CN110006263A - Ceramic substrate produces emission-control equipment and processing method - Google Patents

Abstract

The invention discloses a kind of ceramic substrate production emission-control equipment and processing method, which includes gas sampling mechanism, combustion-supporting mechanism, burns glue furnace and smoke exhaust barrel；Gas sampling mechanism includes that the exhaust gas being connected with the bottom of combustion chamber for burning glue furnace is responsible for, and the gas sampling pipe of organic exhaust gas of the exhaust gas supervisor above and for collecting the generation of ceramic substrate kiln high temperature sintering is arranged in；Combustion-supporting mechanism includes the combustion gas supervisor being connected with outer combustion gas gas source, the more than one combustion gas branch pipe being connected with combustion gas supervisor and air blower and high combustion rate burner；It is connected at the top of smoke exhaust barrel and burning glue furnace combustion chamber.Present invention is particularly suitable for the organic exhaust gas generated in ceramic substrate production process due to high temperature sintering, especially for the organic exhaust gas of low concentration, under the conditions of temperature appropriate and burning time, can achieve 99% or more treatment effeciency.Processing cost is lower, and treatment effeciency is higher, and can effectively avoid secondary pollution.

Description

Ceramic substrate produces emission-control equipment and processing method

Technical field

The present invention relates to ceramic substrate production technical fields, and in particular to a kind of ceramic substrate production emission-control equipment and Processing method.

Background technique

Ceramic substrate, which refers to, to be bonded directly to aluminium oxide or aluminium nitride ceramic substrate surface by copper foil at high temperature (single side is double Face) on special process plate, made ultra-thin composite substrate have good electrical insulation performance, high thermal conductivity characteristic, excellent is soft Soldering property and high adhesive strength, and various figures can be etched as pcb board, there is very big current-carrying capability, therefore Ceramic substrate has become the basic material of high-power electric and electronic circuit structure technology and interconnection technique.In the production of ceramic substrate In the process, the flammable organic exhaust gas that some low concentrations, small tolerance can be generated due to high temperature sintering, handles this in the prior art The method of a little organic exhaust gas is mainly condensing recovery method, organic exhaust gas be introduced directly into condenser through absorption, absorption, solution plate, point From valuable organic matter can be recycled, which is suitable for the operating condition that organic exhaust gas concentration is high, temperature is low, air quantity is small.But the processing Method needs the freezing equipment set up, and investment is big, energy consumption is high, operating cost is big, while condensed tail gas still contains centainly The organic matter of concentration, secondary pollution is serious, and for low concentration treating tail gas, the effect is unsatisfactory.

Summary of the invention

The technical problem to be solved in the present invention is to provide a kind of ceramic substrate production emission-control equipment and processing method, energy Enough directly, adequately burn by the organic exhaust gas generated in ceramic substrate production process, treatment effeciency is higher.

In order to solve the above technical problems, the present invention adopts the following technical scheme:

Design a kind of ceramic substrate production emission-control equipment, including gas sampling mechanism, combustion-supporting mechanism, burning glue furnace and smoke evacuation Cylinder；

The gas sampling mechanism includes that the exhaust gas being connected with the bottom of combustion chamber for burning glue furnace is responsible for, and is arranged in institute State the gas sampling pipe of organic exhaust gas of the exhaust gas supervisor above and for collecting the generation of ceramic substrate kiln high temperature sintering；

The combustion-supporting mechanism includes the combustion gas supervisor being connected with outer combustion gas gas source, one be connected with combustion gas supervisor Above combustion gas branch pipe and air blower are equipped with high combustion rate burner, the spout of the high combustion rate burner in the end of the combustion gas branch pipe With the combustion chamber for burning glue furnace, the air blower is connected to the included combustion chamber of the high combustion rate burner by pipeline It is interior；

The glue furnace that burns includes shell, setting furnace body inside the shell, is located at the intracorporal combustion chamber of furnace, and setting described outer High temperature cotton blanket between shell and furnace body；Carborundum plate parallel up and down there are two being set in the combustion chamber for burning glue furnace, wherein one The side of a carborundum plate, which is fixed on, burns glue furnace combustion chamber on the side wall of high combustion rate burner side, the side of another carborundum plate While be fixed on the side wall of opposite side, the combustion chamber for burning glue furnace is divided into the combustion zone of upper, middle and lower three, and it is upper, in, Lower three combustion zones are connected in " S " type；

It is connected at the top of the smoke exhaust barrel and burning glue furnace combustion chamber.

In the above-mentioned technical solutions, gas sampling mechanism in ceramic substrate production process due to high temperature sintering for will be produced Raw organic exhaust gas, which is collected, to summarize, and via exhaust gas, supervisor is delivered in the combustion chamber for burning glue furnace, and combustion-supporting mechanism will be by that will fire Gas is passed through high combustion rate burner, and the air for blasting combustion gas and air blower mixes in the combustion chamber that high combustion rate burner carries, and by high temperature The combustion gas of burning is injected in the combustion chamber for burning glue furnace, is sufficiently mixed and is burnt with organic exhaust gas；In the combustion chamber for burning glue furnace Two carborundum plates are set, the combustion chamber for burning glue furnace is divided into three combustion zones of upper, middle and lower, organic exhaust gas from the bottom to top according to It is secondary pass through under, in, upper three extend organic exhaust gas by burning time of glue furnace combustion chamber in " S " type combustion zone, that is, The burning time of organic exhaust gas is extended, guarantees that organic exhaust gas can be fully burned；The height that carborundum plate has simultaneously is led Hot property can be such that the temperature for burning three combustion zones in glue furnace combustion chamber keeps uniformly, so that organic exhaust gas burns at three Region can adequately be burnt；The main component in organic exhaust gas that the sintering of ceramic substrate production process high temperature generates It is the non-methane total hydrocarbons such as ethylene, ethane, propylene, propane, butane, butylene, main component is in the flue gas generated after full combustion Carbon dioxide and water, the flue gas after burning are without secondary pollution by smoke exhaust barrel high altitude discharge.

Preferably, the combustion gas branch pipe is two, and corresponding high combustion rate burner is also two, one of high combustion rate burner connection To the lower combustion region for burning glue furnace combustion chamber, another high combustion rate burner is connected to the middle part combustion zone for burning glue furnace combustion chamber； The air blower is one, is respectively communicated in the included combustion chamber of two high combustion rate burners by pipeline.Two high combustion rate burners Setting can be further ensured that the ignition temperature and combustion intensity for burning organic exhaust gas in glue furnace, guarantee the abundant combustion of organic exhaust gas It burns.

Preferably, the outer combustion gas gas source is liquefied gas, is equipped with gasifier on combustion gas supervisor.

Preferably, air-introduced machine is equipped in the upper position close to the burning glue furnace combustion chamber of exhaust gas supervisor；For that will have Machine exhaust gas is introduced into the combustion chamber for burning glue furnace, and can adjust the burning of organic exhaust gas by controlling the speed of air-introduced machine Amount；It also is provided with air-introduced machine in the smoke exhaust barrel, for pressurize and high altitude discharge the high-temperature flue gas after burning.

Preferably, the shell for burning glue furnace is made of iron plate；The furnace body is silicon carbide material；The high temperature cotton blanket is High temperature alumina silicate ceramic fiber blanket；The width of the carborundum plate is the 2/3 of the burning glue furnace combustion chamber width.

Preferably, intelligent gas alarm is equipped on combustion gas supervisor work as gas concentration for monitoring gas concentration It is sounded an alarm when more than certain standard, staff is reminded to check the security risk of gas leakage.

The invention further relates to a kind of processing methods of ceramic substrate production exhaust gas, at above-mentioned processing unit Reason, including the following steps:

(1) organic exhaust gas that kiln high temperature sintering generates in ceramic substrate production process is pooled to exhaust gas by gas sampling pipe Supervisor is introduced into the combustion chamber for burning glue furnace under the action of air-introduced machine；

(2) after the liquified natural gas in outer combustion gas gas source is via gasifier gasification, it is flowed into the included combustion chamber of high combustion rate burner It is interior, combining combustion is mixed with the air that air blower blasts, high-temperature fuel gas, with high speed ejection, is sprayed onto the combustion chamber for burning glue furnace via nozzle It is interior；

(3) high-temperature fuel gas that the organic exhaust gas and high combustion rate burner entered in burning glue furnace sprays is sufficiently mixed in the combustion chamber for burning glue furnace Close, and under successively passing through, in, upper three combustion zones, realize full combustion, the harmless flue gas after burning is via smoke exhaust barrel high-altitude Discharge completes the processing of the organic exhaust gas generated to kiln high temperature sintering in ceramic substrate production process.

Preferably, the speed for the high-temperature fuel gas that the high combustion rate burner sprays is 90-120m/s.

Preferably, indoor ignition temperature >=800 DEG C of the burning glue furnace burning.It, can under >=800 DEG C of burning condition Abundant, the completely burned for guaranteeing organic exhaust gas, main component is carbon dioxide and water in the flue gas after burning, can direct high-altitude Discharge, it is without secondary pollution.

Preferably, the pipeline pressure in the combustion gas branch pipe is 0.03Mpa.

The beneficial effects of the present invention are:

The organic exhaust gas generated in ceramic substrate production process is collected and summarizes using the direct combustion method of glue furnace is burnt by the present invention And be introduced into and burn in glue furnace, using high combustion rate burner, it can make high combustion rate burner that high-temperature fuel gas is injected to burning using liquefied gas as fuel It in the combustion chamber of glue furnace, is sufficiently mixed organic exhaust gas with fuel gas at high temperature, is carried out in the combustion chamber for burning glue furnace abundant Burning, the high air discharge of harmless flue gas after burning.Present invention is particularly suitable in ceramic substrate production process due to high temperature sintering And the organic exhaust gas generated, can be under the conditions of temperature appropriate and burning time especially for the organic exhaust gas of low concentration Reach 99% or more treatment effeciency.Processing cost is lower, and treatment effeciency is higher, and can effectively avoid secondary pollution.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of ceramic substrate production emission-control equipment of the present invention；

Fig. 2 is the structural schematic diagram for burning glue furnace；

Figure label: 1 burns glue furnace, the combustion chamber of 2 sintering furnaces, 3 exhaust gas supervisor, 4 gas sampling pipes；5 combustion gas supervisor, 6 combustion gas branch Pipe, 7 air blowers, 8 high combustion rate burners, 9,10 carborundum plates, 11 smoke exhaust barrels, 12 gasifiers, 13 intelligent gas alarms；14 shells, 15 furnace bodies, 16 high temperature cotton blankets；A is liquefied gas, and B is organic exhaust gas.

Specific embodiment

Illustrate a specific embodiment of the invention below with reference to embodiment, but following embodiment is used only to be described in detail The present invention does not limit the scope of the invention in any way.Related equipment component is as without especially in the examples below Illustrate, is conventional equipment element；The related raw material of industry is commercially available regular industrial raw material unless otherwise instructed.

Embodiment 1: a kind of ceramic substrate production emission-control equipment, referring to Fig. 1, including gas sampling mechanism, combustion-supporting machine Structure burns glue furnace 1 and smoke exhaust barrel 11.

Gas sampling mechanism includes the exhaust gas supervisor 3 being connected with 2 bottom of combustion chamber for burning glue furnace, and is arranged in exhaust gas The gas sampling pipe 4 of organic exhaust gas on supervisor 3 and for collecting the generation of ceramic substrate kiln high temperature sintering.

Combustion-supporting mechanism includes the combustion gas supervisor 5 being connected with outer combustion gas gas source, is responsible for 5 two combustions being connected with combustion gas Gas branch pipe 6 and air blower 7 are equipped with high combustion rate burner 8, the spout and burning glue of high combustion rate burner 8 in the end of each combustion gas branch pipe The combustion chamber 2 of furnace is connected, and air blower 7 is respectively communicated in the included combustion chamber of two high combustion rate burners by pipeline, wherein outer Portion's gas source is liquefied gas, is equipped with gasifier 12 on combustion gas supervisor 5；Intelligent gas alarm is equipped on combustion gas supervisor 5 13, for realizing the monitoring of gas concentration, once gas concentration is exceeded to be sounded an alarm, remind staff to exclude safety hidden Suffer from, gas leakage is avoided to cause danger.

Glue furnace is burnt to include shell, setting furnace body inside the shell, be located at the intracorporal combustion chamber of furnace, and setting in shell and High temperature cotton blanket between furnace body；The shell for burning glue furnace is made of iron plate；Furnace body is silicon carbide material；High temperature cotton blanket is high temperature silicic acid Aluminium ceramic fiber blanket.Burn carborundum plate 9,10 parallel up and down there are two setting in the combustion chamber 2 of glue furnace, one of silicon carbide 9 Side be fixed on the combustion chamber 2 for burning glue furnace on the side wall of high combustion rate burner side, the side of another carborundum plate 10 is solid It is scheduled on the side wall for burning 2 opposite side of combustion chamber of glue furnace, the combustion chamber 2 for burning glue furnace is divided into the combustion zone of upper, middle and lower three, And the combustion zone of upper, middle and lower three is connected in " S " type, wherein the width of carborundum plate is burn glue furnace combustion chamber width 2/3.

In two high combustion rate burners, a high combustion rate burner is connected to the lower combustion region for burning the combustion chamber 2 of glue furnace, another High combustion rate burner is connected to the middle part combustion zone for burning the combustion chamber 2 of glue furnace.

Smoke exhaust barrel 11 is connected with the top for the combustion chamber 2 for burning glue furnace；Close to the combustion chamber for burning glue furnace on exhaust gas supervisor 5 2 position is equipped with air-introduced machine；Air-introduced machine also is provided in smoke exhaust barrel 11.

In embodiment 1, the organic exhaust gas generated in ceramic substrate production process collects in exhaust gas by gas sampling pipe In supervisor, the combustion chamber that flow direction burns glue furnace is responsible for by exhaust gas；Liquefied gas is entered via after gasifier gasification by combustion gas branch pipe High combustion rate burner is sprayed into after mixing in the combustion chamber that high combustion rate burner carries with the outside air that air blower introduces by high combustion rate burner Into the combustion chamber for burning glue furnace, organic exhaust gas is flowed in " S " type from the bottom to top in the combustion chamber for burning glue furnace, successively by by carbon SiClx plate is separated down, in, upper three combustion zones, keep sustained combustion, ignition temperature is maintained at more than or equal to 800 DEG C, guarantee abundant, the completely burned of organic exhaust gas；Flue gas after burning is by smoke exhaust barrel high altitude discharge, since organic exhaust gas is dense Spend low, tolerance is few, and the main component of the flue gas generated after burning is carbon dioxide and water, and direct emission will not generate secondary dirt Dye, compared with condensing recovery method in the prior art, treatment effeciency is higher, and processing cost is lower, and more environmentally-friendly.

This can be used in the equipment of the non-specified otherwises such as the high combustion rate burner, the intelligent gas alarm that refer in embodiment 1 Field existing equipment is realized.

Embodiment 2: a kind of processing method of ceramic substrate production exhaust gas, at the processing unit in embodiment 1 Reason, including the following steps:

(1) organic exhaust gas that kiln high temperature sintering generates in ceramic substrate production process is pooled to exhaust gas by gas sampling pipe Supervisor is introduced into the combustion chamber for burning glue furnace under the action of air-introduced machine；

(2) after the liquified natural gas in outer combustion gas gas source is via gasifier gasification, it is flowed into the included combustion chamber of high combustion rate burner It is interior, combining combustion is mixed with the air that air blower blasts, high-temperature fuel gas, with high speed ejection, is sprayed onto the combustion chamber for burning glue furnace via nozzle It is interior；The speed for the high-temperature fuel gas that high combustion rate burner sprays is 90-120m/s.Burn glue furnace burn indoor ignition temperature be maintained at >= 800℃.Under >=800 DEG C of burning condition, it can guarantee abundant, the completely burned of organic exhaust gas, master in the flue gas after burning Want ingredient be carbon dioxide and water, can direct high altitude discharge, it is without secondary pollution；Pipeline pressure in combustion gas branch pipe is maintained at 0.03Mpa。

(3) it is filled in the combustion chamber for burning glue furnace into the high-temperature fuel gas that the organic exhaust gas burnt in glue furnace is sprayed with high combustion rate burner Point mixing, and under successively passing through, in, upper three combustion zones, realize full combustion, the harmless flue gas after burning is via smoke exhaust barrel High air discharge completes the processing of the organic exhaust gas generated to kiln high temperature sintering in ceramic substrate production process.

Emission-control equipment and processing method are produced using ceramic substrate of the present invention, it can be in ceramic substrate production process The organic exhaust gas of generation is efficiently treated through, especially for the organic exhaust gas of low concentration, in temperature appropriate (>=800 DEG C) and Under conditions of burning time (sustained combustion during by sintering furnace combustion chamber), 99% or more processing effect can achieve Rate can reduce non-methane hydrocarbon emission amount about 208.8kg/a.

The present invention is described in detail above in conjunction with embodiment, but person of ordinary skill in the field can manage Solution, without departing from the purpose of the present invention, can also change each design parameter in above-described embodiment, be formed Multiple specific embodiments are common variation range of the invention, are no longer described in detail one by one herein.

Claims (9)

1. a kind of ceramic substrate produces emission-control equipment, which is characterized in that including gas sampling mechanism, combustion-supporting mechanism, burn glue Furnace and smoke exhaust barrel；

The gas sampling mechanism includes that the exhaust gas being connected with the bottom of combustion chamber for burning glue furnace is responsible for, and is arranged in institute State the gas sampling pipe of organic exhaust gas of the exhaust gas supervisor above and for collecting the generation of ceramic substrate kiln high temperature sintering；

The combustion-supporting mechanism includes the combustion gas supervisor being connected with outer combustion gas gas source, one be connected with combustion gas supervisor Above combustion gas branch pipe and air blower are equipped with high combustion rate burner, the spout of the high combustion rate burner in the end of the combustion gas branch pipe With the combustion chamber for burning glue furnace, the air blower is connected to the included combustion chamber of the high combustion rate burner by pipeline It is interior；

The glue furnace that burns includes shell, setting furnace body inside the shell, is located at the intracorporal combustion chamber of furnace, and setting described outer High temperature cotton blanket between shell and furnace body；Carborundum plate parallel up and down there are two being set in the combustion chamber for burning glue furnace, wherein one The side of a carborundum plate, which is fixed on, burns glue furnace combustion chamber on the side wall of high combustion rate burner side, the side of another carborundum plate While be fixed on the side wall of opposite side, the combustion chamber for burning glue furnace is divided into the combustion zone of upper, middle and lower three, and it is upper, in, Lower three combustion zones are connected in " S " type；

It is connected at the top of the smoke exhaust barrel and burning glue furnace combustion chamber.

2. ceramic substrate according to claim 1 produces emission-control equipment, which is characterized in that the combustion gas branch pipe is two A, corresponding high combustion rate burner is also two, and one of high combustion rate burner is connected to the lower combustion region for burning glue furnace combustion chamber, separately One high combustion rate burner is connected to the middle part combustion zone for burning glue furnace combustion chamber；The air blower is one, is connected respectively by pipeline It passes in the included combustion chamber of two high combustion rate burners.

3. ceramic substrate according to claim 1 produces emission-control equipment, which is characterized in that the outer combustion gas gas source For liquefied gas, gasifier is equipped on combustion gas supervisor.

4. ceramic substrate according to claim 1 produces emission-control equipment, which is characterized in that on exhaust gas supervisor Air-introduced machine is equipped with close to the position for burning glue furnace combustion chamber；Air-introduced machine also is provided in the smoke exhaust barrel.

5. ceramic substrate according to claim 1 produces emission-control equipment, which is characterized in that the shell for burning glue furnace It is made of iron plate；The furnace body is silicon carbide material；The high temperature cotton blanket is high temperature alumina silicate ceramic fiber blanket；The silicon carbide The width of plate is the 2/3 of the burning glue furnace combustion chamber width.

6. ceramic substrate according to claim 1 produces emission-control equipment, which is characterized in that on combustion gas supervisor Equipped with intelligent gas alarm.

7. a kind of processing method of ceramic substrate production exhaust gas, which is characterized in that carried out using the processing unit in claim 1 Processing, including the following steps:

(1) organic exhaust gas that kiln high temperature sintering generates in ceramic substrate production process is pooled to exhaust gas by gas sampling pipe Supervisor is introduced into the combustion chamber for burning glue furnace under the action of air-introduced machine；

(2) it after the liquefied gas in outer combustion gas gas source is via gasifier gasification, is flowed into the included combustion chamber of high combustion rate burner, with The air that air blower blasts mixes combining combustion, and high-temperature fuel gas, with high speed ejection, is sprayed onto the combustion chamber for burning glue furnace via nozzle；

(3) high-temperature fuel gas that the organic exhaust gas and high combustion rate burner entered in burning glue furnace sprays is sufficiently mixed in the combustion chamber for burning glue furnace Close, and under successively passing through, in, upper three combustion zones, realize full combustion, the harmless flue gas after burning is via smoke exhaust barrel high-altitude Discharge completes the processing of the organic exhaust gas generated to kiln high temperature sintering in ceramic substrate production process.

8. the processing method of ceramic substrate production exhaust gas according to claim 7, which is characterized in that the high combustion rate burner spray The speed of high-temperature fuel gas out is 90-120m/s.

9. the processing method of ceramic substrate production exhaust gas according to claim 7, which is characterized in that the burning glue furnace burning Indoor ignition temperature >=800 DEG C.