CN218873010U - Off-line cleaning system for gas compressor - Google Patents

Abstract

The utility model relates to a compressor off-line cleaning system, which comprises a state confirmation module, a cleaning module, a liquid adding module, a liquid storage module and a controller; the utility model discloses based on current software programming and certain hardware transformation, integrate compressor off-line cleaning's independent quotation operation task for sequence control, carry out the ageing matching with the execution time of in-process control procedure and the volume of adding of on-the-spot cleaning liquid to realize the compressor off-line cleaning process of optimization. Compared with the prior art, the utility model has the advantages of degree of automation is high, easy and simple to handle and cost of labor are low.

Description

Off-line cleaning system for gas compressor

Technical Field

The utility model belongs to the technical field of compressor equipment technique and specifically relates to a compressor off-line cleaning system is related to.

Background

The compressor is one of the important components of the gas turbine, and the main function of the compressor is to provide pressurized clean air for the gas turbine. Although the air sucked by the compressor is filtered by the filtering system in the environment with long-term operation or high air pollution degree, dust and micro-particles in the air are easy to accumulate on the moving blades of the compressor and form salt. Excessive scale deposit or salt deposit corrosion can change the movable blade flow channel of the compressor, reduce the compression ratio and the working efficiency of the compressor and even destroy the dynamic balance of the blades of the compressor. To cope with this, the compressor should be cleaned periodically. The cleaning mode comprises two modes, off-line cleaning is used under the condition of larger pollution degree, and on-line cleaning is used under the condition of general pollution degree.

The whole off-line cleaning process of the compressor at least needs the cooperation of a panel operator and a local operator, and the off-line cleaning method has the following defects:

1) The panel operator needs to manually confirm each condition of the compressor before off-line cleaning, manually execute the cleaning program and confirm each intermediate state and the relevant system after the manual re-service cleaning is finished.

2) The on-site operator needs to manually start and stop, replenish the demineralized water for cleaning and manually switch the flushing nozzles according to the instructions of the panel operator. In addition, these on-site locations are distributed remotely and on-site operators need to travel to and from them.

3) An operator on the panel needs to reserve the operation time of the operator on the spot, so that the situation that the cleaning liquid of the compressor is not completely added after the off-line cleaning program is executed is avoided.

4) When the liquid level of the compressor washing tank is too low, an operator needs to reserve a certain time to replenish clean water to a certain liquid level in time on the spot, and the phenomenon that the pump is emptied when the compressor is washed by clean water is avoided.

In summary, the existing offline cleaning procedure for the compressor has the defects of low automation degree, high labor cost, complex operation and the like.

Disclosure of Invention

The utility model aims at providing a compressor off-line cleaning system in order to overcome the defect that above-mentioned prior art exists, with the integration of compressor off-line abluent independent quotation operation task for the sequence control task, carry out the ageing matching with the execution time of sequence control procedure and the dose of in situ cleaning liquid to realize the off-line cleaning process of optimization.

The purpose of the utility model can be realized by the following technical proposal:

an off-line cleaning system for a gas compressor comprises a state confirmation module, a cleaning module, a liquid adding module, a liquid storage module and a controller;

the cleaning module comprises a water washing tank, and the water washing tank is connected with a cleaning part through a main connecting pipe;

the cleaning module, the liquid adding module and the liquid storage module are sequentially connected;

the liquid adding module is connected with the controller;

and the state confirmation module is respectively connected with the air compressor and the controller.

Further, a first sensor and a second sensor are arranged on the washing tank;

the controller is respectively connected with the first sensor and the second sensor;

the first sensor is arranged at the upper part of the washing tank and used for detecting the high liquid level of the washing tank;

the second sensor is arranged at the lower part of the washing tank and is used for detecting the low liquid level of the washing tank;

the controller is also connected with a high liquid level switch and a low liquid level switch respectively.

Further, the cleaning component comprises a cleaning nozzle which comprises a jet nozzle and an atomizing nozzle.

Further, the cleaning component comprises a nozzle switching electromagnetic valve, and the nozzle switching electromagnetic valve is connected with the controller;

the nozzle switching electromagnetic valve comprises a liquid inlet and a plurality of liquid outlets;

the liquid inlet is connected with a main connecting pipe, and the other end of the main connecting pipe is connected with a washing tank;

the liquid outlets are connected with secondary connecting pipes, and each secondary connecting pipe is connected with different cleaning nozzles respectively.

Further, the cleaning module comprises a jet pump, an inlet of the jet pump is connected with the water washing tank, and an outlet of the jet pump is connected with the main connecting pipe.

Further, the liquid storage module comprises a medicine storage box and a desalting water storage box;

the medicine storage box is connected with the washing box through a first connecting pipe;

the desalted water storage tank is connected with the washing tank through a second connecting pipe.

Further, the liquid adding module comprises a dosing electromagnetic valve; the dosing electromagnetic valve is installed on the first connecting pipe and connected with the controller.

Further, the liquid feeding module includes the moisturizing solenoid valve, the moisturizing solenoid valve is installed on the second connecting pipe, the moisturizing solenoid valve links to each other with the controller.

Further, the state confirmation module comprises a processor and a plurality of detection devices, and the detection devices are used for detecting state parameters of the compressor.

Furthermore, the system also comprises a timer and an alarm module, wherein the alarm module and the timer are respectively connected with the controller.

Compared with the prior art, the utility model discloses following beneficial effect has:

1. the utility model discloses a washing flow of the whole compressor of state confirmation module and controller control realizes through sequence control that compressor off-line cleaning's procedure is automatic, has optimized whole operation flow, and is easy and simple to handle in the cleaning process, and degree of automation is high, realizes the optimal compressor off-line cleaning performance.

2. The utility model discloses a abluent overall process of controller control compressor off-line has reduced quotation personnel and operator's on the spot daily work load, not only avoids personnel's maloperation, has reduced the human cost simultaneously.

3. The utility model discloses based on current software programming and certain hardware transformation, design cost and cost are controllable, and the practicality is high.

Drawings

Fig. 1 is a logic diagram of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, not all, of the embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts shall fall within the protection scope of the present invention.

As shown in fig. 1, the system for offline cleaning of a gas compressor provided in this embodiment includes a state confirmation module, a cleaning module, a liquid adding module, a liquid storage module, and a controller; the cleaning module comprises a water washing tank, and the water washing tank is connected with a cleaning part through a main connecting pipe; the cleaning module, the liquid adding module and the liquid storage module are sequentially connected; the liquid adding module is connected with the controller; and the state confirmation module is respectively connected with the air compressor and the controller.

The state confirmation module is respectively connected with the compressor and the controller, and is provided with a processor and a plurality of detection devices; the detection device comprises a device for detecting temperature, a device for detecting a baffle switch, a device for detecting the working time of the compressor and other various commonly used devices for detecting the state parameters of the compressor. Or a singlechip, a microprocessor and the like are used, and whether the actual state parameters of the gas compressor meet the cleaning conditions of the gas compressor is verified through a comparison circuit, a logic judgment circuit and other digital circuits.

Meanwhile, the system also comprises an alarm module, wherein the conditions of accidental interruption, program alarm, monitoring of the rotating speed of the large shaft and the like are considered during program design, the working condition is monitored by the state confirmation module, if the working is abnormal, the program is triggered to report errors, the alarm module is used for alarming, and the corresponding program is interrupted; in specific implementation, devices such as an audible and visual alarm and the like can be adopted for alarming.

The cleaning module, the liquid adding module and the liquid storage module are sequentially connected;

the cleaning module comprises a water washing tank, and a first sensor and a second sensor are arranged on the water washing tank; the controller is respectively connected with the first sensor and the second sensor; the first sensor is arranged on the side surface of the upper part of the washing tank and used for detecting the high liquid level of the washing tank; the second sensor is arranged on the side surface of the lower part of the washing tank and used for detecting the low liquid level of the washing tank; the controller is also connected with a high liquid level switch and a low liquid level switch respectively. A high liquid level switch is arranged for preventing the overflow of the washing tank, and a low liquid level switch is arranged for preventing the pump from being emptied.

When the washing machine works, if the second sensor detects that liquid contacts with the washing tank, namely the liquid in the washing tank reaches a preset low liquid level, the second sensor sends a detection signal to the controller, and the controller controls the low liquid level switch to output a low level signal and starts the liquid conveying function of the washing tank; if the second sensor can not detect the liquid contact, namely the liquid in the washing tank is lower than the low liquid level, the second sensor sends a detection signal to the controller, the controller controls the low liquid level switch to output a high level signal, the liquid conveying function of the washing tank is closed, the water inlet function of the washing tank is simultaneously opened, and the water replenishing electromagnetic valve is opened to replenish demineralized water. If the first sensor detects that the liquid is contacted, namely the liquid reaches a high liquid level, the first sensor sends a detection signal to the controller, and the controller controls the high liquid level switch to output a high level signal and closes the water inlet function of the water washing tank;

the washing tank is connected with a washing part through a main connecting pipe; the cleaning component comprises a nozzle switching electromagnetic valve, and the nozzle switching electromagnetic valve is connected with the controller; the nozzle switching electromagnetic valve comprises a liquid inlet and a plurality of liquid outlets; the liquid inlet is connected with a main connecting pipe, and the other end of the main connecting pipe is connected with a washing tank; the secondary connecting pipes are installed at the plurality of liquid outlets and are respectively connected with different cleaning nozzles.

In this embodiment, the cleaning nozzle includes a jet nozzle and an atomizing nozzle;

in this embodiment, the nozzle-switching solenoid valve is provided with two liquid outlets, namely a first liquid outlet and a second liquid outlet, and in other embodiments, different numbers of liquid outlets can be arranged according to different requirements;

the jet nozzle is connected with the first liquid outlet through a connecting pipe, and the atomizing nozzle is connected with the second liquid outlet through a connecting pipe; the valve corresponding to the first liquid outlet is marked as a jet nozzle water inlet valve, and the valve corresponding to the second liquid outlet is marked as an atomizing nozzle electromagnetic valve.

When the gas compressor cleaning device works, the jet flow nozzle and the atomizing nozzle are respectively inserted into a cleaning liquid inlet of the gas compressor, and the controller controls the movement of a valve body in the nozzle electromagnetic valve to open or close different cleaning nozzles.

Be equipped with the jet pump on the washing case, in this embodiment, link to each other with the controller after the jet pump is connected a relay, realize adding the break-make of medicine solenoid valve through controller switch-on or disconnection relay to the transport of liquid in the control washing case. The water washing tank is also provided with a discharge valve and an air discharge valve, the discharge valve is connected to the trench through a hose and used for discharging redundant liquid in the water washing tank, and the air discharge valve is used for discharging redundant gas.

The liquid storage module comprises a medicine storage box and a desalting water storage box; the medicine storage box is connected with the washing box through a first connecting pipe; the brine storage and removal tank is connected with the water washing tank through a second connecting pipe. The medicine storage box is used for storing washing liquid medicine, and the demineralized water storage box is used for storing demineralized water.

The liquid feeding module comprises a dosing electromagnetic valve, the dosing electromagnetic valve is installed on the first connecting pipe, and the dosing electromagnetic valve is connected with the controller. The controller controls the delivery of the washing liquid in the medicine storage tank through the dosing electromagnetic valve, and the washing liquid is delivered to the washing tank when the dosing electromagnetic valve is switched on.

The liquid feeding module further comprises a water replenishing electromagnetic valve, the water replenishing electromagnetic valve is installed on the second connecting pipe and connected with the controller, the switch of the water replenishing electromagnetic valve is controlled through the controller to control the conveying of liquid in the desalted water storage tank, and when the water replenishing electromagnetic valve is switched on, the desalted water is conveyed to the washing tank.

In this embodiment, the system includes a timer, and the timer is connected to the controller, and calculates the time to be delayed for specific implementation by the timer.

In this embodiment, the controller is used to control the compressor offline cleaning system based on the siemens T3000 system. The Siemens T3000 system is used as operation software of a distributed control system of a unit set, the software system has certain programming openness, operation tasks of independent disk surfaces of the air compressor for off-line cleaning can be integrated into sequential control through programming, and the execution time of the sequential control program is matched with the dosing amount of in-situ cleaning liquid in an aging mode, so that the optimized off-line cleaning process is realized.

In this embodiment, specifically use based on siemens T3000 system the utility model provides a compressor off-line washs in same direction as system includes following step:

1. state confirmation module confirms preparation work before cleaning of compressor

The method comprises the following steps of determining the state of the gas compressor by combining gas compressor data measured by a plurality of sensors and a detection device through an application program arranged in a state determination module, and judging whether the gas compressor meets the cleaning requirement or not, wherein the method comprises the following steps:

(1) Confirming that the operation time of the gas turbine barring is more than 6 hours, the output of a gas turbine barring meshing signal is 1 and the ambient temperature is more than 5 ℃;

(2) Confirming to start the frequency conversion device, wherein the excitation device is in a standby state and has no blocking or fault signal;

(3) Checking that the cleaning module, the liquid adding module and the controller are normal, and particularly, the nozzle switching electromagnetic valve, the water replenishing electromagnetic valve have no fault, and the water washing tank has no high liquid level or low liquid level for alarming; and (3) confirming that the hose between the opening of the dosing electromagnetic valve in the dosing module and the washing tank is firmly connected, and confirming that the opening of the jet pump on the washing tank is firmly connected with the main connecting pipe.

(4) Confirming that each discharge valve of the gas turbine body is opened, confirming that the discharge valve from the washing tank to the trench and the air exhaust valve are opened;

(5) Putting an IGV power supply sub-ring, opening the IGV opening to 100%, and confirming that the IGV opening is 100%;

(6) Confirming the opening of an air inlet baffle of the air compressor, stopping the inlet dryer, and confirming the stopping of the inlet dryer;

(7) And (4) confirming that the 'release' condition of the waste heat boiler is met, opening a chimney baffle, and confirming that the chimney baffle is opened.

(8) The "SGC GAS TURBINE", "UNIT COORDINATION", and "SFC HRSG PURGE" are switched from ON to OFF state.

(9) The "ON" signal for "EXCITATION" is asserted to "1", "SFC 1RDY", "SFC 3RDY" signal to "1", and the SFC has no latch-up or fault signal.

2. Soaking work

A control program is deployed in the controller by a professional according to different requirements, and the embodiment takes a preferred control mode as an illustration to realize the soaking operation of the compressor, and includes the following steps:

(1) The controller controls the mixed cleaning solution to mix the cleaning solution and the desalted water according to the proportion of 1:4, namely the cleaning solution and the desalted water are added into the water washing tank by opening the dosing electromagnetic valve and the water replenishing electromagnetic valve respectively according to the proportion of 1:4 until the mixed cleaning solution reaches the high liquid level of the water washing tank, the blending of the cleaning solution is completed, and then the dosing electromagnetic valve and the water replenishing electromagnetic valve are closed;

(2) Confirming that a water inlet valve of an atomizing nozzle (SPRAY NOZZEL) is in a closed state, opening a water inlet valve of a JET nozzle (JET NOZZEL) of a compressor, and confirming that the water inlet valve of the JET nozzle (JET NOZZEL) of the compressor is opened;

(3) Starting the jet pump, wherein at the moment, on-site personnel are required to check that the water level of the cleaning water tank is normally reduced, and the interfaces of the cleaning liquid conveying pipelines are not leaked;

(4) Stopping the JET pump by delaying X minutes through a timer or outputting a signal '1' through a low liquid level switch, closing a water inlet valve of a JET nozzle (JET NOZZEL) of the air compressor, and confirming that the water inlet valve of the JET nozzle (JET NOZZEL) of the air compressor is closed; in specific implementation, the time X to be delayed is set by professional technicians in the field according to different requirements;

(5) Opening a water inlet valve of an atomizing nozzle (SPRAY NOZZEL), and confirming that the water inlet valve of the atomizing nozzle (SPRAY NOZZEL) is opened;

(6) Stopping the gas turbine barring, and confirming that the gas turbine barring meshing signal is '0';

(7) Set SFC to switch from UNIT START to COMPR WASH mode, invest SFC PREPARE.

Starting the jet pump;

(8) After confirming that the prepare signal is out of 1, executing a mode (2), namely confirming to start the combustion engine by a disk surface person, and exiting the SFC after the speed is increased to 700-800 rpm;

(9) And the jet pump is stopped by delaying for X minutes through a timer or outputting a signal of '1' through a low liquid level switch.

(10) Closing a water inlet valve of an atomizing nozzle (SPRAY NOZZEL), opening a water replenishing electromagnetic valve, and replenishing demineralized water into a water washing tank;

(11) Confirming closing of a water inlet valve of an atomizing nozzle (SPRAY NOZZEL);

(12) And when the turning speed of the combustion engine is less than 2.5Hz, starting a turning program of the combustion engine.

3. Rinsing work

The method is characterized in that a control program is deployed in a controller by a professional technician according to different requirements, and the embodiment takes a preferred control mode as an illustration to realize the rinsing work of the compressor, and comprises the following steps:

(1) Closing the water replenishing electromagnetic valve after delaying X minutes or closing the water replenishing electromagnetic valve when a high liquid level switch signal of the water washing tank outputs '1';

(2) Confirming that a water inlet valve of a JET nozzle (JET NOZZEL) of the compressor is closed, and opening a water inlet valve of an atomizing nozzle (SPRAY NOZZEL);

(3) Confirming the opening of the water inlet valve of the atomizing nozzle (SPRAY NOZZEL);

(4) Checking a turning engagement signal of the gas turbine, and if a signal of '0' is output, determining that the turning of the gas turbine is stopped, and if a signal of '1' is output, stopping the turning of the gas turbine;

(5) Checking SFC in COMPR WASH mode, and applying SFC PREPARE;

(6) After the prefix signal is confirmed to be '1', executing a mode (2), namely after the disk personnel check the automatic operation of the SFC, the rotating speed is increased to 700-800 revolutions/minute, and then the SFC exits;

(7) When the turning speed of the gas turbine is less than 2Hz, starting a turning program of the gas turbine;

(8) The jet pump is stopped by delaying X minutes or outputting a signal of '1' by a low liquid level switch, and a water inlet valve of an atomizing nozzle (SPRAY NOZZEL) is closed.

(9) Confirming that the atomizing nozzle (SPRAY NOZZEL) water inlet valve and the JET nozzle (JET NOZZEL) water inlet valve are in the closed position.

(10) When no water flows out of the water collecting tank, the local operator closes all the water discharge valves.

4. Restoration of service

(1) Switching the SFC operation mode from COMPR WASH to UNIT START;

(2) "SGC GAS TURBINE", "UNIT COORDINATION" and "SFC HRSG PURGE" are switched from OFF state to ON state;

(3) Closing the IGV to 11%, and exiting the IGV power supply sub-ring;

(4) A drying device is used.

It can be understood that, in this embodiment, an application program deployed inside the processor is the prior art, and can automatically process measured data of the compressor, and meanwhile, programming software loaded inside the controller is also the prior art, and can realize corresponding functions of controlling the on-off of the dosing electromagnetic valve and the water replenishing electromagnetic valve, and details are not repeated here.

The above description is only for the specific embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily think of various equivalent modifications or substitutions within the technical scope of the present invention, and these modifications or substitutions should be covered within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (10)

1. An off-line cleaning system of a gas compressor is characterized by comprising a state confirmation module, a cleaning module, a liquid adding module, a liquid storage module and a controller;

the cleaning module comprises a water washing tank, and the water washing tank is connected with a cleaning part through a main connecting pipe;

the cleaning module, the liquid adding module and the liquid storage module are sequentially connected;

the liquid adding module is connected with the controller;

and the state confirmation module is respectively connected with the air compressor and the controller.

2. The offline compressor cleaning system as claimed in claim 1, wherein the washing tank is provided with a first sensor and a second sensor;

the controller is respectively connected with the first sensor and the second sensor;

the first sensor is arranged at the upper part of the washing tank and is used for detecting the high liquid level of the washing tank;

the second sensor is arranged at the lower part of the washing tank and is used for detecting the low liquid level of the washing tank;

the controller is also connected with a high liquid level switch and a low liquid level switch respectively.

3. The compressor off-line cleaning system of claim 1, wherein the cleaning component comprises a cleaning nozzle, and the cleaning nozzle comprises a jet nozzle and an atomizing nozzle.

4. The offline compressor cleaning system according to claim 3, wherein the cleaning component comprises a nozzle switching solenoid valve, and the nozzle switching solenoid valve is connected with the controller;

the nozzle switching electromagnetic valve comprises a liquid inlet and a plurality of liquid outlets;

the liquid inlet is connected with a main connecting pipe, and the other end of the main connecting pipe is connected with a washing tank;

the liquid outlets are connected with secondary connecting pipes, and each secondary connecting pipe is connected with different cleaning nozzles respectively.

5. The offline compressor cleaning system as claimed in claim 1, wherein the cleaning module comprises a jet pump, an inlet of the jet pump is connected with the water washing tank, and an outlet of the jet pump is connected with the main connecting pipe.

6. The off-line compressor cleaning system according to claim 1, wherein the liquid storage module comprises a medicine storage tank and a demineralized water storage tank;

the medicine storage box is connected with the washing box through a first connecting pipe;

the brine storage and removal tank is connected with the water washing tank through a second connecting pipe.

7. The off-line compressor cleaning system according to claim 6, wherein the liquid adding module comprises a dosing electromagnetic valve; the dosing electromagnetic valve is installed on the first connecting pipe and connected with the controller.

8. The off-line compressor cleaning system according to claim 6, wherein the liquid adding module comprises a water replenishing solenoid valve, the water replenishing solenoid valve is mounted on the second connecting pipe, and the water replenishing solenoid valve is connected to the controller.

9. The system for offline cleaning of the compressor of claim 1, wherein the status confirmation module comprises a processor and a plurality of detection devices, and the detection devices are used for detecting status parameters of the compressor.

10. The compressor off-line cleaning system of claim 1, further comprising an alarm module, wherein the alarm module is connected to the controller.

Images