JP6156094B2 - Flash steam generator - Google Patents

Description

  The present invention relates to a flash steam generator that re-evaporates drain collected from an upstream steam utilization facility and separates it into flash steam and hot water, and supplies the flash steam to a downstream steam utilization facility. is there.

  Conventionally, as shown in Patent Documents 1 and 2, the flash steam generator is configured to collect the drain from the upstream steam utilization facility in the flash tank.

JP 2012-7762 A JP 2009-198038 A

  Usually, when the steam utilization facility on the upstream side is in operation, a drain several times as large as that in a steady state may flow into the flash tank instantaneously. In the flash steam generator, in order to cope with the instantaneous increase in drain amount as described above, the piping diameter and valves of the flash steam generator have to be designed with a considerable margin.

  SUMMARY OF THE INVENTION An object of the present invention is to provide a flash steam generator having a rational design that can cope with an instantaneous increase in the amount of drain in an upstream steam utilization facility.

The present invention is a flash steam generator that re-evaporates the drain collected from the upstream steam utilization facility and separates it into flash steam and hot water, and supplies the flash steam to the downstream steam utilization facility. A flash tank that separates the drain into the flash steam and the hot water; and a recovery line that recovers the drain into the flash tank;
Controls the operation of the supply line for supplying the flash steam from the flash tank to the downstream steam utilization facility, the discharge line for discharging the hot water from the flash tank, and the operation of the flash steam generator. And a control means and a water level detection means for detecting the water level of the flash tank, and the recovery line bypasses the flash tank and connects the recovery line and the discharge line. The bypass line is provided with a bypass valve that opens and closes the bypass line, and the discharge line has a discharge valve whose opening degree is controlled based on the water level of the flash tank. The control means has a predetermined range of the water level of the flash tank by the water level detection means. The first valve value exceeding the predetermined range is set to the water level of the flash tank, and the control means is configured to control the water level of the discharge valve. When the water level of the flash tank by the detecting means is equal to or higher than the first alarm value, the bypass valve is fully opened.

  According to the configuration, the control means is configured to fully open the bypass valve when the water level of the flash tank detected by the water level sensor is equal to or higher than the first alarm value. It can cope with an instantaneous increase in drain amount. In order to cope with an instantaneous increase in the drain amount, it is not necessary to increase the pipe diameter or valve of the flash steam generator, and the flash steam generator can be rationally designed.

The present invention preferably further comprises the following configuration.
(1) The control means opens the bypass valve for a predetermined time and then closes it.
(2) The control means closes the bypass valve when the water level of the flash tank falls within the predetermined range.
(3) A second alarm value that exceeds the first alarm value is set for the water level of the flash tank, and the control means, when the water level of the flash tank is equal to or higher than the second alarm value, The bypass valve is fully opened, and the state is maintained.

  According to the configuration (1), the control means opens the bypass valve for a predetermined time and then closes it. Therefore, the control means smoothly receives the drain into the flash tank after dealing with the instantaneous drain amount increase. Can do.

  According to the configuration (2), the control means closes the bypass valve when the water level of the flash tank falls within a predetermined range. After returning the water level to within the normal control range, the drain can be received in the flash tank.

  When the water level of the flash tank detected by the water level detection means is equal to or higher than the second alarm value exceeding the first alarm value, the cause is that the flash steam generator side rather than the increase in the water level due to an instantaneous drain amount increase. It is assumed that the water level increases due to trouble. According to the configuration (3), the control means does not return the bypass valve to the closed state, but keeps the bypass valve fully open. Smooth transition to care.

  In short, according to the present invention, it is possible to provide a flash steam generator having a rational design that can cope with an instantaneous increase in the amount of drain in the upstream steam utilization facility.

It is a schematic block diagram of the flash steam generator which concerns on embodiment of this invention.

(overall structure)
FIG. 1 is a schematic configuration diagram of a flash steam generator according to an embodiment of the present invention. The flash steam generator 1 re-evaporates the drain collected from the upstream steam utilization facility 11 and separates it into flash steam and hot water, and supplies the flash steam to the downstream steam utilization facility 12. Yes. The upstream steam utilization facility 11 utilizes steam supplied from a boiler or the like as a heat medium, and is composed of, for example, a heat exchanger. The steam utilization facility 12 on the downstream side uses the steam supplied from the flash steam generator 1 as a heat medium, and is composed of, for example, a heat exchanger.

  The flash steam generator 1 includes a flash tank 2 that separates drain recovered from the upstream steam utilization facility 11 into flash steam and hot water, a recovery line 3 that recovers drain to the flash tank 2, and flash from the flash tank 2. A supply line 4 for supplying steam to the steam utilization facility 12 on the downstream side and a discharge line 5 for discharging hot water from the flash tank 2 are provided. The supply line 4 is provided with a supply valve 41 for opening and closing the supply line 4, and the discharge line 5 is provided with a discharge valve 51 for opening and closing the discharge line 5.

  The recovery line 3 is provided with a strainer 31 for filtering impurities contained in the drain from the steam utilization facility 11 on the upstream side. In the recovery line 3, on the upstream side of the strainer 31 and downstream of the upstream steam utilization facility 11, a bypass line that bypasses the flash tank 2 and connects the recovery line 3 and the discharge line 5. 6 is provided. The bypass line 6 is provided with a bypass valve 61 for opening and closing the bypass line 6. The flash steam generator 1 includes control means (not shown) that controls the operation of the flash steam generator 1.

  The bypass valve 61 is an electric valve, and prevents the drain from flowing into the flash tank 2 when the operation of the flash steam generator 1 is stopped (when the operation switch is turned off), that is, the flash steam. In order to protect the generator 1, it is automatically opened when the operation switch is turned off. Further, the bypass valve 61 is of a battery drive type so as to be automatically opened even when the power is cut off at the time of a power failure or the like. The bypass valve 61 is gradually opened by the attached electric motor when the operation switch is turned off. Further, even when the power is shut off, the battery is gradually opened by battery driving. Note that the bypass valve 61 may be of a spring return type so that it automatically opens when the power is shut off, such as during a power failure.

  The bypass line 6 is provided with a manual valve 62 that bypasses the bypass valve 61 in order to inspect and care for the bypass valve 61. The manual valve 62 is, for example, a ball valve.

  The flash tank 2 includes a water level sensor 21 and a float switch 22 as water level detection means for detecting the water level of the flash tank 2. The control means is a discharge valve 51 provided in the discharge line 5 so that the water level of the flash tank 2 detected by the water level sensor 21 is within a predetermined range (between the first reference value L1 and the second reference value L2). The degree of opening is controlled. The discharge valve 51 is an electric valve. Further, the control means opens the bypass valve 61 when the water level of the flash tank 2 detected by the water level sensor 21 is equal to or higher than the first alarm value A1 exceeding the predetermined range. The control means closes the bypass valve 61 when a predetermined time elapses after the bypass valve 61 is opened.

  Further, the control means opens the bypass valve 61 when the water level of the flash tank 2 detected by the float switch 22 becomes equal to or higher than the second alarm value A2 exceeding the first alarm value A1. In this case, the control means does not close the bypass valve 61 with the passage of a predetermined time, and the flash steam generator 1 is stopped due to the interlock, and a high water level alarm is issued.

  In the bypass line 6, pressure detection means (pressure sensor 32) that detects the pressure of the recovery line 3 on the upstream side of the strainer 31 is provided on the upstream side of the strainer 31. In the present embodiment, the pressure sensor 32 is provided in the bypass line 6, but may be provided in the recovery line 3. The control means opens the bypass valve 61 when the pressure in the recovery line 3 increases due to clogging of the strainer 31 and the pressure sensor 32 detects a predetermined pressure (first set pressure) or more.

  The control means gradually opens the bypass valve 61 when the operation of the flash steam generator 1 is stopped. As described above, when the operation of the flash steam generator 1 is stopped, the bypass valve 61 is gradually opened by the attached electric motor. As specific means for gradually opening the bypass valve 61, the time required for the normal bypass valve 61 to take from the fully closed state to the fully open state (for example, about 1 to 2 seconds) is more time (for example, about 5 seconds or more). It is conceivable that the fully opened state is applied.

  Furthermore, the control means is configured to fully open the discharge valve 51 when the operation of the flash steam generator 1 is stopped. By fully opening the discharge valve 51, the pressure applied to the discharge valve 61 and the like when the bypass valve 61 is opened can be relieved.

  The flash steam generator 1 operates as follows.

  In the steam utilization facility 11 on the upstream side, a part of the steam that has been used as a heat medium and has lost its latent heat is condensed and discharged as a drain. The discharged drain is sent to the flash tank 2 through the recovery line 3. Impurities and the like contained in the discharged drain are filtered by the strainer 31 provided in the recovery line 3. In general, the bypass valve 61 is closed, and the drain discharged from the upstream steam utilization facility 11 is sent to the flash tank 2 in its entirety.

  The flash tank 2 re-evaporates the drain received from the upstream steam utilization facility 11 and separates it into flash steam and hot water. The flash steam generated in the flash tank 2 is supplied to the downstream steam utilization facility 12 via the supply line 4.

  The hot water generated in the flash tank 2 is discharged to an open tank (not shown) or the like via the discharge line 5. The opening of the discharge valve 51 provided in the discharge line 5 is adjusted based on the detection result of the water level by the water level sensor 21 provided in the flash tank 2, and as a result, the water level of the flash tank 2 is adjusted. Is controlled to be positioned between the first reference value L1 and the second reference value L2.

  When the flash steam generator 1 is in operation, when the water level sensor 21 detects that the water level of the flash tank 2 is equal to or higher than the first alarm value A1, the control means opens the bypass valve 61 in the fully closed state. Thereby, since the water level of the flash tank 2 falls, the control means closes the bypass valve 61 when a predetermined time elapses after the bypass valve 61 is opened.

  When the float switch 22 detects that the water level of the flash tank 2 is equal to or higher than the second alarm value A2 while the flash steam generator 1 is operating, the control means opens the bypass valve 61. In this case, since the water level of the flash tank 2 is equal to or higher than the second alarm value A2, it is assumed that the water level is increased due to a trouble on the flash steam generator 1 side rather than an instantaneous increase in the drain amount. The For this reason, the control means does not return the bypass valve 61 to the closed state, but maintains the fully open state. Then, the flash steam generator 1 is stopped due to the interlock, and a high water level alarm is issued.

  Further, when the flash steam generator 1 is in operation, when the pressure sensor 32 detects the first set pressure or more, the control means fully opens the bypass valve 61 in the fully closed state. Then, the collection of the drain is switched to the collection using an open tank (not shown) or the like. At this time, the flash steam generator 1 is stopped due to the interlock. The on-site apparatus manager investigates the cause of the pressure increase (clogging of the strainer 31 and the like), eliminates it, resets the interlock, and puts the flash steam generator 1 into operation again.

  When the operation of the flash steam generator 1 is stopped, the control means gradually opens the bypass valve 61 and simultaneously opens the discharge valve 51 temporarily. That is, the discharge valve 51 is once fully opened when the operation of the flash steam generator 1 is stopped, but is closed after the bypass valve 61 that is gradually opened is fully opened. Note that the control means can perform this control also when the pressure sensor 32 detects the first set pressure or higher as described above.

  According to the flash steam generator 1 having the above-described configuration, the following effects can be exhibited.

(1) Since the control means is configured to fully open the bypass valve 61 when the water level of the flash tank 2 detected by the water level sensor 21 is equal to or higher than the first alarm value A1, the upstream steam utilization facility 11 can cope with an instantaneous increase in drain amount. In order to cope with an instantaneous increase in the drain amount, it is not necessary to increase the pipe diameter or valve of the flash steam generator 1, and the flash steam generator 1 can be rationally designed.

(2) Since the control means opens the bypass valve 61 for a predetermined time and then closes it, the control means can smoothly receive the drain into the flash tank 2 after dealing with an instantaneous increase in the drain amount.

(3) When the water level of the flash tank 2 detected by the float switch 22 is equal to or higher than the second alarm value A2 exceeding the first alarm value A1, the cause is not an increase in the water level due to an instantaneous drain amount increase. It is assumed that the water level is increased due to trouble on the flash steam generator 1 side. For this reason, the control means maintains the fully open state without returning the bypass valve 61 to the closed state. As a result, it is possible to smoothly shift to inspection and care of the flash steam generator 1 while maintaining drain discharge.

(4) When the pressure sensor 21 detects the first set pressure or higher, the control means opens the bypass valve 61 provided in the bypass line 6, so that the upstream side due to the pressure rise in the recovery line 3 The influence on the steam utilization equipment 11 can be avoided.

  The bypass valve 61 can also be provided as a three-way valve at the connection point between the recovery line 3 and the bypass line 6 according to the embodiment. By switching the three-way valve, it is possible to control whether to maintain the flow to the flash tank 2 via the recovery line 3 or to switch to the flow to the bypass line 6.

  In the above embodiment, the flash steam generator 1 includes one flash tank 2, but the flash tank is not limited to one, and may include a plurality of flash tanks. In that case, the bypass line and the bypass valve may be provided for each flash tank, or may be provided one by one for the entire flash steam generator.

  In the above embodiment, the flash tank 2 serves as a water level detection means for detecting the water level of the flash tank 2, the water level within the predetermined range (the first reference value L1 and the second reference value L2) and the water level of the first alarm value A1. Although the water level sensor 21 to detect and the float switch 22 to detect the water level of the second alarm value A2 are provided, only the water level sensor or only the float switch may be provided as the water level detection means. In this case, the water level within the predetermined range, the water level of the first alarm value, and the water level of the second alarm value are detected by the water level sensor or the float switch.

  In the said embodiment, if the water level sensor 21 detects that the water level of the flash tank 2 is more than 1st alarm value A1, a control means will open the bypass valve 61 in a fully-closed state, and if predetermined time passes after that. The bypass valve 61 is closed. However, the control means closes the bypass valve 61 when the predetermined time has not elapsed and the water level of the flash tank 2 is equal to or lower than the predetermined value, for example, the second reference value L2 (and higher than the first reference value L1). You may do it. Even in this configuration, the drain can be smoothly received in the flash tank 2 after dealing with the instantaneous increase in the drain amount. The control means opens the bypass valve 61 when the water level of the flash tank 2 detected by the float switch 22 is equal to or higher than the second alarm value A2 exceeding the first alarm value A1, but in this case As in the above embodiment, the bypass valve 61 is not closed due to a drop in the water level of the flash tank 2.

  The present invention is not limited to the configuration described in the above embodiment, and can include various modifications that can be considered by those skilled in the art without departing from the content described in the claims.

  In the present invention, a rationally designed flash steam generator capable of responding to an instantaneous increase in the drain amount in the upstream steam utilization facility can be provided, so that the industrial utility value is great.

DESCRIPTION OF SYMBOLS 1 Flash steam generator 2 Flash tank 21 Water level sensor 22 Float switch 3 Recovery line 31 Strainer 32 Pressure sensor 4 Supply line 41 Supply valve 5 Discharge line 51 Discharge valve 6 Bypass line 61 Bypass valve 62 Manual valve 11 Upstream steam utilization equipment 12 Downstream steam utilization equipment

Claims (4)

A flash steam generator that re-evaporates the drain collected from the upstream steam utilization facility and separates it into flash steam and hot water, and supplies the flash steam to the downstream steam utilization facility,
A flash tank for separating the drain into the flash steam and the hot water;
A collection line for collecting the drain into the flash tank;
A supply line for supplying the flash steam from the flash tank to the downstream steam utilization facility;
A discharge line for discharging the hot water from the flash tank;
Control means for controlling the operation of the flash steam generator;
Water level detecting means for detecting the water level of the flash tank, and
The recovery line is provided with a bypass line that bypasses the flash tank and connects the recovery line and the discharge line.
The bypass line is provided with a bypass valve for opening and closing the bypass line,
The discharge line is provided with a discharge valve whose opening degree is controlled based on the water level of the flash tank,
The control means is configured to control the opening of the discharge valve when the water level of the flash tank by the water level detection means is within a predetermined range.
A first alarm value exceeding the predetermined range is set for the water level of the flash tank,
The flash steam generator, wherein the control means is configured to fully open the bypass valve when the water level of the flash tank by the water level detection means is equal to or higher than the first alarm value.
The flash steam generator according to claim 1, wherein the control means opens the bypass valve for a predetermined time and then closes the bypass valve.
The flash steam generator according to claim 1, wherein the control means is configured to close the bypass valve when a water level of the flash tank falls within the predetermined range.
The water level of the flash tank is set with a second alarm value that exceeds the first alarm value,
The control means according to any one of claims 1 to 3, wherein when the water level of the flash tank is equal to or higher than the second alarm value, the bypass valve is fully opened and the state is maintained. The described flash steam generator.

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