JP2011237065A - High-temperature drain collection system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To collect high-temperature drain without limitation by providing a means controlling pressure and temperature inside a drain tank, in a system for collecting the drain.SOLUTION: This high-temperature drain collection system for collecting the drain into the pressure drain tank 4 and supplying water to a boiler 1 includes: a makeup water pump 2 supplying makeup water to the drain tank 4 from a makeup water tank 10 storing the makeup water; and a water level control valve 12 sending surplus drain to the makeup water tank 10 from the drain tank 4. When a boiler water supply temperature is higher than a temperature upper limit value, the makeup water pump 2 is operated to introduce the makeup water into the drain tank 4. When the temperature of the boiler water supply is higher than the temperature upper limit value even if an in-drain-tank water level becomes high by introducing the makeup water into the drain tank 4, the water level control valve 12 is opened to perform water conduction to the drain tank 4 from the makeup water tank 10 while performing water conduction to the makeup water tank 10 from the drain tank 4.

Description

  The present invention relates to a high temperature drain recovery system.

  As described in Japanese Patent Application Laid-Open No. 2006-105442, drain recovery is performed by connecting a drain tank and a boiler and supplying the recovered drain to the boiler. When drain recovery is performed, the boiler water supply temperature increases and the amount of evaporation of the boiler increases, so that the fuel consumption can be reduced. In the case of an open drain recovery system that uses an open tank for the drain tank, even if the drain temperature recovered from the equipment using heat exceeds 100 ° C, flash steam is generated in the drain tank, and the drain temperature is set to 100 ° C. The above cannot be recovered. The higher the temperature of the water supplied to the boiler, the more the fuel consumption can be reduced. Therefore, closed-type drain recovery that does not release the pressure using a pressurized drain tank is also performed. In the case of a closed drain recovery system, it is possible to prevent the generation of flash steam in the drain tank by increasing the pressure in the drain tank, and supply hot drain water to the boiler.

  In the invention described in Japanese Patent Application Laid-Open No. 2006-105442, when the pressure in the drain tank is lower than the saturation pressure of the drain to be recovered, the steam is supplied and kept above the saturation pressure to generate flash steam. And high temperature drain can be recovered. By the way, when recovering the drain at a high temperature, if the pressure in the drain tank is increased, flash steam will not be generated in the drain tank, but if the pressure in the drain tank becomes too high. Has a problem that the drain does not return to the drain tank. Moreover, fuel consumption can be reduced, so that much high temperature drain is collect | recovered and the feed water temperature supplied to a boiler is made high. However, if the feed water temperature becomes too high, cavitation may occur in the feed water pump. When cavitation occurs, there is a problem that the water supply pump cannot exhibit its full capacity, and the water supply pump is damaged.

  Even if the pressure in the drain tank is too high or too low, the high-temperature and high-pressure drain cannot be continuously collected, and even if the high-temperature drain is collected, cavitation occurs in the feed water pump when the feed water temperature rises. There was a problem. However, in the invention described in Japanese Patent Application Laid-Open No. 2006-105442, there is no description of measures against excessive pressure and temperature in the drain tank. In addition, when the amount of recovered high-temperature drain is reduced in order to prevent the pressure and temperature from rising excessively, the water supply temperature does not rise so much, and there is a problem that the effect of reducing fuel consumption is reduced.

JP 2006-105442 A

  The problem to be solved by the present invention is that in a system that performs drain recovery, a means for controlling the pressure and temperature in the drain tank is provided so that high-temperature drain can be recovered without restriction. It is to be able to increase the fuel reduction rate.

  A boiler that supplies steam to heat-using equipment, a heat-using equipment that uses the heat of steam generated in the boiler, a drain tank that collects the drain discharged from the heat-using equipment, and supplies the drain that is collected in the drain tank to the boiler In the high temperature drain recovery system in which a high temperature drain is supplied to the boiler by using a pressure tank as the drain tank. Supply water tank, water level detection device for detecting the water level in the drain tank, supply water supply pipe and supply water pump for supplying makeup water from the makeup water tank to the drain tank, surplus from the drain tank to the makeup water tank Excess drain recovery piping that sends drain, a water level control valve, and a temperature detection device that detects the temperature of the feed water sent from the drain tank to the boiler If the boiler feed water temperature is higher than the upper temperature limit, the make-up water pump is operated to introduce make-up water into the drain tank, and the make-up water is introduced into the drain tank. If the boiler water supply temperature is higher than the upper temperature limit even if the water level is higher than the upper water level, open the water level control valve to pass water from the drain tank to the make-up water tank, The temperature inside the drain tank is lowered by passing water through the drain tank.

  In the above high-temperature drain recovery system, a pressure detection device for detecting the pressure in the drain tank, a steam supply path for the drain tank for supplying steam to the drain tank, a steam supply valve, and steam discharge for discharging the steam in the drain tank When the pipe has a steam discharge valve and the pressure in the drain tank is lower than the lower pressure limit, steam is supplied to the drain tank by opening the steam supply valve, and the pressure in the drain tank is higher than the upper pressure limit. Opens the steam discharge valve to discharge steam from the drain tank. In this case, the other end of the steam discharge pipe is connected to the makeup water tank so that the makeup water is preheated by the discharged steam.

  By implementing the present invention, the high-temperature and high-pressure drain can be recovered up to the allowable value of the feed water pump, so that the fuel reduction effect of the boiler can be enhanced.

Flow diagram of an embodiment implementing the present invention

  An embodiment of the present invention will be described with reference to the drawings. FIG. 1 is a flow diagram of an embodiment implementing the present invention. This embodiment includes a boiler 1 that generates steam, a heat using device 3 that uses steam generated in the boiler 1, a drain tank 4 that collects drain discharged from the heat using device 3, and the like. 1 is supplied.

  The boiler 1 that generates water by heating water stores the generated steam in a steam header 15 and supplies the steam from the steam header 15 to two heat-using devices 3. The heat using device 3 uses the heat of the steam, and when the heat using device 3 takes the heat of the steam, the steam is condensed and becomes a drain. If the drain is kept at a high pressure without being released to the atmosphere, it can be recovered as high-temperature water exceeding 100 ° C. The drain tank 4 is a pressure tank, and the pressure in the drain tank 4 is kept in a predetermined range so that the drain is accumulated in the drain tank 4 at a high temperature and a high pressure.

  The drain tank 4 is provided with a pressure detection device 7 for detecting the internal pressure, and the steam header 15 and the drain tank 4 are connected by a drain tank steam supply path 8. A steam supply valve 9 for controlling supply of steam to the drain tank 4 is provided in the middle of the steam supply path 8 for the drain tank, and a steam discharge pipe 18 and a steam discharge valve 17 for discharging steam from the drain tank are provided in the drain tank 4. The opening and closing of the steam supply valve 9 and the steam discharge valve 17 are controlled based on the pressure in the drain tank 4 detected by the pressure detection device 7. When the pressure in the drain tank 4 is lower than the pressure lower limit value, the pressure in the drain tank is increased by opening the steam supply valve 9 and supplying steam. When the pressure in the drain tank 4 is higher than the pressure upper limit value, the steam discharge valve 17 is opened and the steam is discharged. The steam discharge pipe 18 is connected to the makeup water tank 10, and the discharged steam is sent to the makeup water tank 10 to be used for preheating the makeup water. By supplying and discharging steam to the drain tank according to the pressure in the drain tank, the inside of the drain tank is maintained at a predetermined pressure.

  The drain water stored in the drain tank 4 is connected between the drain tank 4 and the boiler 1 by the boiler feed water pipe 5 and the boiler feed pump 6 provided in the middle of the boiler feed water pipe 5 is operated. Is supplied to the boiler 1. The feed water pump 6 operates based on a command from the boiler 1, but the rotation speed of the feed water pump is controlled based on the pressure value in the drain tank detected by the pressure detection device 7. A temperature detection device 16 is provided in the middle of the boiler feed water pipe 5 to detect the temperature of the boiler feed water sent through the boiler feed water pipe 5.

  The drain tank 4 is also connected to the makeup water tank 10. The makeup water tank 10 is a tank for supplying makeup water to the drain tank 4 when the water level in the drain tank 4 is lowered, and the makeup water tank 10 is an air release tank. Between the drain tank 4 and the make-up water tank 10, a make-up water supply pipe 13 for supplying make-up water from the make-up water tank 10 to the drain tank 4 and a recovery of excess drain water from the drain tank 4 to the make-up water tank 10 are performed. Surplus drain recovery piping 14 is provided. A water level adjusting valve 12 is provided in the middle of the make-up water supply pipe 13 and in the middle of the surplus drain recovery pipe 14. Since the drain tank 4 is a pressurized tank and the make-up water tank 10 is a non-pressure tank, the make-up water pump 2 is necessary to send make-up water to the drain tank 4, but from the drain tank 4 to the make-up water tank 10 Since the pressure difference can be used when water is sent to the water, the water level adjustment valve 12 can be opened to allow water to flow into the makeup water tank 10.

  The drain tank 4 is provided with a water level detection device 11 so that the water level in the drain tank 4 is detected. When the water level in the drain tank 4 detected by the water level detection device 11 becomes lower than the water level lower limit value, the makeup water pump 2 supplies the makeup water from the makeup water tank 10 to the drain tank 4. . Conversely, when the water level in the drain tank 4 becomes higher than the water level upper limit value, the drain in the drain tank 4 is recovered in the makeup water tank 10 by opening the water level control valve 12. When the water level of the makeup water tank 10 becomes low, makeup water (normal temperature soft water) is supplied to the makeup water tank 10.

  The pressure in the drain tank 4 is a pressure that is higher than the pressure at which the drain that has been collected generates flash vapor in the drain tank, and does not impede the recovery of the drain. The lower pressure limit is the pressure at which flash steam is not generated, the upper pressure limit is set at a pressure that does not impede drain recovery, and if the drain tank pressure drops to the lower pressure limit, steam supply, the pressure rises to the upper pressure limit Vapor discharge is performed. By adjusting the pressure within a predetermined width, the drain can be recovered in the drain tank 4 at a high temperature.

  When the high-temperature drain stored in the drain tank 4 is supplied to the boiler 1, cavitation may occur in the boiler feed water pump 6 when the feed water temperature is high. In the boiler feed pump 6, there is a portion where the water pressure is reduced, and if the water pressure is lowered, the saturation temperature determined from the pressure is also lowered. Therefore, when the temperature is higher than the pressure of the boiler feed water (with respect to the boiler feed water temperature) When the pressure is low), bubbles are generated in the water due to the pressure drop in the boiler feed pump 6.

  Therefore, when the upper limit value of the temperature and the lower limit value of the pressure are set so as not to cause cavitation, and the boiler feed water temperature detected by the temperature detection device 16 becomes higher than the temperature upper limit value, the makeup water pump 2 is operated to feed the makeup water in the makeup water tank 10 into the drain tank 4, thereby lowering the temperature in the drain tank 4. The operation of the makeup water pump 2 due to the temperature rise in the temperature detection device 16 is performed even when the water level in the drain tank 4 is high. When the water level becomes higher than the upper limit of the water level due to the introduction of makeup water into the drain tank 4, control is performed to open the water level adjustment valve 12 while operating the makeup water pump 2. When the water level control valve 12 is opened, water is supplied from the drain tank 4 to the supply water tank 10 while water is supplied from the supply water tank 10 to the drain tank 4.

  In this case, the water level in the drain tank 4 does not become too high, and by circulating water between the drain tank 4 and the makeup water tank 10, the temperature in the makeup water tank 10 rises, The temperature drops. Since the makeup water tank 10 is a release tank, it does not rise above 100 ° C., and the makeup water below 100 ° C. is sent to the drain tank 4, so the temperature of the drain tank 4 decreases.

  Further, cavitation can be further prevented by controlling the rotational speed of the water supply pump in accordance with the pressure in the drain tank to prevent an excessive flow rate from flowing and supplying an appropriate amount required by the boiler. When the pressure in the drain tank is relatively low, cavitation is less likely to occur by reducing the number of revolutions of the feed water pump to suppress the pressure drop at the feed water pump.

  In the present invention, the pressure and temperature of the drain tank 4 are maintained within a predetermined range, and the pressure in the drain tank becomes too high to collect the drain into the drain tank, or the temperature and pressure in the drain tank cannot be recovered. The balance is not lost and cavitation does not occur in the boiler feed pump. Therefore, there is no need to limit the amount of recovered high-temperature drain, and more heat can be recovered, so that fuel can be reduced more.

1 boiler
2 makeup water pump
3 Thermal equipment
4 Drain tank
5 Boiler feed piping
6 Boiler feed pump
7 Pressure detection device 8 Steam supply path for drain tank 9 Steam supply valve 10 Supply water tank 11 Water level detection device 12 Water level control valve 13 Supply water supply piping 14 Surplus drain recovery piping
15 Steam header 16 Temperature detection device 17 Steam discharge valve 18 Steam discharge pipe

Claims (3)

A boiler that supplies steam to heat-using equipment, a heat-using equipment that uses the heat of steam generated in the boiler, a drain tank that collects the drain discharged from the heat-using equipment, and supplies the drain that is collected in the drain tank to the boiler In the high temperature drain recovery system in which a high temperature drain is supplied to the boiler by using a pressure tank as the drain tank. Supply water tank, water level detection device for detecting the water level in the drain tank, supply water supply pipe and supply water pump for supplying makeup water from the makeup water tank to the drain tank, surplus from the drain tank to the makeup water tank Excess drain recovery piping that sends drain, a water level control valve, and a temperature detection device that detects the temperature of the feed water sent from the drain tank to the boiler If the boiler feed water temperature is higher than the upper temperature limit, the make-up water pump is operated to introduce make-up water into the drain tank, and the make-up water is introduced into the drain tank. If the boiler water supply temperature is higher than the upper temperature limit even if the water level is higher than the upper water level, open the water level control valve to pass water from the drain tank to the make-up water tank, A high-temperature drain recovery system that reduces the temperature in the drain tank by passing water through the drain tank. 2. The high-temperature drain recovery system according to claim 1, wherein the pressure detection device detects the pressure in the drain tank, the drain supply steam supply path for supplying steam to the drain tank, the steam supply valve, and the steam in the drain tank is discharged. When the pressure in the drain tank is lower than the lower pressure limit, the steam is supplied to the drain tank by opening the steam supply valve, and the pressure in the drain tank is higher than the upper pressure limit. In the case, the high-temperature drain recovery system is characterized in that the steam is discharged from the drain tank by opening the steam discharge valve. 3. The high temperature drain recovery system according to claim 2, wherein the other end of the steam discharge pipe is connected to a makeup water tank so that the makeup water in the makeup water tank is preheated by the discharged steam discharged from the drain tank. High temperature drain recovery system characterized by

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