CN215061331U - Washing system for waste incineration power generation fly ash high-chlorine slurry - Google Patents

Abstract

The utility model provides a waste incineration power generation flying dust high chlorine thick liquid is with washing system, relate to waste incineration power generation flying dust processing technology field, this equipment includes multiunit washing reposition of redundant personnel pond, arbitrary a set of washing reposition of redundant personnel pond all includes the washing pond, the separating reservoir, the branch pipeline of intercommunication washing pond and separating reservoir, a serial communication port, still include trunk line and a plurality of transition nest of tubes, arbitrary washing reposition of redundant personnel pond all corresponds the intercommunication has a set of transition nest of tubes, a plurality of transition nest of tubes communicate the trunk line respectively, and a plurality of transition nest of tubes communicate respectively rather than washing pond and the separating reservoir that corresponds, divide the pipeline, trunk line between two adjacent transition nest of tubes, transition nest of tubes part between washing pond and the trunk line, be provided with its valve of controlling on the transition nest of tubes part between reposition of redundant personnel pond and the trunk line respectively. The equipment has stable operation and low cost.

Description

Washing system for waste incineration power generation fly ash high-chlorine slurry

Technical Field

The utility model belongs to the technical field of waste incineration power generation flying dust processing technique and specifically relates to a waste incineration power generation flying dust perchloric slurry water washing system is related to.

Background

The waste incineration power generation fly ash belongs to hazardous waste, and the cement kiln is a new disposal way for disposing the waste incineration fly ash in a cooperation manner, but the content of chloride ions in the fly ash is high, so that the content of the chloride ions in the fly ash needs to be effectively reduced by adopting a method of washing the fly ash with water. The main process flow is that the flying ash is transported to the field through the vehicle, the flying ash is transported to the ash storage tank, the materials in the ash storage tank enter the screw conveyer through the control of the discharger of the feed opening, the screw conveyer works to transport the flying ash to the pulping tank, the pulping tank is internally mixed with water to form slurry, the slurry is repeatedly washed through sequentially entering the water washing tank and the separation tank which are arranged in a staggered mode, so that the chloride ions are separated, the slurry is transported to the filter press, filter pressing treatment is carried out, and the flying ash treatment is completed.

However, clogging of the piping between the washing tank and the separation tank causes the apparatus to stop running and the treatment efficiency to be lowered.

Disclosure of Invention

An object of the utility model is to provide a waste incineration power generation flying dust high chlorine thick liquid is with washing system to solve the single pipeline intercommunication that exists among the prior art, the pipe blockage will lead to equipment stall, the big technical problem of loss. The utility model provides a great deal of technological effect (simple structure, with low costs, convenient to use) that preferred technical scheme among a great deal of technical scheme can produce see the explanation below in detail.

The utility model provides a pair of waste incineration power generation flying dust high chlorine thick liquid is with washing system, including multiunit washing reposition of redundant personnel pond, arbitrary a set of washing reposition of redundant personnel pond all includes the washing pond, the separation tank, the branch pipeline of intercommunication washing pond and separation tank, still include trunk line and a plurality of transition nest of tubes, arbitrary washing reposition of redundant personnel pond all corresponds the intercommunication has a set of transition nest of tubes, a plurality of transition nest of tubes communicate the trunk line respectively, and a plurality of transition nest of tubes communicate respectively rather than washing pond and the separation tank that corresponds, the branch pipeline, trunk line between two adjacent transition nest of tubes, transition nest of tubes part between pond and the trunk line, be provided with its valve of controlling on the transition nest of tubes part between reposition of redundant personnel pond and the trunk line respectively.

Preferably, any transition pipe group comprises a first transition pipe and a second transition pipe, the two ends of the first transition pipe are respectively communicated with the main pipe and the separation tank, the two ends of the second transition pipe are respectively communicated with the main pipe and the washing tank, and valves for controlling the opening and closing of the first transition pipe and the second transition pipe are respectively arranged on the first transition pipe and the second transition pipe.

Preferably, the arbitrary transition nest of tubes all includes first transition pipeline and second transition pipeline, and the one end of first transition pipeline and the one end of second transition pipeline communicate the water inlet and the delivery port of trunk line respectively, and the other end of first transition pipeline and the other end of second transition pipeline communicate respectively and divide the both sides of pipeline upper valve.

Preferably, still include former thick liquid pond, former thick liquid pond and the one end intercommunication of trunk line, and be provided with the valve on the trunk line between the transition nest of tubes rather than adjacent in former thick liquid pond, the other end of trunk line passes through the valve shutoff.

The utility model provides a pair of waste incineration power generation flying dust high chlorine thick liquid is with washing system, the difference lies in with prior art, the main line that the transition nest of tubes passes through water wash pond and separation tank in can communicateing arbitrary group has been add on current pipe-line system, and divide the pipeline, trunk line between two adjacent transition nest of tubes, the transition nest of tubes part between water wash pond and the trunk line, be provided with its closed valve of control on the transition nest of tubes part between reposition of redundant personnel pond and the trunk line respectively, the operator is with the reposition of redundant personnel pond that changes the water wash pond and correspond with the water wash pond through manual or automatic mode adjusting valve's switching, in order to skip the pipeline of damage, water wash pond and/or reposition of redundant personnel pond, effectively reduce the shut down risk, practice thrift the cost.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a connection diagram of a washing system for fly ash high chlorine slurry from waste incineration power generation;

FIG. 2 is a view A-A of FIG. 1.

In the figure: 1. a water washing pool; 2. a separation tank; 3. dividing pipelines; 4. a main pipeline; 5. a transition pipe group; 6. a valve; 7. and (4) a raw pulp tank.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the technical solutions of the present invention will be described in detail below. It is to be understood that the embodiments described are only some embodiments of the invention, and not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

Example one

This embodiment provides a waste incineration power generation flying dust high chlorine thick liquid washing system for, including multiunit washing reposition of redundant personnel pond, arbitrary a set of washing reposition of redundant personnel pond all includes washing pond 1, separation tank 2, intercommunication washing pond 1 and separation tank 2 divide pipeline 3, waste incineration power generation flying dust high chlorine thick liquid washing system for still includes trunk line 4 and a plurality of transition nest of tubes 5, arbitrary washing reposition of redundant personnel pond all corresponds the intercommunication and has a set of transition nest of tubes 5, a plurality of transition nest of tubes 5 communicate trunk line 4 respectively, and a plurality of transition nest of tubes 5 communicate respectively rather than washing pond 1 and separation tank 2 that correspond, divide pipeline 3, trunk line 4 between two adjacent transition nest of tubes 5, transition nest of tubes 5 part between washing pond 1 and the trunk line 4, be provided with its valve 6 of controlling on the transition nest of tubes 5 part between reposition of redundant personnel pond and the trunk line 4 respectively.

As an optional implementation mode, any transition pipe group 5 comprises a first transition pipe and a second transition pipe, two ends of the first transition pipe are respectively communicated with the main pipe 4 and the separation pool 2, two ends of the second transition pipe are respectively communicated with the main pipe 4 and the washing pool 1, and the first transition pipe and the second transition pipe are respectively provided with a valve 6 for controlling the opening and closing of the first transition pipe and the second transition pipe. Further, spaced apart on trunk line 4 is equipped with the inlet outlet, and arbitrary a set of transition nest of tubes 5 corresponds a set of inlet outlet of intercommunication respectively, and the inlet outlet includes water inlet and delivery port, and first transition pipeline and water inlet intercommunication, second transition pipeline and delivery port intercommunication, and the valve 6 on trunk line 4 is located between two sets of adjacent inlet outlets.

As optional implementation mode, any transition pipe group 5 comprises a first transition pipeline and a second transition pipeline, one end of the first transition pipeline and one end of the second transition pipeline are respectively communicated with a water inlet and a water outlet of the main pipeline 4, the other end of the first transition pipeline and the other end of the second transition pipeline are respectively communicated with two sides of a valve 6 on the branch pipeline 3, and the valve 6 on the main pipeline 4 is positioned between two adjacent groups of water inlets and water outlets.

As an optional implementation mode, the water washing system for the waste incineration power generation fly ash high-chlorine slurry further comprises a raw slurry pool 7, the raw slurry pool 7 is communicated with one end of the main pipeline 4, a valve 6 is arranged on the main pipeline 4 between the raw slurry pool 7 and the adjacent transition pipe group 5, and the other end of the main pipeline 4 is plugged through the valve 6.

Valve 6 sets up to manual valve or solenoid valve, and when valve 6 set up to the solenoid valve, the system still includes the main control unit of 6 switching of control flap and the water flow sensor or the water pressure sensor etc. of arbitrary pipeline in the control washing reposition of redundant personnel pond and pond operating condition, and main control unit electricity links sensor and valve 6 to the switching of valve 6 is judged to the monitoring condition through the sensor, and is further, and main control unit sets up to STM32 and is the singlechip.

The use of the device includes the following three cases:

under normal working conditions, opening a valve on the pipeline;

in the standby condition, the valves on the branch pipelines and the valves of the first transition pipelines are closed, and the valves of the second transition pipelines are opened;

in special cases, the valve on the pipeline and the valve of the main pipeline or the valve of the first transition pipeline are separated, and the valve of the second transition pipeline is closed.

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

Claims (4)

1. Waste incineration power generation flying dust perchlorine thick liquid is with washing system, including multiunit washing reposition of redundant personnel pond, arbitrary a set of washing reposition of redundant personnel pond all includes the washing pond, the separation tank, the branch pipeline of intercommunication washing pond and separation tank, a serial communication port, still include trunk line and a plurality of transition nest of tubes, arbitrary washing reposition of redundant personnel pond all corresponds the intercommunication has a set of transition nest of tubes, a plurality of transition nest of tubes communicate the trunk line respectively, and a plurality of transition nest of tubes communicate respectively rather than washing pond and the separation tank that corresponds, divide the pipeline, trunk line between two adjacent transition nest of tubes, transition nest of tubes part between washing pond and the trunk line, be provided with its valve of controlling to lead to closedly on the transition nest of tubes part between reposition of redundant personnel pond and the trunk line respectively.

2. The waste incineration power generation fly ash high-chlorine slurry washing system as claimed in claim 1, wherein any transition pipe group comprises a first transition pipe and a second transition pipe, two ends of the first transition pipe are respectively communicated with the main pipe and the separation tank, two ends of the second transition pipe are respectively communicated with the main pipe and the washing tank, and valves for controlling the opening and closing of the first transition pipe and the second transition pipe are respectively arranged on the first transition pipe and the second transition pipe.

3. The system for washing high-chlorine slurry in fly ash generated by power generation through waste incineration according to claim 1, wherein any transition pipe group comprises a first transition pipe and a second transition pipe, one end of the first transition pipe and one end of the second transition pipe are respectively communicated with the water inlet and the water outlet of the main pipe, and the other end of the first transition pipe and the other end of the second transition pipe are respectively communicated with two sides of the valve on the branch pipe.

4. The waste incineration power generation fly ash high-chlorine slurry washing system as claimed in claim 1, further comprising a raw slurry tank, wherein the raw slurry tank is communicated with one end of the main pipeline, a valve is arranged on the main pipeline between the raw slurry tank and the adjacent transition pipe group, and the other end of the main pipeline is blocked by the valve.

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