CN113060557A - Method for improving positive pressure concentrated phase ash conveying system output and optimizing ash conveying operation - Google Patents

Abstract

A method for improving the output of a positive-pressure concentrated-phase ash conveying system and optimizing ash conveying operation. In the prior art, the design ash conveying guarantee value of an electric field of the electric dust collector is 55.5 tons per hour, the design output margin is small, and the maximum ash yield of the electric field is 57.5 tons, so that the production requirement cannot be met, and the operation rate and the efficiency of the electric dust collecting electric field are seriously influenced. The invention comprises the following steps: (1) adjusting the switching sequence of the air inlet valve, the air supply valve and the blowing-assisting valve; (2) increasing the ash conveying ending pressure value, and increasing the ash conveying ending pressure value from 35KPa to 90 KPa; (3) one ash conveying pipeline of DN219 is added to the electric field, and two bin pumps are connected in series to form one ash conveying pipeline; (4) adjusting the air inflow of the throttle orifice plates of the air inlet valve, the air supply valve and the blowing-assisting valve according to the coal quality and the system output condition; (5) and adjusting the dome valve, wherein the clearance between a sealing ring and a valve core of the dome valve is adjusted to be 0.8-1.4 mm. The invention relates to a method for improving the output of a positive-pressure concentrated-phase ash conveying system and optimizing ash conveying operation.

Description

Method for improving positive pressure concentrated phase ash conveying system output and optimizing ash conveying operation

Technical Field

The invention relates to a method for improving the output of a positive-pressure concentrated-phase ash conveying system and optimizing ash conveying operation.

Background

In the prior art, the design ash conveying guarantee value of an electric field of the electric dust collector is 55.5 tons per hour, the design output margin is small, and the maximum ash yield of the electric field is 57.5 tons, so the production requirement cannot be met. When an electric field ash conveying system is overhauled, the ash conveying system needs to be stopped, an ash bucket is easy to be full of ash to cause electric field short circuit trip, the operation rate and the efficiency of an electric dust removing electric field are seriously influenced, in addition, in recent years, the coal quality is poor, the ash content is large, the ash content is poor, the ash particle size is large, the ash conveying difficulty is caused, the safe operation of a dry ash removing system is seriously influenced, and the operation rate and the efficiency of the electric dust removing electric field are also.

Disclosure of Invention

The invention aims to provide a method for improving the output of a positive-pressure concentrated-phase ash conveying system and optimizing the ash conveying operation, which reduces the abrasion of valves, pipelines and accessories of a dry ash removal system, effectively reduces the maintenance workload, reduces the maintenance cost and improves the commissioning rate and the efficiency of an electric dust removal electric field.

The above purpose is realized by the following technical scheme:

a method for improving the output of a positive pressure concentrated phase ash conveying system and optimizing ash conveying operation comprises the following steps:

(1) adjusting the switching sequence of the air inlet valve, the air supply valve and the blowing assisting valve, wherein the switching sequence is as follows: when ash conveying begins, opening the blowing-assisting valve for 3 seconds, opening the air-supplementing valve for 4 seconds, and then opening the air inlet valve to convey ash; when the ash conveying is finished, closing the blowing-assisting valve, closing the air inlet valve for 4 seconds, and closing the air supplementing valve;

(2) increasing the ash conveying ending pressure value, increasing the ash conveying ending pressure value from 35KPa to 90KPa, increasing the output of the dry ash removal system by 8 tons per hour, wherein the ash conveying ending pressure value cannot exceed 90KPa at most, otherwise, the dry ash conveying system is easy to block the pipe during operation;

(3) an electric field is additionally provided with an ash conveying pipeline with the diameter of 219mm, two bin pumps are connected in series to form the ash conveying pipeline, the ash conveying period of each time is shortened, the ash conveying times per hour are increased, and the phenomenon of pipe blockage is not easy to occur in the operation process;

(4) according to the coal quality and the system output condition, the air input of the throttle orifice plates of the air inlet valve, the air supply valve and the blowing-assistant valve is adjusted, if the system design output is large and the coal quality is good, the air input of the throttle orifice plates of the air supply valve and the blowing-assistant valve can be reduced, the flow speed is reduced, and the abrasion of a valve, an ash conveying pipeline and accessories of an ash conveying system is reduced;

if the system design has small output margin and poor coal quality, the air input of the throttling orifice plates of the air supply valve and the blowing-assisting valve can be increased, and the ash conveying flow rate is improved;

(5) adjusting the dome valve, and adjusting the clearance between a sealing ring and a valve core of the dome valve to be 0.8-1.4mm, wherein when the clearance between the sealing ring and the valve core of the dome valve is less than 0.8mm, the valve core and the sealing ring are easy to rub during the operation of the dome valve, so that the sealing ring is damaged or the valve core is clamped by the sealing ring to cause that the dome valve is not closed in place; when the clearance of dome valve sealing washer in the case is greater than 1.4mm, the dome valve is not hugged closely the case in the sealing washer in service, leaks in the dome valve takes place easily, leads to case and sealing washer wearing and tearing, shortens dome valve life.

Has the advantages that:

1. the invention provides a method for improving the output of a positive-pressure concentrated-phase ash conveying system and optimizing ash conveying operation, which effectively solves the defects that the design output margin of an electric field of an electric dust collector is small and the production requirement cannot be met.

2. The method is applied to an electric field of a thermal power plant, the ash conveying output is obviously increased, the output per hour is increased by 20 tons, and the problems of poor coal quality, large ash content, poor ash quality and difficult ash particle coarse ash conveying in recent years are thoroughly solved.

3. The invention can reduce the abrasion of the valve, the pipeline and the accessories of the ash conveying system, properly adjust the air inflow of the air inlet valve, the air supply valve (fluidization valve) and the orifice plate of the blowing-assistant valve according to the coal quality condition and the system output condition of the thermal power plant, properly reduce the air inflow of the air supply valve (fluidization valve) and the orifice plate of the blowing-assistant valve if the system has large output and good coal quality, reduce the flow rate, reduce the abrasion of the valve, the ash conveying pipeline and the accessories of the ash conveying system, and save the maintenance cost by 10 ten thousand yuan every year.

4. The invention adopts an electric field to increase an ash conveying pipeline with the diameter of 219mm, and two bin pumps are connected in series to form the ash conveying pipeline, so that the phenomenon of pipe blockage in the operation of a dry ash removal system can be effectively prevented.

5. When the dome valve is overhauled, the clearance between the seal ring of the dome valve and the valve core is strictly adjusted, so that the service life of the dome valve can be more than 10000 hours, and when the dome valve is overhauled, the clearance between the seal ring of the dome valve and the valve core is required to be adjusted to be 0.8-1.4mm, so that 15 ten thousand yuan of maintenance cost can be saved every year.

6. The invention can reduce the abrasion of the valve, the pipeline and the accessories of the dry ash conveying system, reduce the maintenance workload, reduce the maintenance cost, effectively prevent the pipe blockage phenomenon in the operation of the dry ash removing system, and effectively improve the output of the dry ash removing system, after the transformation, the ash conveying period is increased from the original 12 times/hour to 21 times/hour, the output of the ash conveying is increased from 55 tons/hour to 73 tons/hour, and the service life of the dome valve is prolonged.

The specific implementation mode is as follows:

example 1:

a method for improving the output of a positive pressure concentrated phase ash conveying system and optimizing ash conveying operation comprises the following steps:

(1) the switching sequence of the air inlet valve, the air supply valve and the blowing assisting valve is adjusted, so that the abrasion of a pipeline, a one-way valve and accessories of a fluidization system can be reduced, and the switching sequence is as follows: when ash conveying begins, opening the blowing-assisting valve for 3 seconds, opening the air-supplementing valve for 4 seconds, and then opening the air inlet valve to convey ash; when the ash conveying is finished, closing the blowing-assisting valve, closing the air inlet valve for 4 seconds, and closing the air supplementing valve; the abrasion of pipelines, check valves and accessories of the fluidization system can be effectively prevented;

(2) increasing the pressure value of the ash conveying end, increasing the pressure value of the ash conveying end from 35KPa to 90KPa, reducing the air blowing time, shortening the ash conveying period, reducing the abrasion of an ash conveying pipeline, increasing the output of a dry ash removal system by 8 tons per hour, and ensuring that the pressure value of the ash conveying end is the highest and cannot exceed 90KPa, otherwise, the dry ash conveying system is easy to block the pipe during operation;

(3) an electric field is added with an ash conveying pipeline with the diameter of 219mm, two bin pumps are connected in series to form the ash conveying pipeline, the ash conveying period of each time is shortened, the ash conveying frequency of each hour is increased, the phenomenon of pipe blockage is not easy to occur in operation, and the ash conveying output is improved;

(4) according to the coal quality and the system output condition, the air input of the throttle orifice plates of the air inlet valve, the air supply valve and the blowing-assistant valve is adjusted, if the system design output is large and the coal quality is good, the air input of the throttle orifice plates of the air supply valve and the blowing-assistant valve can be reduced, the flow speed is reduced, and the abrasion of a valve, an ash conveying pipeline and accessories of an ash conveying system is reduced;

if the system design has small output margin and poor coal quality, the air input of the throttling orifice plates of the air supply valve and the blowing-assisting valve can be increased, and the ash conveying flow rate is improved;

wherein: the throttle orifice plate of the air inlet valve is adjusted in the range of 11-13 holes with the diameter of 5 mm; the pressure of the air inlet valve is adjusted to be 0.25-0.3 mpa;

the throttle orifice plate of the first air supply valve is adjusted within 8-10 holes with the diameter of 5 mm;

the throttle orifice of the blowing-assisting valve is adjusted within the range of 18-24 mm;

(5) adjusting the dome valve, and adjusting the clearance between a sealing ring and a valve core of the dome valve to be 0.8-1.4mm, wherein if the clearance between the sealing ring and the valve core of the dome valve is less than 0.8mm, the valve core and the sealing ring are easy to rub during the operation of the dome valve, so that the sealing ring is damaged or the valve core is not closed in place due to the fact that the sealing ring is clamped by the valve core, and the safe operation of a dry ash removal system is influenced; if the dome valve sealing washer is greater than 1.4mm in the clearance of case when, the dome valve is in service the sealing washer not hugged closely the case, leaks in the dome valve takes place easily, leads to case and sealing washer wearing and tearing, shortens dome valve life, increases the dry dusting system and stops the operation and overhaul the number of times, also increases the maintenance cost simultaneously, influences the dry dusting system safe operation.

This application is used in thermal power plant technical field, and the particular case is as follows:

1. the pressure value of the ash conveying end is improved, the ash blowing time is reduced, the ash conveying period is shortened, the abrasion of an ash conveying pipeline is reduced, and the service life of an ash conveying pipe is prolonged;

2. the pipe blockage in the operation of the dry ash removal system can be effectively prevented;

3. the output of the dry ash removal system can be effectively improved;

3.1, improving the pressure value of the end of ash conveying, reducing the air blowing time, shortening the ash conveying period, saving the time by 8 minutes per hour, increasing the ash conveying period by 2 times, conveying 4 tons of ash per period, and increasing 8 tons of output of a dry ash removal system per hour; but the ash conveying pressure value cannot be lower than 90KPa, otherwise, the ash in the ash conveying pipeline is not conveyed cleanly and pipe blockage is easy to occur;

3.2 an electric field is added with an ash conveying pipeline with diameter phi of 219mm, and two bin pumps are connected in series to form the ash conveying pipeline; the ash conveying period is shortened each time, the ash conveying times per hour are increased, and the ash conveying output is improved, after an electric field dry ash removal system of No. 3 and No. 4 furnaces (2 multiplied by 300 MW) in our factory is modified, the ash conveying period is increased from 12 times/hour to 21 times/hour, and the ash conveying output is increased from 55 tons/hour to 73 tons/hour;

4. when the dome valve is overhauled, the clearance between the seal ring of the dome valve and the valve core is strictly adjusted, so that the purpose of prolonging the service life of the dome valve is achieved, and the cost is saved by 15 ten thousand yuan each year;

5. reduce the wearing and tearing of dry dusting system valve, pipeline and annex, effectively reduce the maintenance work volume, reduce the maintenance cost, this annual saving expense 10 ten thousand yuan.

Claims (1)

1. A method for improving the output of a positive pressure concentrated phase ash conveying system and optimizing ash conveying operation is characterized by comprising the following steps: the method comprises the following steps:

(1) adjusting the switching sequence of the air inlet valve, the air supply valve and the blowing assisting valve, wherein the switching sequence is as follows: when ash conveying begins, opening the blowing-assisting valve for 3 seconds, opening the air-supplementing valve for 4 seconds, and then opening the air inlet valve to convey ash; when the ash conveying is finished, closing the blowing-assisting valve, closing the air inlet valve for 4 seconds, and closing the air supplementing valve;

(2) increasing the ash conveying ending pressure value, increasing the ash conveying ending pressure value from 35KPa to 90KPa, increasing the output of the dry ash removal system by 8 tons per hour, wherein the ash conveying ending pressure value cannot exceed 90KPa at most, otherwise, the dry ash conveying system is easy to block the pipe during operation;

(3) an electric field is additionally provided with an ash conveying pipeline with the diameter of 219mm, two bin pumps are connected in series to form the ash conveying pipeline, the ash conveying period of each time is shortened, the ash conveying times per hour are increased, and the phenomenon of pipe blockage is not easy to occur in the operation process;

(4) according to the coal quality and the system output condition, the air input of the throttle orifice plates of the air inlet valve, the air supply valve and the blowing-assistant valve is adjusted, if the system design output is large and the coal quality is good, the air input of the throttle orifice plates of the air supply valve and the blowing-assistant valve can be reduced, the flow speed is reduced, and the abrasion of a valve, an ash conveying pipeline and accessories of an ash conveying system is reduced;

if the system design has small output margin and poor coal quality, the air input of the throttling orifice plates of the air supply valve and the blowing-assisting valve can be increased, and the ash conveying flow rate is improved;

(5) adjusting the dome valve, and adjusting the clearance between a sealing ring and a valve core of the dome valve to be 0.8-1.4mm, wherein when the clearance between the sealing ring and the valve core of the dome valve is less than 0.8mm, the valve core and the sealing ring are easy to rub during the operation of the dome valve, so that the sealing ring is damaged or the valve core is clamped by the sealing ring to cause that the dome valve is not closed in place; when the clearance of dome valve sealing washer in the case is greater than 1.4mm, the dome valve is not hugged closely the case in the sealing washer in service, leaks in the dome valve takes place easily, leads to case and sealing washer wearing and tearing, shortens dome valve life.