JPH0642308A - Power recovery device for steam supply line - Google Patents

Abstract

(57) [Summary] [Purpose] The no-load operation of the steam turbine was prevented, the effective use of the accumulator was made possible, and the power recovery by the steam turbine was made efficient. [Configuration] Power recovery passage 1 with a steam turbine 11 interposed
An opening / closing valve 13 and a third flow rate adjusting valve 14 are provided on the second valve 2. The on-off valve 13 is opened / closed based on the no-load steam flow rate of the steam turbine 11 to prevent the no-load operation of the steam turbine 11. The pressure setting of the steam supply line 3 adjusted by the third flow rate adjusting valve 14 is interposed between the first flow rate adjusting valve 6 provided in the steam passage 7 and the pressure accumulation passage 10 having the accumulator 8. It is possible to operate the steam turbine 11 prior to the accumulator 8 by setting the pressure higher than the pressure setting adjusted by.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a power recovery system for a steam supply line, and more particularly to a power recovery system for recovering power from a steam supply line between a steam source and a steam load by a steam turbine.

[0002]

2. Description of the Related Art Conventionally, in a steam consuming factory equipped with a steam source, a steam supply line provided between the steam source and a steam load has a steam passage and a accumulator in which a first flow rate adjusting valve (pressure reducing valve) is interposed. And a pressure accumulation passage having a second flow rate adjusting valve (pressure reducing valve) interposed between them, and the first flow rate adjusting valve brings the steam load side pressure (hereinafter referred to as steam pressure) to a predetermined pressure (for example, 7 kg / cm ² ). When the steam pressure rises due to a decrease in the steam load, the first flow rate adjusting valve is narrowed down to adjust the steam pressure to a set value, the pressure is accumulated in the accumulator, and the steam pressure decreases as the steam load increases. When I did
The second flow rate adjusting valve is opened so that the pressure-stored steam flows out, and a power recovery passage having a power recovery steam turbine interposed therein is arranged in parallel in each of the passages arranged in parallel in the steam supply line. The steam turbine is used for power recovery.

[0003]

As described above, in the steam supply line having the accumulator passage with the accumulator interposed as described above, the power recovery passage having the steam turbine is provided in parallel in the accumulator passage, and the power is recovered by the steam turbine. In that case, the steam turbine has a predetermined pressure corresponding to the steam load, that is, the steam pressure acts as a back pressure, and
It is adapted to be driven even when the steam load decreases and the steam flow rate decreases, and since the power recovery path and the accumulator path via the accumulator are juxtaposed, the steam flow rate is Even when the output of the steam turbine is less than the no-load steam flow rate at which the output is zero, the steam turbine is operated without load and steam is consumed, and pressure cannot be accumulated in the accumulator. Even if the number is further increased, there is a problem that steam flows through the accumulator passage with the accumulator interposed therebetween, and the efficiency of power recovery by the steam turbine deteriorates.

That is, since back pressure acts on the steam turbine, for example, when the back pressure is 7 kg / cm ² , the steam flow rate is 5,
At 000 Kg / h or less, no load operation is performed and the output (Kw) becomes zero, so power recovery cannot be performed when the steam flow rate is less than the no load steam flow rate. When it increases, the output (Kw) increases in proportion to the steam consumption of the steam turbine.

Therefore, when the steam flow rate is lower than the no-load steam flow rate, even if the steam turbine is operated, no load operation is performed and the power cannot be recovered. Since it consumes steam, the pressure cannot be accumulated while the accumulator is provided.On the other hand, when the amount of steam exceeds the no-load steam flow rate and power recovery is possible, steam is stored in the steam passage or pressure accumulation passage. If it flows, the flow rate of steam to the power recovery passage decreases, and the output (Kw) of the steam turbine decreases correspondingly, and the efficiency of power recovery deteriorates.

An object of the present invention is to enable accumulation of pressure in an accumulator by eliminating the no-load operation of the steam turbine when the steam load is small and the steam flow rate is smaller than the no-load steam flow rate of the steam turbine. However, when the steam flow rate exceeds the no-load flow rate of the steam turbine, it is possible to efficiently recover the power by the steam turbine.

Another object of the present invention is to provide a power recovery device capable of compensating the constant drive of the load provided on the output side of the steam turbine even when the operation of the steam turbine is stopped due to the decrease of the steam load. Another purpose is to compensate for the constant drive of a load provided on the output side of the steam turbine, while an electric motor provided for the purpose of power generation by the output of the steam turbine exceeding the rated speed of the motor. It is an object of the present invention to provide a power recovery device that can prevent the machine from becoming a machine and can drive the load at a required number of rotations according to the load.

[0008]

According to the present invention, in a steam supply line 3 between a steam source 1 and a steam load 2, a steam passage 7 having a first flow rate adjusting valve 6 interposed, an accumulator 8 and a second flow path.
The pressure accumulation passage 10 having the flow rate adjusting valve 9 interposed therein is arranged in parallel, and the power recovery passage 12 having the power recovery steam turbine 11 interposed therein is arranged in parallel with each of the passages 7 and 10.
In the power recovery device that enables power recovery by 1,
An opening / closing valve 13 and a third flow rate adjusting valve 1 are provided in the power recovery passage 11.
4, the pressure setting of the steam supply line 3 adjusted by the third flow rate adjusting valve 14 is adjusted by the first and second flow rate adjusting valves 6, 9 of the steam supply line 3. While being set higher than the setting, the power recovery passage 12
Of the power recovery based on the detection results of the first flow rate detector 22 that detects the steam flow rate of the second steam flow rate, the second flow rate detector 23 that detects the steam flow rate on the steam load side of the steam supply line 3, and the first flow rate detector 22. When the steam flow rate in the passage 12 becomes lower than the unloaded steam flow rate in the turbine 11, the on-off valve 1
3, and a controller 24 that opens the on-off valve 13 when the steam flow rate of the steam supply line 3 is higher than the no-load steam flow rate of the turbine 11 according to the detection result of the second flow rate detector 23. It was.

In the above construction, it is preferable to connect the electric motor 25 to the output side of the steam turbine 11. When the electric motor 25 is connected, a rotation speed detector 28 for detecting the rotation speed of the power recovery steam turbine 11 is provided, and the rotation speed of the turbine 11 is connected to the output side of the turbine 11. When the upper limit value H set within the rated speed range of the motor 25 is exceeded, the motor 25
It is preferable to provide a motor operation control means 30 for stopping the operation.

[0010]

When the steam load is reduced during the operation of the steam turbine 11 and the steam consumption amount under the steam load is reduced, the steam flow rate in the power recovery passage 12 is also decreased. When the output (Kw) of the steam turbine 11 becomes zero as the load steam flow rate becomes smaller than the load steam flow rate, the opening / closing valve 13 is closed and the power recovery passage 12 is shut off according to the detection result of the first flow rate detector 22. Therefore, no-load operation of the steam turbine 11 is prevented.

Therefore, when the steam flow rate is low and the power cannot be recovered by the steam turbine 11, the steam turbine 11 can be stopped to eliminate the steam consumption by the steam turbine 11, so that the pressure can be accumulated in the accumulator 8. Therefore, the accumulator 8 can be effectively used.

Further, when the load increases and the steam flow rate increases and exceeds the no-load steam flow rate of the steam turbine 11,
Based on the detection result of the second flow rate detector 23, the on-off valve 1
3, the steam turbine 11 is driven to recover the power.

In this case, when the steam pressure increases due to the decrease of the steam load with the opening / closing valve 13 open, the pressure setting is set lower than that of the third flow rate adjusting valve 14 to adjust the first and second flow rates. The valves 6 and 9 are closed, and the third flow rate adjusting valve 14
Only the steam turbine 11 is opened and the steam pressure is adjusted to the pressure setting of the third flow rate adjusting valve 14.
Is to be operated prior to the accumulator 8.

Therefore, the efficiency of power recovery by the steam turbine 11 can be improved accordingly.

When the steam load is further reduced and the steam flow rate is lower than the unloaded steam flow rate of the turbine 11,
The controller 24 closes the on-off valve 13.
In this case, since the steam pressure decreases, first, the second flow rate adjusting valve 9 is opened, and the steam accumulated in the accumulator 8 can be discharged.

Although the steam turbine 11 is stopped by closing the opening / closing valve 13, by connecting an electric motor 25 to the output side of the steam turbine 11, even if the steam turbine 11 is stopped, It is possible to compensate for constant driving of a load such as a compressor of a refrigerator or a pump or a fan provided on the output side of the steam turbine 11.

When the steam turbine 11 is operated when the steam load is large, the output of the steam turbine 11 increases, and when the motor 25 becomes higher than its rated speed, the motor 25 Is a generator, but when the rotation speed of the steam turbine 11 exceeds an upper limit value H set within the rated rotation speed of the motor 25, the motor 25
It is possible to prevent the motor 25 from functioning as a generator by providing the motor operation control means 30 for stopping the operation of the motor 25 while using the motor 25.
It becomes possible to drive at the number of rotations required for the load without becoming a generator.

[0018]

In the embodiment shown in FIG. 1, a high pressure header 4 and a low pressure header 5 are provided in a steam supply line 3 between a steam source 1 composed of a boiler and a steam load 2 which consumes steam to perform work. A steam passage 7 having the first flow rate adjusting valve 6 interposed therein and a pressure accumulator passage 10 having the accumulator 8 and the second flow rate adjusting valve 9 interposed therebetween, and in each of these passages 7 and 10,
Power recovery passage 1 with a power recovery steam turbine 11 interposed
2 are arranged side by side, and the power recovery passage 12 has an opening / closing valve 13 and a third
Power is recovered by the steam turbine 11 when the on-off valve 13 is opened by interposing the flow rate adjusting valve 14, and each passage 7, which interposes each of the flow rate adjusting valves 6, 9, 14 is provided. 10 and 12 have these flow rate adjusting valves 6, 9, 14 respectively.
Pressure detectors 15, 16 for detecting the steam pressure on the secondary side of
17 are provided, and these pressure detectors 15, 16, 17
Based on the detection result of 1, the opening indicator 18, 19, 20 for outputting the opening instruction to each of the flow rate adjusting valves 6, 9, 14 in comparison with the preset pressure is provided, and the steam supply line 3 The steam pressure on the steam load side is adjusted to the predetermined pressure.

Incidentally, in the embodiment shown in FIG.
The second flow rate adjusting valves 6 and 9 are pressure reducing valves, and the high pressure steam (for example, 14 kg / cm ² ) introduced from the high pressure header 4 by the opening adjustment according to the opening instruction from the opening indicators 18 and 19 is supplied to each of the above. The pressure is reduced to a desired set pressure set by the opening indicators 18 and 19, and the steam pressure on the steam load side communicating from the low pressure header 5 to the steam load 2 is adjusted to the set pressure. The flow rate adjusting valve 14 is composed of an adjusting valve, and the speed of the steam turbine 11 is adjusted based on the set pressure set by the opening degree indicator 20, so that the steam pressure on the steam load side is adjusted to the set pressure. There is. In FIG. 1, reference numeral 21 is a governor.

In the above construction, however, the set pressure set by each of the opening indicators 18, 19, 20 is the lowest set pressure P _{1 of} the first flow rate adjusting valve 6, for example 6.5.
Kg / cm ² , the set pressure P ₂ of the second flow rate adjusting valve 9 is higher than the set pressure P ₁ , for example 6.75 Kg / cm ^2, and the set pressure P ₃ of the third flow rate adjusting valve 14 is the highest, for example. 7 kg
than it is the / cm ^2.

The power recovery passage 12 has a first flow rate detector 2 for detecting the flow rate of steam in the power recovery passage 12.
2 is provided and the steam load side of the steam supply line 3 is
That is, on the secondary side of the low-pressure header 5, the second flow rate detector 23 for detecting the steam flow rate on the steam load side is provided, and
According to the detection result of the first flow rate detector 22, when the steam flow rate of the power recovery passage 12 becomes lower than the no-load steam flow rate of the turbine 11, the on-off valve 13 is closed, and
Based on the detection result of the second flow rate detector 23, the steam flow rate on the secondary side of the low-pressure header 5 is determined by the turbine 11
A controller 24 is provided for opening the on-off valve 13 when the flow rate is higher than the unloaded steam flow rate.

The unloaded steam flow rate is determined by the set pressure P ₃ set by the opening degree indicator 20 of the third flow rate adjusting valve 14, in other words, by the back pressure of the turbine 11, and the set pressure P _{When 3} is set to 7 Kg / cm ² as described above, the steam consumption (Kg / h) and output (K
As is clear from the Wilans line showing the characteristics with w), the output becomes zero at a steam consumption of about 5,000 Kg / h,
The unloaded steam flow rate is 5,000 Kg / h. In this case, it is preferable that the on-off valve 13 is opened and closed differentially, for example, closed at 5,000 Kg / h and opened at 6,000 Kg / h, for example.

Next, the operation of the power recovery device configured as described above will be described.

First, when the steam load becomes small during the operation of the steam turbine 11 and the steam consumption in the steam load 2 becomes small, the steam flow rate in the power recovery passage 12 also decreases. Then, when this steam flow rate becomes lower than the no-load steam flow rate of the steam turbine 11, the opening / closing valve 13 is closed by an instruction from the controller 24 based on the detection result of the first flow rate detector 22, and the turbine 11 Therefore, the no-load operation of is prevented.

Therefore, when the steam flow rate is small and the steam turbine 11 is in no-load operation and power cannot be recovered, the power recovery passage 12 can be shut off to eliminate steam consumption by the steam turbine 11. Therefore, the pressure can be accumulated in the accumulator 8, and the accumulator 8 can be effectively used.

That is, when the on-off valve 13 is closed, the steam pressure on the steam load side rises because the steam load is small, but the second flow rate adjusting valve is set to the second flow rate adjusting valve from the set pressure P _{1 of} the first flow rate adjusting valve 6. Since the set pressure P ₂ of 9 is higher, the first flow rate adjusting valve 6 is fully closed first and the pressure is accumulated in the accumulator 8.

Next, when the steam consumption in the steam load 2 increases and the steam flow rate increases to exceed the no-load steam flow rate of the steam turbine 11, it is determined based on the detection result of the second flow rate detector 23. The opening / closing valve 13 is opened according to an instruction from the controller 24, and the steam turbine 11 is driven by this opening operation to recover power.

In this case, when the steam pressure increases due to a decrease in steam load with the on-off valve 13 open, the first flow rate adjusting valve 6 having the lowest pressure setting is first fully closed, and then the second flow rate adjusting valve. 9 is fully closed, only the third flow rate adjusting valve 14 is opened, the entire amount of steam flows into the power recovery passage 12, and the steam turbine 11 is operated with priority over the accumulator 8. The efficiency of power recovery by the turbine 11 can be improved.

In this case, the steam pressure of the steam supply line 3 is the set pressure of the third flow rate adjusting valve 14 (7 kg / cm ² ).
Adjusted to.

Further, since the steam pressure decreases when the steam load increases from the above state, the second flow rate adjusting valve 9 is first opened with the accumulator 8 while the third flow rate adjusting valve 14 is fully opened. The accumulated vapor can be released.

When the steam load further increases and the steam pressure decreases, the first flow rate adjusting valve 6 opens, and steam flows from the steam passage 7.

By the way, in the embodiment shown in FIG. 1, an electric motor 25 is provided on the output side of the steam turbine 11 with a clutch 26.
The steam turbine 11 is backed up by the motor 25, and the load 27 connected to the output side of the steam turbine 11 is constantly driven, for example, a compressor of a refrigerator, a pump or a fan. I am compensating.

Therefore, even if the steam flow rate is reduced and the opening / closing valve 13 is closed based on the detection result of the first flow rate detector 22 to stop the operation of the turbine 11, the load 2
The motor 7 is driven by the motor 25, and can be prevented from being stopped by the fluctuation of the steam load 2.

When the motor 25 is used, as shown in FIG.
As shown in FIG. 3, a rotation speed detector 28 for detecting the rotation speed of the steam turbine 11 is provided, and the output of the turbine 11 increases, and the rotation speed exceeds the rated rotation speed of the motor 25, for example. The rotation speed is set to the upper limit value H, and
There is an opening / closing switch 30a for stopping the operation of the motor 25 and starting the operation of the motor 25 with a lower limit value L which is the rotational speed at which the output of the turbine 11 decreases and becomes smaller than the rated rotational speed of the motor 11. It is preferable to provide a motor operation control means 30.

In this case, when the steam load 2 is small and power is being recovered by the steam turbine 11, even if the output of the steam turbine 11 increases, the motor 25 exceeds its rated speed. It is possible to prevent the motor from rotating and becoming a generator, and it is possible to drive at a required number of rotations according to the load 27.

The upper limit value H for stopping the operation of the motor 25 is set in accordance with the load 27 within the range of the rated speed except that the rated speed of the motor 25 is set as a reference. You may set up based on a required rotation speed.

Further, in the embodiment described above, the third flow rate adjusting valve 14 is constituted by using the speed regulating valve, but it may be provided separately from the speed regulating valve, or may be provided instead of the speed regulating valve. May be.

[0038]

As described above, according to the present invention, in the steam supply line 3 between the steam source 1 and the steam load 2, the steam passage 7 in which the first flow rate adjusting valve 6 is interposed, the accumulator 8 and the second flow rate adjusting are provided. A pressure accumulation passage 10 having a valve 9 interposed therein is provided in parallel, and a power recovery passage 12 having a power recovery steam turbine 11 interposed therein is provided in parallel with each of the passages 7 and 10 to enable power recovery by the steam turbine 11. In the power recovery device described above, the power recovery passage 12 is provided with an opening / closing valve 13 and a third flow rate adjusting valve 14, and the pressure setting of the steam supply line 3 adjusted by the third flow rate adjusting valve 14 is performed as described above. A first flow rate detector 22 for detecting the steam flow rate in the power recovery passage 12 while the pressure is set higher than the pressure setting of the steam supply line 3 adjusted by the first and second flow rate adjusting valves 6, 9, and the steam supply line Steam load of 3 When the steam flow rate of the power recovery passage 12 becomes lower than the no-load steam flow rate of the turbine 11 according to the detection results of the second flow rate detector 23 and the first flow rate detector 22 that detect the steam flow rate, the on-off valve And a controller 24 that closes 13 and opens the on-off valve 13 when the steam flow rate of the steam supply line 3 is higher than the no-load steam flow rate of the turbine 11 according to the detection result of the second flow rate detector 23. Therefore, when the steam load is small and the steam flow rate is smaller than the no-load flow rate of the steam turbine 11, the on-off valve 13 can be closed to prevent the no-load operation of the steam turbine 11, and the accumulator 8
Therefore, the accumulator 8 can be effectively used.

Furthermore, when the steam load increases and the steam flow rate exceeds the no-load steam flow rate of the steam turbine 11, the opening / closing valve 13 is opened to operate the steam turbine 11.
Power can be recovered by the turbine 11, and in this case, the first and second flow rate adjusting valves 6, 9 are used.
Is closed and only the third flow rate adjusting valve 14 is opened to recover the power by the steam turbine 11. In other words, the power recovery can be prioritized over the accumulator 8, so that the efficiency of the power recovery can be improved.

Further, when the electric motor 25 is connected to the output side of the steam turbine 11, it is provided on the output side of the steam turbine 11 even when the operation of the steam turbine 11 is stopped due to the reduction of the steam load. The constant drive of the load 27 such as the refrigerator can be compensated.

Further, when the motor 25 is used, a rotation speed detector 28 for detecting the rotation speed of the steam turbine 11 is used.
And the rotation speed of the steam turbine 11 is set within the rated rotation speed range of the motor 25.
When the motor 25 is exceeded, the output of the steam turbine 11 is increased by providing the motor operation control means 30 for stopping the operation of the motor 25, and the rotation speed of the steam turbine 11 is higher than that of the motor 25. Even if the rated speed is exceeded, the motor 25 can be prevented from functioning as a generator, and the motor can be driven at a required speed according to the load 27.

[Brief description of drawings]

FIG. 1 is a piping system diagram showing an embodiment of the present invention.

FIG. 2 is a Wilan diagram showing characteristics of unloaded steam consumption and output.

[Explanation of symbols]

 1 Steam Source 2 Steam Load 3 Steam Supply Line 6 First Flow Rate Control Valve 7 Steam Passage 9 Second Flow Rate Control Valve 10 Accumulation Passage 11 Steam Turbine 12 Power Recovery Passage 13 On-off Valve 14 Third Flow Rate Control Valve 22 First Flow Rate Detector 23 Second flow rate detector 24 Controller 25 Electric motor 27 Load 28 Rotation speed detector 30 Motor operation control means

Claims (3)

[Claims] 1. A steam passage 7 having a first flow rate adjusting valve 6 in a steam supply line 3 between a steam source 1 and a steam load 2.
And a pressure accumulation passage 10 in which an accumulator 8 and a second flow rate adjusting valve 9 are provided side by side, and a power recovery passage 12 in which a power recovery steam turbine 11 is provided in each of the passages 7 and 10.
In the power recovery device in which the steam turbine 11 is capable of recovering power, the power recovery passage 12 is provided with an opening / closing valve 13 and a third flow rate adjusting valve 14, and the third flow rate adjusting valve The steam supply line 3 adjusted by 14
Is set higher than the pressure setting of the steam supply line 3 adjusted by the first and second flow rate adjusting valves 6 and 9, while the first flow rate detector 22 detecting the steam flow rate of the power recovery passage 12 is set. And a second flow rate detector 23 for detecting the steam flow rate on the steam load side of the steam supply line 3 and the first flow rate detector 23.
Based on the detection result of the flow rate detector 22, the power recovery passage 1
When the steam flow rate of No. 2 is lower than the no-load steam flow rate of the turbine 11, the on-off valve 13 is closed, and the steam flow rate of the steam supply line 3 is determined by the detection result of the second flow rate detector 23. And a controller 24 for opening the on-off valve 13 when the flow rate is increased from the unloaded steam flow rate. 2. The power recovery system for a steam supply line according to claim 1, wherein an electric motor 25 is connected to the output side of the power recovery steam turbine 11. 3. A rotation speed detector 28 for detecting the rotation speed of the power recovery steam turbine 11 is provided, and the rotation speed of the turbine 11 is the rated rotation speed of an electric motor 25 connected to the output side of the turbine 11. 3. The power recovery system for the steam supply line according to claim 2, further comprising a motor operation control means 30 for stopping the operation of the motor 25 when the upper limit value H set within the range is exceeded.