cooling water system by the fresh water cooling pump 16 again. Since the cooling water system is a closed loop, the fresh water cooling pump 16 serves to circulate the cooling water in the system.

The cooling water supplied by the fresh water cooling pump 16 is introduced into the equipment 11 installed on the ship to cool the equipment. The equipment 11 installed on the ship may be at least one of a main engine, a generator engine, an HVAC (air conditioner), a freezer, a cooler, a boiler and a pump. In addition, May be included therein.

In the meantime, it is possible to provide a heat exchanger 18 for introducing a part of the cooling water discharged from the fresh water cooling pump 16 and lowering the temperature through heat exchange with the seawater. A temperature control valve 17 and a second control unit 20 connected thereto are provided on a third supply line 23 for supplying cooling water to the heat exchanger 11 and the temperature of the cooling water Can be adjusted. This is because the second control unit 20 controls the temperature control valve 17 to heat the cooling water that has been heat-exchanged with the seawater in the heat exchanger 18 when the temperature of the cooling water that transfers the waste heat to the pre- To the equipment (11) installed on the ship.

The temperature of the cooling water can be measured by installing a temperature sensor on the supply line 26 from which the cooling water moves from the temperature control valve to the respective equipments of the ship.

Preferably, two or more heat exchangers 18 are used at the same time, and the cooling water whose temperature has been lowered can be used quickly, but is not limited thereto.

It may further comprise an expansion tank 19 connected to the cooling water system to maintain the pressure in the system. Since the cooling water system is a closed system, its volume, pressure, and the like change in accordance with the temperature change caused by the heat load and the heat exchanger, and an expansion tank (19) is installed to compensate the change.

The cooling water is introduced into the preheater of the drinking water supply system which has cooled the installed equipments 11 and then again along the supply line 27, and the above process is repeatedly performed.

FIG. 2 is a diagrammatic representation of a hot potable water system connected to the cooling water system of the present invention.

The fresh water required in the ship is made in a fresh water generator (38). The water generator 38 may be a tube type or a plate type depending on the structure.

Fresh water generated in the water generator 38 is stored in the fresh water tank 31 and then supplied to the outside of the fresh water tank 31 by the fresh water supply pump 32.

The fresh water supply pump 32 may be connected to a fresh water hydrophore vessel 33 for regulating the supply amount of fresh water supplied to the outside of the fresh water intake container 33, A third control unit 30 connected to the pressure sensor 36 and the fresh water supply pump 32, a pressure sensor 36 for measuring the pressure in the clear water intake container 33, a compressed air injection unit 37 for injecting air, . ≪ / RTI >

This is because it is difficult to check the amount actually consumed in real time and supply the flow rate suited to the amount, it is a hydrophore system that introduces compressed air through the compressed air injection unit 37 to the container, If the pressure measured by the pressure sensor 36 is lower than the predetermined pressure, the amount of fresh water in the fresh water intake container 33 is small. Therefore, the third control unit 30 means that fresh water is filled in the container by operating the fresh water supply pump 32 and if the pressure is higher than the set pressure, the amount of fresh water in the container is large, the operation of the fresh water supply tank 31 is stopped, So that it can be maintained.

A part of fresh water can be used as a service water 42 used for cooling and cleaning each equipment in the ship from the fresh water intake container 33 and the rest is introduced into the water softening unit 34, Is supplied. In the case of fresh water produced by the water generator 38, since it is not suitable for immediate use as drinking water due to lack of pH, hardness and minerals, it is possible to control the pH and various minerals And the like.

Fresh water introduced from the water-softening unit 34 is sterilized in the sterilizer 35 and becomes drinking water used in the drinking water supply system of the ship, and some of the fresh water is sent to a place requiring potable water at room temperature 43) and the remainder is supplied to the preheater 12 of the water heater 13. The preheated drinking water having received the waste heat of the cooling water from the preheater 12 is introduced into the water heater 13 and heated. Hot potable water, which is heated drinking water, is sent to its place of use (44).

The amount of the drinking water introduced into the preheater 12 can be adjusted by further including a fourth supply line 41 through which the sterilizer 35 and the water heater 13 are directly connected without passing through the preheater 12.

Hereinafter, the calculation of the amount of energy that can be saved by recovering the waste heat of the cooling water and transferring it to the drinking water according to an embodiment of the present invention will be described with reference to the equation.

<Calculation of energy saving by recovery of waste heat of cooling water>

2 m ³ / h, the temperature drop of 100 m ³ / h and 50 ° C for 10 ° C drinking water to 30 ° C can be calculated as follows.

First, the amount of heat required to raise the drinking water is as follows.

Q = CM? T

Q = (1.0 kcal / kg · ℃) * (2 m 3 / h * 1,000 kg / m 3) * (30 ℃ - 10 ℃)

Q = 40,000 kcal / h

Next, the temperature drop of the cooling water is calculated as follows.

Q = CM? T

40,000 kcal / h = (1.0 kcal / kg · ℃) * (100 m 3 / h * 1000 kg / m 3) * ΔT

ΔT = 0.4 ° C.

M is the flow rate of the cooling water or drinking water (m ³ / h), T is the cooling water amount (kcal / kg) Or the temperature of the drinking water (° C), and Δ means the amount of change.)

Assuming that there is no heat lost in the process of heat exchange between the cooling water and the drinking water, when the total cooling water flow rate is 1,000 m ³ / h, a change of 100 m ³ / h, which is 10% of the flow rate, of 40,000 kcal / h You can get a preheater that functions. In other words, the amount of heat required to cool the cooling water is reduced by 40,000 kcal / h.

That is, in order to raise the temperature of the drinking water of 2 m ³ / h and 10 ° C to the target temperature of 70 ° C for use as hot drinking water, 140 kW of electric power is required, while 20 ° C to 10 ° C to 30 ° C (40,000 kcal / h) is transferred from the waste heat of the cooling water to the preheater, it is only necessary to increase the temperature from 30 ° C to 70 ° C by the water heater, so that the electric power consumes only 46 kW. Therefore, in this case, it can be confirmed that the required power is reduced by about 32%.

10: first control unit 11: equipment installed on the ship
12: preheater 13: water heater
14: Flow control valve 15: Temperature sensor
16: Fresh water cooling pump 17: Temperature control valve
18: Heat exchanger 19: Expansion tank
20: second control unit 21: first supply line
22: second supply line 23: third supply line
30: third control unit 31: fresh water tank
32: Billing feed pump 33: Fresh water intake container
34: Water softener 35: Sterilizer
36: pressure sensor 38:
41: fourth supply line

Claims (14)

A hot potable water supply apparatus using waste heat of cooling water used in a cooling water system,
A preheater 12 for introducing cooling water having a temperature of 40 to 50 ° C used for cooling the equipment 11 installed on the ship and receiving waste heat through heat exchange with the cooling water to preheat the drinking water; And a calorifier (13) for receiving and heating the drinking water preheated by the preheater,
A flow control valve (14) installed on a first supply line (21) where cooling water used for cooling the equipment (11) installed on the ship is introduced into the preheater (12); A temperature sensor (15) installed on a second supply line (22) in which cooling water that transfers waste heat in the preheater (12) is recovered to the cooling water system; And a first controller 10 connected to the flow rate control valve 14 and the temperature sensor 15. When the temperature measured by the temperature sensor 15 is lower than the preset temperature, Controls the flow rate control valve 14 to lower the flow rate of the cooling water introduced into the preheater 12,
The cooling water system includes a fresh water cooling pump (16) for supplying cooling water recovered in the preheater (12) to the equipment (11) installed on the ship; And an expansion tank (19) for maintaining the pressure in the cooling water system,
A temperature control valve 17 installed on a third supply line 23 to which cooling water is supplied from the fresh water cooling pump 16 to the equipment 11 installed on the ship; A heat exchanger (18) for exchanging a part of the cooling water discharged from the fresh water cooling pump (16) with seawater and supplying the heat to the temperature control valve (17); And a second control unit 20 connected to the temperature control valve 17. The temperature of the cooling water supplied from the temperature control valve 17 to the equipment 11 installed on the ship is higher than a predetermined temperature , The second control unit (20) controls the temperature control valve (17) to increase the flow rate of the cooling water supplied from the heat exchanger (18) to the equipment (11) installed on the ship. On drinking water supply device. delete delete delete The method according to claim 1,
The hot drinking water supply device includes a fresh water tank 31 for storing fresh water generated in a fresh water generator 38;
A fresh water supply pump 32 for supplying fresh water stored in the fresh water tank 31 to the outside of the fresh water tank 31;
A fresh water hydrophore vessel (33) connected to the fresh water supply pump (32) to adjust the supply amount of fresh water supplied to the outside;
A water-softening device 34 for supplying mineral water to fresh water introduced from the fresh water intake container 33; And
Further comprising a sterilizer (35) for sterilizing the fresh water introduced from the water softener (34) and supplying the sterilized fresh water to the preheater (12) as drinking water. 6. The method of claim 5,
A pressure sensor 36 for measuring the pressure inside the fresh water intake container 33; And
And a third controller (30) connected to the pressure sensor (36) and fresh water supply pump (32)
The third control unit 30 controls the fresh water supply pump 32 based on the pressure measured by the pressure sensor 36 so that the amount of fresh water in the fresh water take-out water container 33 is kept constant For drinking water supply for ships. 6. The method of claim 5,
Further comprising a fourth supply line (41) in which the drinking water introduced from the sterilizer (35) is directly supplied to the water heater (13) without passing through the preheater (12). A hot potable water supply method using waste heat of cooling water used in a cooling water system,
Cooling the equipment (11) installed on the ship, cooling water having a temperature of 40-50 ° C is introduced into the preheater (12), and the waste heat is transferred through heat exchange to preheat the drinking water;
Receiving preheated drinking water from the preheater (12) and heating it with a calorifier (13); And
Wherein the cooling water recovered in the preheater 12 is supplied to the equipment 11 installed on the ship through a fresh water cooling pump 16,
If the temperature measured by the temperature sensor 15 provided on the second supply line 22 to which the cooling water having passed the waste heat in the preheater 12 is recovered to the cooling water system is lower than the set temperature, The first control unit 10 connected to the temperature sensor 15 is installed on the first supply line 21 into which the cooling water used for cooling the equipment 11 installed on the ship is introduced into the preheater 12 The flow control valve 14 is controlled to lower the flow rate of the cooling water introduced into the preheater 12,
From the temperature control valve 17 provided on the third supply line 23 from which the cooling water is supplied from the fresh water cooling pump 16 to the equipment 11 installed on the ship to the equipment 11 installed on the ship A heat exchanger 18 for exchanging a part of the cooling water discharged from the fresh water cooling pump 16 with seawater to supply the cooling water to the temperature regulating valve 17 when the temperature of the supplied cooling water is equal to or higher than a set temperature, Is controlled by a second control unit (20) connected to the vessel (17) to increase the flow rate of the cooling water supplied from the heat exchanger (18) to the equipment (11) Way. delete delete delete 9. The method of claim 8,
The hot drinking water supply method includes the steps of storing fresh water generated in a fresh water generator 38 in fresh water tank 31,
The fresh water stored in the fresh water tank 31 is connected to the fresh water supply pump 32 and the fresh water supply pump 32 and a fresh water hydrophore vessel 33 for adjusting the supply amount of fresh water supplied to the outside To the outside of the fresh water tank 31,
Supplying mineral water to fresh water introduced from the fresh water intake container (33) to the water softening device (34); And
Further comprising sterilizing the fresh water introduced into the sterilizer from the water softening device (34) and supplying sterilized fresh water as drinking water to the pre-heater (12). 13. The method of claim 12,
Based on the pressure measured by the pressure sensor 36 measuring the pressure in the fresh water intake container 33 installed in the fresh water intake container 33,
The third control unit 30 connected to the pressure sensor 36 and the fresh water supply pump 32 controls the fresh water supply pump 32,
And the amount of clear water in the clear water intake container (33) is kept constant. 13. The method of claim 12,
And supplying the drinking water directly from the sterilizer (35) to the water heater (13) instead of supplying the drinking water to the pre-heater (12).

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