CN204881245U - System for improve two backpressure condenser evacuation efficiency - Google Patents

Abstract

The utility model discloses a system for improve two backpressure condenser evacuation efficiency, it includes high -pressure side condenser, low tension side condenser and the vacuum pump package that feeds through in proper order through first female pipe, the high -pressure side condenser with be provided with the evacuation communicating door between the low tension side condenser, the high -pressure side condenser with be provided with the female pipe of second between the evacuation communicating door, the high -pressure side condenser with the vacuum pump package passes through the female pipe intercommunication of second. The utility model discloses have the gas clean up, reduce the energy consumption, the convenient beneficial effect who adjusts.

Description

A kind ofly improve the system that double pressure condenser vacuumizes efficiency

Technical field

The utility model relates to a kind of double pressure condenser vavuum pump group pipe connection system, and more particularly, the utility model relates to a kind of device being applicable to carry out the double pressure condenser vavuum pump group method of operation convenient adjustment.

Background technology

Current domestic large capacity turbine is two cylinder four steam discharges or three cylinder four steam discharges, condenser adopts two back pressure design, the water-ring vacuum pump of the many employings of evacuation system for steam condenser 3 50% capacity of current most power plant, the vacuum lead of high-low pressure condenser is joined together to form a female pipe and receives 3 water-ring vacuum pumps, unit 3 vavuum pumps when starting start simultaneously, and when normal operation, 2 vavuum pumps run.But there is pressure differential due to double pressure condenser, the system of two different pressures grades is also listed in and samely bleeds on female pipe, single back pressure is formed in gas side, condenser high back pressure side is caused excessively to bleed, the low back pressure side of condenser is bled obviously not enough, causes incondensable gas to gather in the low back pressure side of condenser, and effective heat transfer area reduces, terminal temperature difference increases, and exhaust steam pressure raises; Condenser high back pressure side condenser is excessively bled, and effectively can not reduce the exhaust steam pressure of steam turbine, cause medium-loss on the contrary, the sealing coolant-temperature gage of water-ring vacuum pump is raised, the operating condition of vavuum pump degenerates, pumping efficiency decline.The data run, condenser low back pressure side terminal temperature difference is obviously comparatively large, occurs that the reason of this problem is that pumped vacuum systems design is unreasonable.

Utility model content

An object of the present utility model solves at least the problems referred to above and/or defect, and provide the advantage will illustrated at least below.

The utility model also has an object to be to provide one can improve vacuum, reduce hear rate, smoothly high and low pressure gas trap inner accumulated smooth air is extracted out, and the double pressure condenser pumped vacuum systems that three vavuum pump groups two transport the multiple methods of operation such as a standby or fortune two is standby can be realized.

In order to realize according to these objects of the present utility model and other advantage, provide and a kind ofly improve the system that double pressure condenser vacuumizes efficiency, it comprises the high-pressure side condenser, low-pressure side condenser and the vavuum pump group that are communicated with successively by first female pipe, be provided with between described high-pressure side condenser and described low-pressure side condenser and vacuumize communicating door, described high-pressure side condenser and described vacuumizing between communicating door are provided with second female pipe, and described high-pressure side condenser is communicated with by described second female pipe with described vavuum pump group.

Preferably, described high-pressure side condenser is provided with a pair first and vacuumizes door, first vacuumize door for any one, be communicated with by the first connexon pipe between its with first female pipe, described first connexon pipe is provided with first-hand movable valve; Described low-pressure side condenser is provided with a pair second and vacuumizes door, for second vacuumizing door described in any one, be connected by the second connexon pipe between its with first female pipe, described second connexon pipe is provided with second-hand's movable valve.

Preferably, described vavuum pump group comprises three vavuum pumps in parallel.

Preferably, for any one vavuum pump, its upstream is provided with check-valves.

Preferably, be communicated with between described check-valves with described first female pipe by the 3rd connexon pipe, described 3rd connexon pipe is disposed with the 3rd manually-operated gate and the first Pneumatic butterfly valve along airflow direction; Be communicated with by the 4th connexon pipe between described check-valves with described second female pipe, described 4th connexon pipe is disposed with the 4th manually-operated gate and the second Pneumatic butterfly valve along airflow direction.

Preferably, for any one vavuum pump, it is bipolar cone pump, and each stage compression ratio of described bipolar cone pump is respectively 7: 1 and 6: 1, and the power of described bipolar cone pump is 110kw.

Preferably, the porch of described bipolar cone pump is provided with condensation nozzle.

Preferably, described first female pipe and second female pipe are the seamless steel pipe that external diameter is 219mm, wall thickness 7mm.

First cone pump air inlet area is large, and opening gos deep into impeller cabin, and passage is the most unobstructed, intake resistance is little, secondly substantially increase vacuum capability, add condensation water spray in the porch of pump and carry out condensation condensable gas, can the gas volume of suction pump can greatly reduce, the vacuum capability of further raising pump, after adopting two-stage (two-speed) pump, compression ratio reduces, and also reduces the heat of compression, and the heat of compression passes to sealing water at twice, the temperature rise ratio single-stage pump of sealing water is little.Because sealing coolant-temperature gage is low, good cooling results, thus efficiency is high.

The utility model at least comprises following beneficial effect:

1, improve vacuum, reduce hear rate.Transformation after condenser vacuum improves about 0.75Kp, reduces hear rate 1.7625g/kWh.

2, double pressure condenser pumped vacuum systems achieves two back pressure unit style and bleeds.Its arrangement of bleeding is: unit style is arranged with in parallel combination.This arrangement, can extract out high and low pressure condenser inner accumulated smooth air preferably.And when can guarantee that high and low pressure condenser runs under any variable working condition condition, can normal operating conditions be in.The hand-operated valve at vacuum pump inlet pipe place, pneumatic operated valve and motor-driven valve is utilized to carry out putting into operation of handover operation vavuum pump and for subsequent use.Thus realize three vavuum pump groups two and transport the multiple methods of operation such as a standby or fortune two is standby, and the difference of high and low side pressure condenser vacuum is made to bring up to 1.6kPa.

3, arranging two to vacuumize door and can increase pumping efficiency, if there is some situations vacuumizing door and break down, can solve by closing manually operated door.

4, Pneumatic butterfly valve can be responded to automatically under normal circumstances, and determine whether close connexon pipe, arranging of hand-operated valve also can close the section of vacuumizing when pneumatic operated valve is malfunctioning once in a while.

Part is embodied by explanation below by other advantage of the present utility model, target and feature, part also will by research and practice of the present utility model by those skilled in the art is understood.

Accompanying drawing explanation

Fig. 1 is theory diagram of the present utility model;

Detailed description of the invention

Below in conjunction with accompanying drawing, the utility model is described in further detail, can implements according to this with reference to description word to make those skilled in the art.

Should be appreciated that used hereinly such as " to have ", other element one or more do not allotted in " comprising " and " comprising " term or the existence of its combination or interpolation.

As shown in Figure 1, a kind ofly improve the system that double pressure condenser vacuumizes efficiency, it comprises the high-pressure side condenser 1, low-pressure side condenser 2 and the vavuum pump group 3 that are communicated with successively by first female pipe 4, be provided with between described high-pressure side condenser 1 and described low-pressure side condenser 2 and vacuumize communicating door 41, described high-pressure side condenser 1 and described vacuumizing between communicating door 41 are provided with second female pipe 5, and described high-pressure side condenser 1 is communicated with by described second female pipe 5 with described vavuum pump group 3.

Described high-pressure side condenser 1 is provided with a pair first and vacuumizes door, first vacuumize door for any one, be communicated with by the first connexon pipe 6 between its with first female pipe, described first connexon pipe is provided with first-hand movable valve 61; Described low-pressure side condenser is provided with a pair second and vacuumizes door, for second vacuumizing door described in any one, be connected by the second connexon pipe 7 between its with first female pipe, described second connexon pipe is provided with second-hand's movable valve 71.

Described vavuum pump group 3 comprises three vavuum pumps in parallel.

For any one vavuum pump, its upstream is provided with check-valves 8.

Be communicated with by the 3rd connexon pipe 9 between described check-valves 8 with described first female pipe, described 3rd connexon pipe 9 is disposed with the 3rd manually-operated gate 91 and the first Pneumatic butterfly valve 92 along airflow direction; Be communicated with by the 4th connexon pipe between described check-valves with described second female pipe, described 4th connexon pipe 10 is disposed with the 4th manually-operated gate 101 and the second Pneumatic butterfly valve 102 along airflow direction.

For any one vavuum pump, it is bipolar cone pump, and each stage compression ratio of described bipolar cone pump is respectively 7: 1 and 6: 1, and the power of described bipolar cone pump is 110kw.

The porch of described bipolar cone pump is provided with condensation nozzle.

Described first female pipe 4 and second female pipe 5 are the seamless steel pipe that external diameter is 219mm, wall thickness 7mm.

The utility model has several working ways:

1, when unit vaccum better time, two first-hand movable valves 61 and two second-hand's movable valves 71 are all opened, then communicating door 41 is opened, then the manually-operated gate 102 on each article the 4th connexon pipe is closed, hand-operated valve 91 on 3rd connexon pipe 9 and the first Pneumatic butterfly valve 92 are opened simultaneously, finally select the number of vavuum pump according to required vacuum and regulate the power of vavuum pump.

2, when unit vaccum poor time, two first-hand movable valves 61 and two second-hand's movable valves 71 are all opened, then communicating door 41 is closed, now high-pressure side condenser and low-pressure side condenser form parallel pipeline, any unlatching two vavuum pumps, as opened left side and middle vavuum pump, using the vavuum pump on right side as stand-by pump temporary close, the hand-operated valve 101 connected on the 4th connexon pipe of left side vavuum pump and Pneumatic butterfly valve 102 are opened, the hand-operated valve 91 connected on the 3rd connexon pipe of left side vavuum pump and Pneumatic butterfly valve 92 are closed simultaneously, now left side vavuum pump is only connected with high-pressure side condenser, in like manner, the hand-operated valve 101 connected on the 4th connexon pipe of middle vacuum pump and Pneumatic butterfly valve 102 are closed, the hand-operated valve 91 connected on the 3rd connexon pipe of left side vavuum pump and Pneumatic butterfly valve 92 are opened simultaneously, now middle vacuum pump is only communicated with low-pressure side condenser, vavuum pump power is regulated according to required vacuum degree condition.

If 3 one vavuum pumps can not meet the condition that certain side condenser vacuumizes, vavuum pump for subsequent use is before opened, and connects with this side condenser.

The utility model is used for meeting in unit optimum vacuum situation, and conservative control vavuum pump group running status, effectively reduces station service power consumption rate, net coal consumption rate.

Although embodiment of the present utility model is open as above, it is not restricted to listed in description and embodiment utilization.It can be applied to various applicable field of the present utility model completely.For those skilled in the art, can easily realize other amendment.Therefore do not deviating under the universal that claim and equivalency range limit, the utility model is not limited to specific details and illustrates here and the legend described.

Claims (8)

1. one kind is improved the system that double pressure condenser vacuumizes efficiency, it comprises the high-pressure side condenser, low-pressure side condenser and the vavuum pump group that are communicated with successively by first female pipe, it is characterized in that, be provided with between described high-pressure side condenser and described low-pressure side condenser and vacuumize communicating door, described high-pressure side condenser and described vacuumizing between communicating door are provided with second female pipe, and described high-pressure side condenser is communicated with by described second female pipe with described vavuum pump group.

2. raising double pressure condenser as claimed in claim 1 vacuumizes the system of efficiency, it is characterized in that, described high-pressure side condenser is provided with a pair first and vacuumizes door, first door is vacuumized for any one, be communicated with by the first connexon pipe between its with first female pipe, described first connexon pipe is provided with first-hand movable valve; Described low-pressure side condenser is provided with a pair second and vacuumizes door, for second vacuumizing door described in any one, be connected by the second connexon pipe between its with first female pipe, described second connexon pipe is provided with second-hand's movable valve.

3. raising double pressure condenser as claimed in claim 2 vacuumizes the system of efficiency, and it is characterized in that, described vavuum pump group comprises three vavuum pumps in parallel.

4. raising double pressure condenser as claimed in claim 3 vacuumizes the system of efficiency, and it is characterized in that, for any one vavuum pump, its upstream is provided with check-valves.

5. raising double pressure condenser as claimed in claim 4 vacuumizes the system of efficiency, it is characterized in that, be communicated with by the 3rd connexon pipe between described check-valves with described first female pipe, described 3rd connexon pipe is disposed with the 3rd manually-operated gate and the first Pneumatic butterfly valve along airflow direction; Be communicated with by the 4th connexon pipe between described check-valves with described second female pipe, described 4th connexon pipe is disposed with the 4th manually-operated gate and the second Pneumatic butterfly valve along airflow direction.

6. raising double pressure condenser as claimed in claim 5 vacuumizes the system of efficiency, it is characterized in that, for any one vavuum pump, it is bipolar cone pump, each stage compression ratio of described bipolar cone pump is respectively 7: 1 and 6: 1, and the power of described bipolar cone pump is 110kw.

7. raising double pressure condenser as claimed in claim 6 vacuumizes the system of efficiency, and it is characterized in that, the porch of described bipolar cone pump is provided with condensation nozzle.

8. raising double pressure condenser as claimed in claim 7 vacuumizes the system of efficiency, it is characterized in that, described first female pipe and second female pipe are the seamless steel pipe that external diameter is 219mm, wall thickness 7mm.