KR20140074420A - Heating Water Supplying System - Google Patents

Abstract

A heating water supplying system is disclosed. The heating water supplying system of the present system comprises a heater supplied with water for heating through steam and heat exchange; a steam supply piping for supplying the steam to the heater; and a steam discharge piping for discharging the steam heat exchanged in the heater, wherein a discharge apparatus is provided in the steam discharge piping that discharges condensate generated by condensation of steam during heat exchange.

Description

{Heating Water Supplying System}

The present invention relates to a hot water supply system, and more particularly, to a hot water supply system for supplying hot water by supplying water and exchanging heat with steam, wherein steam is discharged from the steam discharge pipe And a hot water supply system provided with the apparatus.

Various kinds of water can be heated in order to supply the necessary hot water in ships and the like. Water may be directly heated using fuel, or exhaust steam generated in an engine or a generator may be used as waste heat.

FIG. 1 shows a schematic view of a system capable of supplying hot water by heating water through steam.

At least a portion of the water to be supplied may be heated in the heat exchange heater 10 as shown in Fig. 1, and mixed with the unheated water to adjust the temperature to be supplied to the hot water.

Steam is introduced into the heater 10 through the steam valve 21 under the control of the controller 20 based on the measured temperature while monitoring the temperature of the hot water through the temperature sensor provided in the piping to which the hot water is supplied. A steam pressure sensor and a pressure controller for adjusting the pressure of steam introduced through the steam valve 21 may be provided at the front end of the heat exchange heater.

An additional heat exchanger utilizing the residual heat of the steam discharged from the heater may be provided in the discharge portion. Steam can be condensed to a lower temperature while exchanging heat with water in a heat exchange heater or an additional heat exchanger.

In the hot water supply system as illustrated in FIG. 1, the steam having been heat-exchanged in the heat-exchange heater or the heat exchanger and the condensed water generated in the process must be discharged to the outside. For this purpose, a sensor for monitoring the amount of steam and condensed water and a level controller 30 may be provided at the rear end of the heat exchange heater and the heat exchanger. Under the control of the level controller 30, the supply amount and pressure of the steam are adjusted through the steam pressure sensor and the pressure controller at the front end of the heat exchange heater, and a pressure difference is generated in the inside and the outside of the heat exchange heater through opening and closing of the valve 31. This pressure difference allows steam and condensed water to be discharged from the heat exchange heater to the outside.

However, in the system for discharging the steam and the condensed water to the outside of the heat exchanger heater in such a manner, the supply of steam is smooth through the pressure controller and the like, while the steam and the condensed water, There is a drawback that the sex is reduced. It has been found that this can be a problem that can degrade the responsiveness of the entire hot water supply system itself.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems and it is an object of the present invention to improve the responsiveness of a hot water supply system by allowing condensed water condensed from steam to be discharged smoothly during a heat exchange process.

According to an aspect of the present invention, in a hot water supply system using steam,

A heater that receives water and heats it by heat exchange with steam;

A steam supply pipe for supplying the steam to the heater; And

And a steam discharge pipe for discharging the steam heat exchanged in the heater,

Wherein the steam discharge pipe is provided with a discharge device for discharging the condensed water generated by condensing the steam while exchanging heat.

The discharge device may be a condensate pump for pumping condensate.

The steam discharge pipe may be provided with a flow rate control pipe for returning the condensed water from a rear end of the condensed water pump to a front end of the condensed water pump.

And a flow control unit for controlling a flow rate of the condensed water returned to the flow rate control pipe by opening and closing the first valve.

A second valve provided at a rear end of a point where the flow rate control pipe is branched from the steam discharge pipe and a level control unit for controlling the flow rate of the condensed water discharged to the steam discharge pipe by opening and closing the second valve .

A second pipe for branching at the first pipe to supply water to the heater, and a third pipe for joining the first pipe to the water heated by the heater, .

A third valve provided in the steam supply pipe, a temperature sensor provided at a rear end of a point where the third pipe of the first pipe merges and measuring the temperature of the hot water, And a temperature control unit for controlling the flow rate of the steam introduced into the steam supply pipe by opening and closing the third valve.

And a drain heater provided in the steam discharge pipe to recover waste heat of steam discharged from the heater.

According to another aspect of the present invention, there is provided a hot water supplying method using steam,

Wherein the water is heated by exchanging heat with steam in a heater and is supplied with hot water, and a pump is provided at a rear end of the heater to condense the steam while exchanging heat to discharge the condensed water generated from the heater. / RTI >

The hot water supply system of the present invention is provided with a discharge device for discharging condensed water generated by condensing steam while exchanging steam with water in the steam discharge pipe and rapidly discharging the condensed water from the heater so that the response of the hot water supply system It is possible to improve the property.

Fig. 1 schematically shows an example of a system capable of supplying hot water by heating water through steam.
2 schematically shows a hot water supply system according to an embodiment of the present invention.

In order to fully understand the present invention, operational advantages of the present invention, and objects achieved by the practice of the present invention, reference should be made to the accompanying drawings and the accompanying drawings which illustrate preferred embodiments of the present invention.

Hereinafter, the present invention will be described in detail with reference to the preferred embodiments of the present invention with reference to the accompanying drawings.

2 schematically shows a hot water supply system according to an embodiment of the present invention.

As shown in FIG. 2, the hot water supply system of the present embodiment is a hot water supply system using steam. The hot water supply system includes a heater 100 that receives water and heats the steam by heat exchange with the steam, And a steam discharge pipe DL for discharging steam heat exchanged in the heater 100. The steam discharge pipe DL is provided with a condenser A discharge device is provided.

In this embodiment, the discharge device may be a condensate pump 200 for pumping condensate.

In this embodiment, the water is heated by the heater 100 with the steam supplied through the steam supply pipe SL to generate and supply the hot water. The steam is heat-exchanged with water, and the heat energy is lost. Some can be condensed. In order to actively perform the heat exchange in the heater 100, the low-temperature steam and the condensed water after the heat exchange should be discharged to the outside of the heater 100 and continuously supply hot steam. However, in the method of adjusting the pressure of the supplied steam and regulating the discharged steam to raise the pressure inside the heater 100 to discharge the condensed water, the steam can be smoothly supplied to the heater 100 according to the load variation, In contrast, the discharge of condensed water and low-temperature steam generated in the heater 100 is relatively ineffective.

In order to compensate for these drawbacks, in the present embodiment, instead of indirectly controlling the pressure of the supplied steam to raise the pressure inside the heater 100 to discharge the condensed water and the low-temperature steam, That is, a condensing water pump 200 is provided to directly discharge condensed water and low temperature steam from the heater 100.

The steam discharge pipe DL may be provided with a flow rate control pipe DLa for returning condensed water from the rear end of the condensate pump 200 to the front end of the condensate pump 200. [

The first valve 300 provided in the flow rate control pipe DLa and the flow rate controller 350 controlling the flow rate of the condensed water returned to the flow rate control pipe DLa by opening and closing the first valve 300 .

The minimum flow rate to be introduced into the pump is secured for the smooth operation of the condensate pump 200. Since the minimum flow rate may not be ensured according to the degree of operation of the heater 100, A part of the condensed water passing through the condensate pump 200 is returned from the rear end of the pump to the front end and supplied to the condensed water pump 200 to ensure a minimum flow rate for driving the pump.

By thus ensuring the minimum flow rate for driving the pump, the condensed water pump 200 can be driven to quickly discharge the condensed water generated in the heater 100 to the outside of the heater 100.

This embodiment is characterized in that the second valve 400 is provided at the rear end of the point where the flow rate control pipe DLa branches from the steam discharge pipe DL and the second valve 400 is opened and closed by the steam discharge pipe DL And a level controller 450 for controlling the flow rate of the discharged condensed water.

In this embodiment, the first pipe (WL) to which water is supplied, the second pipe (WLa) which is branched from the first pipe (WL) and supplies water to the heater (100) And a third pipe WLb joined to the first pipe WL.

The water supplied through the first pipe WL is partly introduced into the heater 100 through the second pipe WLa branched from the first pipe WL and heated while exchanging heat with steam, Is discharged from the heater 100 and joined to the first pipe WL via the third pipe WLb. Hot water is generated as the heated water introduced from the third pipe WLb joins the unheated water introduced into the first pipe WL.

A third valve 500 provided in the steam supply pipe SL and a temperature sensor 510 provided at the rear end of the point where the third pipe WLb of the first pipe WL is joined to measure the temperature of the hot water, And a temperature controller 550 for controlling the flow rate of steam introduced into the steam supply pipe SL by opening and closing the third valve 500 based on the temperature of the hot water measured by the temperature sensor 510.

In the temperature sensor 510, the temperature of the hot water generated by the merging of the heated water introduced from the third pipe WLb and the unheated water introduced into the first pipe WL is measured, The temperature control unit 550 controls the amount of water introduced into the heater 100 through the second pipe WLa or the flow rate of steam introduced into the heater 100 through the steam supply pipe SL The temperature of the hot water can be adjusted.

The steam discharge pipe DL may further include a drain heater (not shown) for recovering waste heat of steam discharged from the heater 100.

Since the steam discharged from the heater 100 through the heat exchange with water is also at a high temperature of 100 ° C or higher, a drain heater that recovers the waste heat of the steam using the steam as a heat source can be provided. When the drain heater is provided at the rear end of the heater 100, the condensed water pump 200 may be provided at the rear end of the drain heater.

According to another aspect of the present invention, there is provided a hot water supplying method using steam,

The water is heated and exchanged with the steam in the heater 100 to supply hot water and a pump is provided at the rear end of the heater 100 to condense the steam while exchanging heat to discharge the condensed water generated from the heater 100 The hot water supply method is provided.

As described above, in the hot water supply system of the present embodiment, the steam that has been heat-exchanged in the heater 100 is condensed in the steam discharge pipe DL discharged from the heater 100, That is, a condensate pump 200 is provided. In order to continuously maintain the minimum flow rate for driving the condensate pump 200, the condensed water having passed through the condensate pump 200 can be returned to the front end of the pump through the flow rate control pipe DLa.

With this configuration, the present embodiment can rapidly discharge the condensed water generated in the heater 100 to the outside of the heater 100, so that the supply and discharge of the steam can be smoothly performed according to the load variation, As a result, the responsiveness of the system is drastically improved and the hot water supply can be made smoothly.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit and scope of the invention. Accordingly, such modifications or variations are intended to fall within the scope of the appended claims.

100: heater
200: discharge device, condensate pump
300: first valve
350:
400: second valve
450:
500: third valve
510: Temperature sensor
550: Temperature control unit
SL: Steam supply piping
DL: Steam discharge piping
DLa: Flow-secured piping
WL: 1st piping
WLa: second piping
WLb: Third piping

Claims (9)

In a hot water supply system using steam,
A heater that receives water and heats it by heat exchange with steam;
A steam supply pipe for supplying the steam to the heater; And
And a steam discharge pipe for discharging the steam heat exchanged in the heater,
Wherein the steam discharge pipe is provided with a discharge device for discharging the condensed water generated by condensing the steam while exchanging heat. The method according to claim 1,
Wherein the discharge device is a condensate pump for pumping condensate. The steam generator according to claim 2, wherein the steam discharge pipe
And a flow rate securing pipe for returning the condensed water from a rear end of the condensed water pump to a front end of the condensed water pump. The method of claim 3,
A first valve provided in the flow rate control pipe; And
And a flow control unit for controlling the flow rate of the condensed water returned to the flow rate-secured pipe by opening and closing the first valve. The method of claim 3,
A second valve provided at a rear end of a point where the flow rate control pipe is branched from the steam discharge pipe; And
And a level control unit for controlling the flow rate of the condensed water discharged to the steam discharge pipe by opening and closing the second valve. The method according to claim 1,
A first pipe through which water is supplied;
A second pipe branched from the first pipe and supplying water to the heater; And
And a third pipe in which water heated in the heater is joined to the first pipe. The method according to claim 6,
A third valve provided in the steam supply pipe;
A temperature sensor provided downstream of a junction point of the third pipe of the first pipe and measuring the temperature of the hot water; And
And a temperature control unit for controlling the flow rate of steam introduced into the steam supply pipe by opening and closing the third valve based on the temperature of the hot water measured by the temperature sensor. The method according to claim 1,
And a drain heater provided in the steam discharge pipe for recovering waste heat of steam discharged from the heater. In a hot water supply method using steam,
Wherein the water is heated by exchanging heat with steam in a heating device to supply hot water, and a pump is provided at a rear end of the heating device so that the steam is condensed while exchanging heat, and the generated condensed water is discharged from the heater.

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