阅读说明：本技术 工业废气粘稠状附着性成分及其成因物质净化去除技术 (Technology for purifying and removing viscous adhesive components and causative substances of viscous adhesive components in industrial waste gas ) 是由 布和 邓国敢 朱金华 费颖婷 郁马良 于 2021-03-11 设计创作，主要内容包括：本发明公开了工业废气粘稠状附着性成分及其成因物质净化去除技术,通过布朗激旋高效净化器代替以往的前处理设备,进行工业烟气、工业废气的前处理,布朗激旋高效净化器外壳中设有的粘稠状附着性成分及其成因物质的分离与引出结构,可以随时将分离出来的粘稠状附着性成分及其成因物质进行去除回收,减轻主处理工艺系统的负荷,避免无休止、无效运维所造成的耗能,同样还会减轻深度净化工艺系统的负荷,实现资源再利用,外壳内壁及外壳内部特设旋转体及其部件、部材的外表面均有利用特制PTFE形成的独特PTFE涂膜,调制成不同的、相对应的、具针对性的特制PTFE,再实施涂膜技术制成独特PTFE涂膜,加强净化去除效果。(The invention discloses a technology for purifying and removing viscous adhesive components and causative substances of industrial waste gas, which replaces the prior pretreatment equipment with a Brown excited rotary high-efficiency purifier to carry out pretreatment of industrial flue gas and industrial waste gas, and the viscous adhesive components and causative substances thereof arranged in the shell of the Brown excited rotary high-efficiency purifier can be separated and recovered at any time, thereby reducing the load of a main treatment process system, avoiding energy consumption caused by endless and invalid operation and maintenance, reducing the load of a deep purification process system, realizing resource reutilization, and the inner wall of the shell and the outer surfaces of specially arranged rotating bodies and parts thereof in the shell are respectively provided with a unique PTFE film formed by specially-made PTFE to be modulated into different, corresponding and specific PTFE, and then the unique PTFE film is prepared by a film coating technology, the purification and removal effect is enhanced.)

1. The technology for purifying and removing viscous adhesive components and causative substances thereof in industrial waste gas is characterized in that: carry out the pretreatment of industrial flue gas, industrial waste gas through the rotary high-efficient clarifier of braun excitation, the rotary high-efficient clarifier of braun excitation includes shell, rotator, mount, rotation axis, swivel bearing and rotation bearing seat, shell outer wall bottom welding is long and thin collects the guiding gutter, it is trapezoidal deepening downwards to collect the guiding gutter from the front end rear end, the bottom of collecting the guiding gutter is the ship type and extends, and the extension end is equipped with the water conservancy diversion canal, the water conservancy diversion canal is long and narrow thin slot structure, water conservancy diversion canal bottom is equipped with the discharge port of accomodating thick form adhesive component and its causative substance, connect the collecting pipe on the discharge port, the inside position that corresponds with the collection guiding gutter of shell is equipped with the water conservancy diversion mouth, the inside of shell is equipped with the rotator, the rotator comprises positive and negative leaf heteroplane body, ring rotation water conservancy diversion separation body, positive and negative leaf heteroplane body divide into heteroplane body, A reverse-leaf special-wing body and a contraction-leaf special-wing body,

the front blade different wing body is composed of n outer ring different wing pieces I, n inner ring different wing pieces I, a center ring I and an inner ring I, the inner ring different wing pieces I are fixed on the outer side of the center ring I, the outer ring different wing pieces I are fixed on the outer side of the inner ring I and the inner side of the outer frame I, the inner ring different wing pieces I and the outer ring different wing pieces I are fixed according to the same direction, namely, the anticlockwise direction, the shapes of the inner ring different wing pieces I and the outer ring different wing pieces I are both different triangles with the back half part reversely folded, and circular protrusions I are arranged on wind receiving surfaces of the inner ring different wing pieces I and the outer ring different wing pieces I,

the reverse-vane different-wing body consists of n outer ring different-wing pieces II, n inner ring different-wing pieces II, a central ring II and an inner ring II, the inner ring different-wing pieces II are fixed on the outer sides of the central ring II, the outer ring different-wing pieces II are fixed on the outer sides of the inner ring II and the inner side of the outer frame II, the inner ring different-wing pieces II are fixed in the clockwise direction, the outer ring different-wing pieces II are fixed in the anticlockwise direction, the inner ring different-wing pieces II and the outer ring different-wing pieces II are both in the shape of different triangles with back half parts reversely folded, and circular protrusions II are arranged on the wind-receiving surfaces of the inner ring different-wing pieces II and the outer ring different-wing pieces II,

the blade reducing different wing body consists of n outer ring different wing pieces III, n inner ring different wing pieces III, a central ring III and an inner ring III, the inner ring different wing pieces III are fixed on the outer side of the central ring III, the outer ring different wing pieces III are fixed on the outer side of the inner ring III and the inner side of the outer frame III, the inner ring different wing pieces III and the outer ring different wing pieces III are fixed in the anticlockwise direction, the inner ring different wing pieces III and the outer ring different wing pieces III are shaped like an triangle with a back half part reversely folded, the tail part of the outer ring different wing pieces III extends to form an extension part, the wind-receiving surfaces of the inner ring different wing pieces III and the outer ring different wing pieces III are provided with three circular protrusions, and the wind-receiving surface of the extension part of the outer ring different wing pieces III is provided with a small circular hole,

the ring rotating guide body consists of a small arc-shaped wing body, a middle arc-shaped wing body and a large arc-shaped wing body, the small arc-shaped wing body is a rotating part formed by connecting a plurality of n arc-shaped wings, the small arc-shaped wing body is arranged at the outermost ring of the rotating body, the opening end of the arc is outward, and a ring-shaped member is formed at the outer ring of the rotating body,

the middle arc-shaped wing body is a rotating part formed by connecting a plurality of n arc-shaped wing pieces II, the middle arc-shaped wing body is arranged between the large arc-shaped wing body and the small arc-shaped wing body, the specification is larger than that of the small arc-shaped wing body, the opening end of the arc is outward, the arc opening covers the plurality of arc-shaped wing pieces I in the small arc-shaped wing body at a certain interval, and a ring-shaped component is formed inside the rotating body,

the large arc-shaped wing body is a rotating part formed by connecting n circular arc-shaped wing pieces III, the large arc-shaped wing body is arranged around a rotating shaft of the rotating body, the specification of the large arc-shaped wing body is larger than that of the middle arc-shaped wing body, the opening end of the circular arc is outward, the circular arc opening covers the circular arc-shaped wing pieces II in the middle arc-shaped wing body at a certain interval, and a circle of annular component is formed inside the rotating body,

the small arc-shaped wing piece body, the middle arc-shaped wing piece body and the large arc-shaped wing piece body are in the shape of an arc formed by short rectangles,

the wind front surface parts of the small arc-shaped vane body, the middle arc-shaped vane body and the big arc-shaped vane body are respectively provided with corresponding small bulges, one side of the arc-shaped end part of the small arc-shaped vane body is provided with a micro bulge,

the extension part of the outer ring different wing piece III of the contracting-blade different wing body extends to the inside of the front end of the ring rotary guide body,

the small arc-shaped vane body is fixedly connected by a needle-shaped short rod with one end connected with the outer ring of the rotating body, one end of the needle-shaped short rod is connected with the center of the arc-shaped opening end of the small arc-shaped vane body through an arc-shaped lining ring,

the connection between the middle arc-shaped wing body and the adjacent middle arc-shaped wing body which is arranged in the rotary axial direction is realized by connecting a thin metal short rod to the end side of the top part of the rectangular arc center of the middle arc-shaped wing body, and the thin metal short rod is connected and fixed with the ring fixing frames at the two sides of the ring rotary guide separation body,

the connection between the large arc-shaped wing body and the adjacent large arc-shaped wing body axially arranged on the rotating shaft is realized by connecting a thin metal short rod to the top end side of the rectangular arc center of the large arc-shaped wing body, and the thin metal short rod is connected and fixed with the ring fixing frame bodies at the two sides of the ring rotation guide separation body,

a plurality of metal short rods are arranged on the outer ring of the corresponding annular rotary guide body on the rotating body, one end of each metal short rod is fixed on the corresponding outer ring of the rotating body, the other end of each metal short rod extends to a position close to the inner wall of the device shell in an oblique line manner but is not connected with the inner wall of the device shell,

the diversion separation body consists of a net rotary body and a membrane rotary body, the net rotary body is a net rotary body formed by metal wires, the net is radially dispersed from the center to the periphery by 360 degrees and is in a shape of encrypted radiation towards the peripheral side in the radial direction, and an outer ring and a central ring are formed,

the membrane rotary body is a membrane rotary type membrane rotary body made of PTFE with different properties, the membranes made of PTFE with different properties are distributed in a circular ring-shaped divergence mode from the center to the outer peripheral side, the distribution mode is that the 1 st membrane, the 2 nd membrane, the 3 rd membrane, the 4 th membrane, the 5 th membrane and the 3 radial membranes are the 6 th membrane in sequence from the outer side of a b center ring to the inner side of a b outer ring,

the inner wall of the shell, all the surfaces of the rotating body, the components and the auxiliary components are coated with PTFE by a special PTFE coating technology.

2. The technology for purifying and removing adhesive components and causative substances thereof in an industrial exhaust gas according to claim 1, wherein: the shell is cylindrical.

3. The technology for purifying and removing adhesive components and causative substances thereof in an industrial exhaust gas according to claim 1, wherein: the width of the collecting diversion trench is 50mm-80mm, the length of the collecting diversion trench is 850mm-1150mm, the depth of the front end of the collecting diversion trench is 50mm-80mm, and the depth of the rear end of the collecting diversion trench is 80mm-110 mm.

4. The technology for purifying and removing adhesive components and causative substances thereof in an industrial exhaust gas according to claim 1, wherein: the rotating body is cylindrical.

5. The technology for purifying and removing adhesive components and causative substances thereof in an industrial exhaust gas according to claim 1, wherein: the radial straight-line length of the inner ring shaped fin I is 1/2 of the radial straight-line length of the outer ring shaped fin I.

6. The technology for purifying and removing adhesive components and causative substances thereof in an industrial exhaust gas according to claim 1, wherein: the radial straight line length of the second outer ring different wing piece is 1/2 of the radial straight line length of the second inner ring different wing piece.

7. The technology for purifying and removing adhesive components and causative substances thereof in an industrial exhaust gas according to claim 1, wherein: the radial straight line length of the third inner ring different wing is 1/2 of the radial straight line length of the third outer ring different wing.

8. The technology for purifying and removing adhesive components and causative substances thereof in an industrial exhaust gas according to claim 1, wherein: the circular protrusion I is provided with a plurality of blocks from the connecting position with the outer side of the central circular ring I or the inner circular ring I to the outer periphery according to large, medium and small specifications.

9. The technology for purifying and removing adhesive components and causative substances thereof in an industrial exhaust gas according to claim 1, wherein: the circular protrusion II is provided with a plurality of blocks according to large, medium and small specifications from the connecting position of the circular protrusion II and the outer side of the central circular ring II or the inner circular ring II to the outer periphery, and the circular protrusion III is provided with a plurality of blocks according to large, medium and small specifications from the connecting position of the circular protrusion III and the outer side of the central circular ring III or the inner circular ring III to the outer periphery.

10. The technology for purifying and removing adhesive components and causative substances thereof in an industrial exhaust gas according to claim 1, wherein: the rotary shaft is positioned in the shell and the rotary body, the central line of the rotary shaft is superposed with the central lines of the shell and the rotary body, and the rotary body rotates through the rotation of the rotary shaft.

Technical Field

The invention belongs to the field of air pollution prevention, and particularly relates to a technology for purifying and removing viscous adhesive components and causative substances of the viscous adhesive components in industrial waste gas.

Background

The main mechanism of haze is that various atmospheric pollutants are attached to solid or liquid microparticles in the atmosphere to gradually form composite microparticles, and the atmospheric environmental quality is influenced in the forms of retention, drift, diffusion, reaction, sedimentation and the like in the atmosphere. Here, in addition to a large amount of primary fine particles discharged directly from the ground, there are also a large amount of secondary fine particles generated in the atmosphere, which directly affect the components, composition, and concentration of haze, and these substances are highly vital and can be continuously present. The main environmental quality-affecting substance components in the atmospheric pollutants include PM10, PM2.5, NOx, SOx, O3, VOCs, DXNs, heavy metal species, and the like. Atmospheric pollution seriously affects the living and living environment of human beings and living organisms, and seriously threatens the physical and psychological health of human beings and the development and progress of social economy. The main reasons for the large amount of the discharged air pollutants are that the source of the pollution source is not controlled in place, and the technology for pollution discharge treatment is not controlled in place.

At present, a major problem exists in the treatment process, namely that the pretreatment technology of the industrial waste gas is quite laggard. The pretreatment does not work, the purification efficiency of the rear-end main treatment and advanced treatment process is directly and seriously influenced, and a large amount of pollutants are discharged. When treating industrial flue gas and industrial waste gas, if pretreatment can not be really and effectively implemented, the treatment effect can be reduced, the discharge capacity can be increased, the effects and the service life of a subsequent main treatment and deep treatment system in the whole treatment process can be seriously influenced, the influences are reflected in that the load is increased, the normal performance and the efficiency are damaged or even lost, the service life is shortened, and the whole discharge capacity is increased. This also increases the continuous long-term maintenance effort that must be expended to meet the regulatory standards, which is effectively an inefficient maintenance that results in significant overall cost losses in terms of labor, resources, financial resources, effort, and time.

More specifically, the common industrial flue gas and industrial waste gas pretreatment technology and equipment in the prior art comprise:

1. the technology of utilizing fiber filter cotton to carry out physical filtration is embodied as a primary effect, a middle effect and a high-efficiency filter, and the technical problem exists in that: the viscous adhesive components and the causative substances thereof are rapidly and strongly adhered to the surface layer of the filter cotton, so that the filter cotton is rapidly lost and discarded to become dangerous waste, and the thickness of pollutants adhered to the surface of the fiber filter cotton reaches 1.0mm (for example, 5000m is treated by pretreatment)³A viscous adhesive component and a concentration of its causative substance of 150mg/m³When the industrial spraying coating contains VOCs waste gas, the thickness of the waste gas can reach 1mm within 1 hour), the waste gas is lost and scrapped, and the waste gas becomes dangerous waste.

2. The activated carbon adsorber using activated carbon for adsorption has problems that: the surface of the active carbon is fast and strongly adhered with viscous adhesive components and the causative substances thereof, which directly cause failure and scrap and become dangerous waste (for example, the pretreatment treatment is carried out for 5000 m)³A viscous adhesive component and a concentration of its causative substance of 150mg/m³When the industrial spraying and coating of the waste gas containing VOCs is carried out, the micropores of the activated carbon are strongly stuck and blocked by sticky adhesive components and causative substances thereof after 0.5 hour. ) However, the activated carbon cannot reduce its adsorption force by desorption at this time.

3. The water spray tower using water washing has problems in that: circulating water of the water spray tower is polluted quickly, so that the condensing and collecting effect is poor, a nozzle and a water conveying pipeline are blocked, pollutants are adhered to the surfaces of the inner wall of the equipment and other parts, the water consumption is increased, slag in water is complex and labor-consuming, the slag is fished into dangerous waste, and no effective demisting is caused, and a subsequent equipment system is adhered with viscous adhesive components and causative substances thereof. The circulating water of the water spray tower (for example, the pretreatment treatment is carried out for 5000 m)³A viscous adhesive component and a concentration of its causative substance of 150mg/m³When industrial spray coating of VOCs-containing waste gas) needs to be replaced 1 time per hour (1 replacement is 1.5m³) However, the effect of the pretreatment by the water spray tower cannot be expected due to the generation of a large amount of waste-containing sewage.

4. The problems of the electric coke catching by electrostatic adsorption are as follows: electrostatic trapping brings about ineffectiveness and other potential risks of conductivity due to trapping of sticky adhesive components and their causative substances which are uncomfortable to the electrode, such as rapid strong adhesion of the sticky adhesive components and their causative substances to the electrode surface. Therefore, the adhesive composition is quickly adhered by the viscous adhesive component and the causative substance thereof due to design deviation and use error, and the adhesive composition is ineffective and discarded.

5. The metal mesh or metal blade centrifuge using the spin centrifugation technique, etc., has problems in that: although the metal mesh or metal blade centrifuge with the surface coated with PTFE has certain efficacy, viscous adhesive components and causative substances thereof are quickly adhered due to factors such as wrong design, rough preparation of PTFE, laggard PTFE coating technology, improper use and the like, so that high-frequency, complicated and labor-consuming manual cleaning, operation and maintenance investment (for example, 5000m pretreatment treatment is implemented)³A viscous adhesive component and a concentration of its causative substance of 150mg/m³When the industrial spraying coating of the waste gas containing VOCs is carried out, more than 1kg of sticky adhesive components and the causative substances thereof are conveyed to the subsequent main treatment and advanced treatment process system after 3 hours, and simultaneously, more than 1kg of sticky adhesive components and the causative substances thereof are adhered to the surface of the device member by the centrifugal device itself).

However, the viscous adhesive components and the causative substances in the industrial flue gas and the industrial waste gas have the properties of high viscosity, strong adhesive force, easy curing and the like. The components and substances can quickly generate adhesive action along with temperature change in the conveying process of an exhaust pipeline, and the components and substances are attached to the surfaces of any equipment and parts which are contacted with the components and parts to cause serious blockage, even the subsequent system is paralyzed and scrapped, so that the technologies and methods commonly used at present have many and great technical problems when being applied to the pretreatment of industrial flue gas and industrial waste gas, namely the purification and removal of the contained viscous adhesive components and the causative substances thereof, and the technologies cannot play effective functions because: firstly, the design of these technologies as devices is wrong; secondly, the use selectivity and the matching of the technologies are wrong.

In order to solve the problems, the inventor of the present invention develops and innovates technology to implement effective pretreatment on industrial flue gas and industrial waste gas (malodorous gas, VOCs gas and odorous gas), and has great and profound significance for social and economic development.

Disclosure of Invention

The invention aims to solve the following technical problems in the prior art:

1. during the pretreatment, the components and substances can quickly generate the adhesive effect along with the temperature change during the conveying of an exhaust pipeline, and can be attached to the surfaces of any equipment and components which are contacted with the components and substances to cause serious blockage, even paralysis and scrapping of a subsequent system;

2. the prior art can not effectively purify and remove viscous adhesive components and causative substances thereof of industrial waste gas, and also can input a large amount of viscous adhesive components and causative substances thereof into a main treatment process system, so that the load of the main treatment process system is increased, the damage is reduced, and even certain effect performance originally possessed by the main treatment process system is lost;

3. the prior art can not effectively purify and remove viscous adhesive components and causative substances thereof, and also can input a large amount of viscous adhesive components and causative substances thereof into the main treatment process system, so that the normal operation of the main treatment process system can not be ensured, and the normal service life of the main treatment process system is shortened;

4. the prior art can not effectively purify viscous adhesive components and cause substances thereof before industrial flue gas and industrial waste gas enter a main treatment process system, so that the viscous adhesive components and the cause substances thereof are not only adhered to the inside of the pretreatment equipment per se, but also can enter the inside of the main treatment process system to be adhered to the inside of the main treatment process system, and further the viscous adhesive components and the cause substances thereof adhered to the inside of the pretreatment equipment per se can be manually cleaned, and the pretreatment equipment per se and the main treatment process system which are input for a long time continuously comprise operation and maintenance of manpower, material resources, financial resources, energy and time, and the operation and maintenance are endless and also ineffective;

5. the invention aims to provide a technology for purifying and removing viscous adhesive components and causative substances thereof of industrial waste gas before the industrial waste gas and the industrial waste gas enter a main treatment process system, so that the load of the main treatment process system is reduced, the normal operation of the main treatment process system is promoted, the normal service life of the main treatment process system is ensured, the load of a post-treatment process system, namely a deep purification process system is also reduced, the normal operation of the post-treatment process system, namely the deep purification process system is promoted, and the normal service life of the post-treatment process system, namely the deep purification process system is ensured. The invention can effectively remove viscous adhesive components and causative substances thereof in the flue gas and the waste gas, and can effectively recycle valuable raw materials discharged along with the flue gas, thereby saving production raw materials, avoiding excessive waste, and forming no hazardous waste.

In order to achieve the purpose, the invention adopts the technical scheme that the method is characterized in that: carry out the pretreatment of industrial flue gas, industrial waste gas through the rotary high-efficient clarifier of braun excitation, the rotary high-efficient clarifier of braun excitation includes shell, rotator, mount, rotation axis, swivel bearing and rotation bearing seat, shell outer wall bottom welding is long and thin collects the guiding gutter, it is trapezoidal deepening downwards to collect the guiding gutter from the front end rear end, the bottom of collecting the guiding gutter is the ship type and extends, and the extension end is equipped with the water conservancy diversion canal, the water conservancy diversion canal is long and narrow thin slot structure, water conservancy diversion canal bottom is equipped with the discharge port of accomodating thick form adhesive component and its causative substance, connect the collecting pipe on the discharge port, the inside position that corresponds with the collection guiding gutter of shell is equipped with the water conservancy diversion mouth, the inside of shell is equipped with the rotator, the rotator comprises positive and negative leaf heteroplane body, ring rotation water conservancy diversion separation body, positive and negative leaf heteroplane body divide into heteroplane body, A reverse-leaf special-wing body and a contraction-leaf special-wing body,

the front blade different wing body is composed of n outer ring different wing pieces I, n inner ring different wing pieces I, a center ring I and an inner ring I, the inner ring different wing pieces I are fixed on the outer side of the center ring I, the outer ring different wing pieces I are fixed on the outer side of the inner ring I and the inner side of the outer frame I, the inner ring different wing pieces I and the outer ring different wing pieces I are fixed according to the same direction, namely, the anticlockwise direction, the shapes of the inner ring different wing pieces I and the outer ring different wing pieces I are both different triangles with the back half part reversely folded, and circular protrusions I are arranged on wind receiving surfaces of the inner ring different wing pieces I and the outer ring different wing pieces I,

the reverse-vane different-wing body consists of n outer ring different-wing pieces II, n inner ring different-wing pieces II, a central ring II and an inner ring II, the inner ring different-wing pieces II are fixed on the outer sides of the central ring II, the outer ring different-wing pieces II are fixed on the outer sides of the inner ring II and the inner side of the outer frame II, the inner ring different-wing pieces II are fixed in the clockwise direction, the outer ring different-wing pieces II are fixed in the anticlockwise direction, the inner ring different-wing pieces II and the outer ring different-wing pieces II are both in the shape of different triangles with back half parts reversely folded, and circular protrusions II are arranged on the wind-receiving surfaces of the inner ring different-wing pieces II and the outer ring different-wing pieces II,

the blade reducing different wing body consists of n outer ring different wing pieces III, n inner ring different wing pieces III, a central ring III and an inner ring III, the inner ring different wing pieces III are fixed on the outer side of the central ring III, the outer ring different wing pieces III are fixed on the outer side of the inner ring III and the inner side of the outer frame III, the inner ring different wing pieces III and the outer ring different wing pieces III are fixed in the anticlockwise direction, the inner ring different wing pieces III and the outer ring different wing pieces III are shaped like an triangle with a back half part reversely folded, the tail part of the outer ring different wing pieces III extends to form an extension part, the wind-receiving surfaces of the inner ring different wing pieces III and the outer ring different wing pieces III are provided with three circular protrusions, and the wind-receiving surface of the extension part of the outer ring different wing pieces III is provided with a small circular hole,

the ring rotating guide body consists of a small arc-shaped wing body, a middle arc-shaped wing body and a large arc-shaped wing body, the small arc-shaped wing body is a rotating part formed by connecting a plurality of n arc-shaped wings, the small arc-shaped wing body is arranged at the outermost ring of the rotating body, the opening end of the arc is outward, and a ring-shaped member is formed at the outer ring of the rotating body,

the middle arc-shaped wing body is a rotating part formed by connecting a plurality of n arc-shaped wing pieces II, the middle arc-shaped wing body is arranged between the large arc-shaped wing body and the small arc-shaped wing body, the specification is larger than that of the small arc-shaped wing body, the opening end of the arc is outward, the arc opening covers the plurality of arc-shaped wing pieces I in the small arc-shaped wing body at a certain interval, and a ring-shaped component is formed inside the rotating body,

the large arc-shaped wing body is a rotating part formed by connecting n circular arc-shaped wing pieces III, the large arc-shaped wing body is arranged around a rotating shaft of the rotating body, the specification of the large arc-shaped wing body is larger than that of the middle arc-shaped wing body, the opening end of the circular arc is outward, the circular arc opening covers the circular arc-shaped wing pieces II in the middle arc-shaped wing body at a certain interval, and a circle of annular component is formed inside the rotating body,

the small arc-shaped wing piece body, the middle arc-shaped wing piece body and the large arc-shaped wing piece body are in the shape of an arc formed by short rectangles,

the wind front surface parts of the small arc-shaped vane body, the middle arc-shaped vane body and the big arc-shaped vane body are respectively provided with corresponding small bulges, one side of the arc-shaped end part of the small arc-shaped vane body is provided with a micro bulge,

the extension part of the outer ring different wing piece III of the contracting-blade different wing body extends to the inside of the front end of the ring rotary guide body,

the small arc-shaped vane body is fixedly connected by a needle-shaped short rod with one end connected with the outer ring of the rotating body, one end of the needle-shaped short rod is connected with the center of the arc-shaped opening end of the small arc-shaped vane body through an arc-shaped lining ring,

the connection between the middle arc-shaped wing body and the adjacent middle arc-shaped wing body which is arranged in the rotary axial direction is realized by connecting a thin metal short rod to the end side of the top part of the rectangular arc center of the middle arc-shaped wing body, and the thin metal short rod is connected and fixed with the ring fixing frames at the two sides of the ring rotary guide separation body,

the connection between the large arc-shaped wing body and the adjacent large arc-shaped wing body axially arranged on the rotating shaft is realized by connecting a thin metal short rod to the top end side of the rectangular arc center of the large arc-shaped wing body, and the thin metal short rod is connected and fixed with the ring fixing frame bodies at the two sides of the ring rotation guide separation body,

a plurality of metal short rods are arranged on the outer ring of the corresponding annular rotary guide body on the rotating body, one end of each metal short rod is fixed on the corresponding outer ring of the rotating body, the other end of each metal short rod extends to a position close to the inner wall of the device shell in an oblique line manner but is not connected with the inner wall of the device shell,

the diversion separation body consists of a net rotary body and a membrane rotary body, the net rotary body is a net rotary body formed by metal wires, the net is radially dispersed from the center to the periphery by 360 degrees and is in a shape of encrypted radiation towards the peripheral side in the radial direction, and an outer ring and a central ring are formed,

the membrane rotary body is a membrane rotary type membrane rotary body made of PTFE with different properties, the membranes made of PTFE with different properties are distributed in a circular ring-shaped divergence mode from the center to the outer peripheral side, the distribution mode is that the 1 st membrane, the 2 nd membrane, the 3 rd membrane, the 4 th membrane, the 5 th membrane and the 3 radial membranes are the 6 th membrane in sequence from the outer side of a b center ring to the inner side of a b outer ring,

the inner wall of the shell, all the surfaces of the rotating body, the components and the auxiliary components are coated with PTFE by a special PTFE coating technology.

Further, the housing is cylindrical.

Furthermore, the width of the collecting diversion trench is 50mm-80mm, the length of the collecting diversion trench is 850mm-1150mm, the depth of the front end of the collecting diversion trench is 50mm-80mm, and the depth of the rear end of the collecting diversion trench is 80mm-110 mm.

Further, the rotating body is cylindrical.

Further, the radial straight-line length of the first inner ring shaped rib is 1/2 of the radial straight-line length of the first outer ring shaped rib.

Further, the radial straight line length of the second outer ring shaped rib is 1/2 of the radial straight line length of the second inner ring shaped rib.

Further, the radial straight line length of the third inner ring shaped rib is 1/2 of the radial straight line length of the third outer ring shaped rib.

Furthermore, the circular protrusion I is provided with a plurality of blocks from the connection part of the circular protrusion I and the outer side of the central ring I or the inner ring I to the outer periphery according to the large, medium and small specifications.

Furthermore, the second circular protrusion is provided with a plurality of blocks according to the large, medium and small specifications from the outer connecting part of the second circular protrusion and the second central ring or the second inner ring to the outer circumference, and the third circular protrusion is provided with a plurality of blocks according to the large, medium and small specifications from the outer connecting part of the third circular protrusion and the third central ring or the third inner ring to the outer circumference.

Further, flanges are arranged at two ends of the shell, flange holes are formed in the flanges, two ends of the rotating shaft are fixed on the fixing frame through rotating bearings and rotating bearing seats respectively, the rotating shaft is located inside the shell and the rotating body, the center line of the rotating shaft is overlapped with the center lines of the shell and the rotating body, and the rotating body rotates through rotation of the rotating shaft.

Compared with the prior art, the invention has the advantages that: the separated viscous adhesive components and the causative substances thereof can be purified, removed and recovered at any time through the collecting diversion trench, the discharge port and the connecting and collecting pipe which are arranged on the shell, so that the load of the main treatment process system is lightened, the normal operation of the main treatment process system can be realized, the normal service life of the main treatment process system is further ensured, the exertion of the purification effect of the original main treatment process system is ensured, the energy consumption caused by the endless and ineffective operation and maintenance of the prior art is avoided, the efficient purification removal and the normal exertion of the performance of the main treatment process system are ensured, the pollution discharge and emission reduction which cannot be realized by the prior art can be realized, and the normal service life of the main treatment process system is ensured,

and the load of a post-treatment, namely deep purification process system can be reduced, the normal operation of the post-treatment, namely deep purification process system is promoted, and the normal service life of the post-treatment, namely deep purification process system is ensured. Realizes the optimization of the whole process system, improves the whole purification effect, can remove and recover the accumulated viscous adhesive components and the causative substances thereof by the collecting diversion trench, the discharge port and the connecting collection pipe, realizes the reutilization of resources, saves production raw materials, avoids excessive waste, does not form dangerous waste, and achieves two purposes at one stroke,

in addition, the rotating body is arranged in the shell and consists of a front and back different wing body, a circular rotation guide body and a flow guide separation body, the effect that the conventional pretreatment technology and equipment cannot purify and remove viscous adhesive components and causative substances thereof efficiently is achieved through the scientific design of the structure, meanwhile, the invention is very suitable for pretreatment application, namely one of special pretreatment technologies, the reasonable applicability of the scientific technology is improved through the targeted and matching application of the technology, and the direction of scientific and reasonable application is pointed out for the use of the traditional technologies, equipment and the like with poor pertinence, low efficiency, high cost, high operation and maintenance cost and sequelae in the prior art, which are used blindly and disorderly. The special PTFE coating is applied to the inner wall of the shell and the whole surface of the rotating body, the component parts and the auxiliary parts, and the special PTFE coating technology is applied to the surfaces of the components and the auxiliary parts, so that the purifying and removing effects are enhanced. The PTFE coating film on the surface can be prepared into different, corresponding and specific special PTFE according to different properties of different industrial flue gas and industrial waste gas, and then the coating technology is implemented to prepare the specific PTFE coating film, so that the wide applicability and the specific specificity can be exerted, good viscous adhesive components and the causative substance removal effect thereof can be obtained, and the operation parameters and the conditions of the equipment can be reasonably controlled and adjusted, so that the purification removal effect which cannot be achieved by the previous pretreatment technology can be solved.

Drawings

FIG. 1 is a schematic structural diagram of a purification and removal technique for sticky adhesive components and causative substances thereof in industrial exhaust gas according to the present invention;

FIG. 2 is a schematic structural diagram of a housing in the industrial waste gas purification and removal technology for viscous adhesive components and causative substances thereof according to the present invention;

FIG. 3 is a schematic structural diagram of a front-blade airfoil body in the industrial waste gas purification and removal technology for viscous adhesive components and causative substances thereof according to the present invention;

FIG. 4 is a schematic structural diagram of a counter-vane heteroplane body in the industrial waste gas viscous adhesive component and its causative substance purification and removal technique according to the present invention;

FIG. 5 is a schematic structural diagram of a blade-shrinking heteroplane body in the technique for purifying and removing viscous adhesive components and causative substances thereof in industrial waste gas according to the present invention;

FIG. 6 is a schematic view of a structure of a cyclone conductive body in the technology for purifying and removing viscous adhesive components and causative substances thereof in industrial exhaust gas according to the present invention;

FIG. 7 is a schematic cross-sectional view of a cyclone conductive body in the technique for purifying and removing viscous adhesive components and causative substances thereof from industrial exhaust gas according to the present invention;

FIG. 8 is a schematic view of a partially enlarged structure of a small arc-shaped vane body in the industrial waste gas viscous adhesive component and its causative substance purification and removal technology of the present invention;

FIG. 9 is a schematic structural diagram of a rotating shaft system of the industrial waste gas viscous adhesive component and its causative substance purification and removal technique according to the present invention;

FIG. 10 is a schematic view of a net rotary body structure in the industrial waste gas viscous adhesive component and its causative substance purifying and removing technology of the present invention;

FIG. 11 is a schematic view of the structure of a membrane rotating body in the industrial waste gas purification and removal technology for viscous adhesive components and causative substances thereof according to the present invention;

FIG. 12 is a schematic view of a partially enlarged structure of a middle arc-shaped vane body in the technique for purifying and removing viscous adhesive components and causative substances thereof in industrial waste gas according to the present invention;

FIG. 13 is a schematic view of a partially enlarged structure of a large arc-shaped vane body in the technique for purifying and removing viscous adhesive components and causative substances thereof in industrial waste gas according to the present invention;

in the figure: 1a, a Brownian excited spinning high-efficiency purifier; 1. a housing; 2. a rotating body; 3. a fixed mount; 4. A rotating shaft; 5. a rotating bearing; 6. rotating the bearing block; 7. collecting a diversion trench; 8. a diversion channel; 9. An outlet port; 10. a collection pipe; 11. a flow guide port; 12. positive and negative heteropterid bodies; 13. circularly rotating the guide body; 14. a flow-guiding separator; 15. a positive leaf xenofoil body; 16. a leaf-turning heterophylly body; 17. a leaf contracting heterophylly body; 18. a first different wing piece of the outer ring; 19. the inner ring is provided with a first different wing; 20. a first central ring; 21. an inner circular ring I; 22. a first circular protrusion; 23. a second different wing panel of the outer ring; 24. a second inner ring different wing panel; 25. a second central ring; 26. a second inner ring; 27. a second circular protrusion; 28. an outer ring different wing piece III; 29. an inner ring different wing piece III; 30. a third central ring; 31. an inner circular ring III; 32. an extension portion; 33. a circular protrusion III; 34. a circular aperture; 35. a small arc-shaped vane body; 36. a middle arc-shaped vane body; 37. a large arc-shaped vane body; 38. a first arc-shaped fin; 39. a circular arc-shaped fin II; 40. a circular arc-shaped fin III; 41. A small protrusion; 42. micro-protrusions; 43. a needle-like stub; 44. a metal stub; 45. the net rotates back; 46 film rotary body; 47. 1, a first film; 48. a 2 nd film; 49. a 3 rd film; 50. a 4 th film; 51. a 5 th film; 52. a 6 th film; 53. a flange; 54. a flange hole; 55. a first outer frame; 56. an outer frame II; 57. an outer frame III; 58. an outer ring; 59. a center ring; 60. b, an outer ring; 61. b, a center ring; 62. a thin metal rod; 63. an arc-shaped inner lining ring.

Detailed Description

In view of the defects in the prior art, the technical scheme of the invention is provided through long-term research and massive practice. The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

FIG. 1 is a schematic structural diagram of a purification and removal technique for sticky adhesive components and causative substances thereof in industrial exhaust gas according to the present invention; FIG. 2 is a schematic structural diagram of a housing in the industrial waste gas purification and removal technology for viscous adhesive components and causative substances thereof according to the present invention; FIG. 3 is a schematic structural diagram of a front-blade airfoil body in the industrial waste gas purification and removal technology for viscous adhesive components and causative substances thereof according to the present invention; FIG. 4 is a schematic structural diagram of a counter-vane heteroplane body in the industrial waste gas viscous adhesive component and its causative substance purification and removal technique according to the present invention; FIG. 5 is a schematic structural diagram of a blade-shrinking heteroplane body in the technique for purifying and removing viscous adhesive components and causative substances thereof in industrial waste gas according to the present invention; FIG. 6 is a schematic view of a structure of a cyclone conductive body in the technology for purifying and removing viscous adhesive components and causative substances thereof in industrial exhaust gas according to the present invention; FIG. 7 is a schematic cross-sectional view of a cyclone conductive body in the technique for purifying and removing viscous adhesive components and causative substances thereof from industrial exhaust gas according to the present invention; FIG. 8 is a schematic view of a partially enlarged structure of a small arc-shaped vane body in the industrial waste gas viscous adhesive component and its causative substance purification and removal technology of the present invention; FIG. 9 is a schematic structural diagram of a rotating shaft system of the industrial waste gas viscous adhesive component and its causative substance purification and removal technique according to the present invention; FIG. 10 is a schematic view of a net rotary body structure in the industrial waste gas viscous adhesive component and its causative substance purifying and removing technology of the present invention; FIG. 11 is a schematic view of the structure of a membrane rotating body in the industrial waste gas purification and removal technology for viscous adhesive components and causative substances thereof according to the present invention; FIG. 12 is a schematic view of a partially enlarged structure of a middle arc-shaped vane body in the technology for purifying and removing viscous adhesive components and causative substances thereof in industrial exhaust gas according to the present invention; FIG. 13 is a schematic view of a partially enlarged structure of a large arc-shaped vane body in the technique for purifying and removing viscous adhesive components and causative substances thereof in industrial waste gas according to the present invention; as shown in fig. 1 to 13, the technology for purifying and removing sticky components and causative substances thereof in industrial waste gas according to the embodiment of the present invention:

carry out the pretreatment of industrial flue gas, industrial waste gas through braun excited rotary high-efficiency purifier 1a, braun excited rotary high-efficiency purifier 1a includes shell 1, rotator 2, mount 3, rotation axis 4, swivel bearing 5 and rotating bearing seat 6, a long and thin collection guiding gutter 7 is welded at shell 1 outer wall bottom, it is trapezoidal deepening downwards to collect guiding gutter 7 from the front end to the rear end, the bottom of collecting guiding gutter 7 is the ship type extension, the extension end is equipped with long and narrow slot guiding canal 8, guiding canal 8 bottom is equipped with the discharge port 9 of accomodating thick form adhesive composition and its causative substance, connect collecting pipe 10 on the discharge port 9, the position that the shell 1 inside corresponds with collection guiding gutter 7 is equipped with water conservancy diversion mouth 11, thick form adhesive composition and its causative substance among industrial flue gas, industrial waste gas can flow down to collecting guiding gutter 7 in the use, the separated viscous adhesive components and the causative substances thereof can be purified, removed and recovered at any time by moving the collecting diversion trench 7 to the discharge port 9, the discharge port 9 is connected with the collecting pipe 10, so that the load of the main treatment process system is reduced, the normal operation of the main treatment process system can be realized, the normal service life of the main treatment process system is further ensured, the exertion of the purification effect of the original main treatment process system is ensured, the energy consumption caused by the endless and ineffective operation and maintenance of the prior art is avoided, and the pollution discharge and emission reduction which cannot be realized by the prior art can be realized; and the load of the post-treatment, namely deep purification process system can be reduced, the normal operation of the post-treatment and deep purification process system is promoted, and the normal service life of the post-treatment, namely deep purification process system is ensured. The optimization of the whole process system is realized, and the integral purification effect is improved. Moreover, the separated viscous adhesive components and the substances causing the viscous adhesive components are removed and recovered through the collecting diversion trench, the discharge port and the connecting collection pipe, so that the resource recycling is realized, the production raw materials are saved, the excessive waste is avoided, the dangerous waste is not formed, and the double purposes of killing two birds with one stone are achieved,

the shell 1 is internally provided with a rotating body 2, the rotating body 2 consists of a front and back leaf heterovane body 15, a ring rotation guide body 13 and a guide separation body 14, the effect that the prior pretreatment technology and equipment cannot purify and remove viscous adhesive components and causative substances thereof efficiently is realized through the scientific design of the structure, meanwhile, the invention is very suitable for pretreatment application, namely one of special pretreatment technologies, the reasonable applicability of the technology to scientific technology is improved through the targeted and matching application of the technology provided by the invention, the direction of scientific and reasonable application is pointed out for the use of the traditional technologies and equipment with poor pertinence, low efficiency, high cost, high operation and maintenance cost and sequelae and the like which are used blindly and disorderly, the front and back leaf heterovane body 12 is divided into a front leaf heterovane body 15, a back leaf heterovane body 16 and a contracting leaf heterovane body 17,

the front blade different wing body 15 is composed of n outer ring different wing pieces 18, n inner ring different wing pieces 19, a central ring 20, an inner ring 21 and an outer frame 55, the inner ring different wing pieces 19 are fixed on the outer side of the central ring 20 and the inner side of the outer frame 55, the outer ring different wing pieces 18 are fixed on the outer side of the inner ring 21, the inner ring different wing pieces 19 and the outer ring different wing pieces 18 are fixed in the same direction, namely, the anticlockwise direction, the shapes of the inner ring different wing pieces 19 and the outer ring different wing pieces 18 are both in the shape of an irregular triangle with the back half reversely folded, and circular protrusions 22 are arranged on the wind receiving surfaces of the outer ring different wing pieces 18 and the inner ring different wing pieces 19,

the reverse vane different-wing body 16 is composed of n outer ring different-wing pieces two 23, n inner ring different-wing pieces two 24, a central ring two 25 and an inner ring two 26, the inner ring different-wing pieces two 24 are fixed on the outer side of the central ring two 25, the outer ring different-wing pieces two 23 are fixed on the outer side of the inner ring two 26 and the inner side of the outer frame two 56, the inner ring different-wing pieces two 24 are fixed in the clockwise direction, the outer ring different-wing pieces two 23 are fixed in the counterclockwise direction, the inner ring different-wing pieces two 24 and the outer ring different-wing pieces two 23 are both in the shape of different triangles with back half parts reversely folded, the wind-receiving surfaces of the outer ring different-wing pieces two 23 and the inner ring different-wing pieces two 24 are provided with circular protrusions two 27,

the blade reducing different wing body 17 comprises n outer ring different wing pieces three 28, n inner ring different wing pieces three 29, a central ring three 30 and an inner ring three 31, the inner ring different wing pieces three 29 are fixed on the outer side of the central ring three 30, the outer ring different wing pieces three 28 are fixed on the outer side of the inner ring three 31 and the inner side of the outer frame three 57, the inner ring different wing pieces three 29 and the outer ring different wing pieces three 28 are fixed in the anticlockwise direction, the inner ring different wing pieces three 29 and the outer ring different wing pieces three 28 are shaped into different triangles with back half parts reversely folded, the tail parts of the outer ring different wing pieces three 28 extend to form extension parts 32, the wind receiving surfaces of the inner ring different wing pieces three 29 and the outer ring different wing pieces three 28 are provided with circular protrusions three 33, the wind receiving surfaces of the extension parts 32 of the outer ring different wing pieces three 28 are provided with circular small holes 34,

the ring-shaped rotary guide body 18 consists of a small arc-shaped wing body 35, a middle arc-shaped wing body 36 and a large arc-shaped wing body 37, the small arc-shaped wing body 35 is a rotating part formed by connecting a plurality of n arc-shaped wing bodies 38, the small arc-shaped wing body 35 is arranged at the outermost ring of the rotating body 2, the opening end of an arc is outward, a ring of annular members are formed at the outer ring of the rotating body 2,

the middle arc-shaped wing body 36 is a rotating member formed by connecting a plurality of n arc-shaped wing bodies 39, the middle arc-shaped wing body 36 is arranged between the large arc-shaped wing body 37 and the small arc-shaped wing body 35, the specification is larger than that of the small arc-shaped wing body 35, the opening end of the arc is outward, the arc opening covers the plurality of arc-shaped wing bodies 38 in the small arc-shaped wing body 35 at a certain interval, and a ring-shaped member is formed inside the rotating body 2,

the large arc-shaped wing body 37 is a rotating member formed by connecting n circular arc-shaped wing bodies III 40, the large arc-shaped wing body 37 is arranged around the rotating shaft of the rotating body 2, the specification is larger than that of the middle arc-shaped wing body 36, the opening end of the circular arc is outward, the circular arc opening covers the circular arc-shaped wing bodies I39 in the middle arc-shaped wing body 36 at a certain interval, and a ring-shaped member is formed inside the rotating body,

the small arc-shaped vane body 35, the middle arc-shaped vane body 36 and the large arc-shaped vane body 37 are in the shape of an arc formed by short rectangles,

the wind-receiving front faces of the small arc-shaped vane body 35, the middle arc-shaped vane body 36 and the large arc-shaped vane body 37 are respectively provided with a corresponding small protrusion 41, one side of the arc-shaped end part of the small arc-shaped vane body 35 is provided with a micro protrusion 42,

the tail extension part 32 of the outer ring different wing piece three 28 of the blade reducing different wing body 17 extends to the inner part of the front end of the ring rotation guide body 13,

the small arc-shaped vane body 35 is fixedly connected by a needle-shaped short rod 43 with one end connected to the outer ring of the rotating body 2, one end of the needle-shaped short rod 43 is connected with the center of the arc-shaped opening end of the small arc-shaped vane body 35 through an arc-shaped lining ring 63,

the connection between the middle arc-shaped vane body 36 and the adjacent middle arc-shaped vane body 36 arranged in the rotating axial direction is realized by connecting a thin metal short rod 62 to the top end side of the rectangular arc center of the middle arc-shaped vane body 36, and the thin metal short rod 62 is connected and fixed with the ring fixing frames at the two sides of the ring rotating guide body 14,

the connection between the large arc-shaped vane body 37 and the adjacent large arc-shaped vane body 37 axially arranged on the rotating shaft is realized by connecting a thin metal short rod 62 to the top end side of the rectangular arc center of the large arc-shaped vane body 37, and the thin metal short rod 62 is connected and fixed with the ring fixing frame bodies at the two sides of the ring rotation guide body 14,

a plurality of metal short rods 44 are arranged on the outer ring of the corresponding annular rotary guide body 14 on the rotating body 2, one end of each metal short rod 44 is fixed on the corresponding outer ring of the rotating body 2, the other end of each metal short rod 44 obliquely extends to a position close to the inner wall of the device shell 1 but is not connected with the inner wall of the device shell 1, the metal short rods 44 can promote the Brownian motion of the viscous substances,

the flow guiding separation body 14 is composed of a net rotary body 45 and a membrane rotary body 46, the net rotary body 45 is a net rotary body composed of metal wires, the net is in a shape of radiating from the center to the periphery 360 degrees and becoming a shape of encrypted radiation to the outer periphery side in the radial direction, and an outer ring 58 and a central ring 59 are formed,

the membrane rotary body 46 is a membrane rotary type membrane rotary body made of PTFE with different properties, the membranes made of PTFE with different properties are distributed in a circular ring shape in a divergent mode from the center to the outer peripheral side, the distribution mode is that a 1 st membrane 47, a 2 nd membrane 48, a 3 rd membrane 49, a 4 th membrane 50 and a 5 th membrane 51 are sequentially arranged from the outer side of a b center ring 61 to the inner side of a b outer ring 60, 3 membranes distributed in a radial mode are a 6 th membrane 52, all surfaces, components and auxiliary components of the inner wall of a device shell and a rotary body 2 are provided, the surfaces of the devices are provided with special PTFE coatings implemented by using a special PTFE coating technology, PTFE coatings on the surfaces can be modulated into different, corresponding and specific PTFE according to different properties of industrial flue gas and industrial waste gas, and then the coating technology is implemented to manufacture the special PTFE, so that the wide applicability and the specific pertinence can be exerted, good removal effect of sticky adhesive components and causative substances thereof is achieved, and the operation parameters and conditions of the equipment are reasonably controlled and adjusted, so that the problem that the prior pretreatment technology cannot achieve the purification removal effect is solved.

In the technology for purifying and removing viscous adhesive components and causative substances thereof in industrial exhaust gas provided by the embodiment of the invention, the housing 1 is cylindrical.

According to the technology for purifying and removing viscous and adhesive components and causative substances of the viscous and adhesive components in the industrial waste gas, provided by the embodiment of the invention, the width of the collecting guide groove 7 is 50-80 mm, the length of the collecting guide groove 7 is 850-1150 mm, the depth of the front end of the collecting guide groove 7 is 50-80 mm, and the depth of the rear end of the collecting guide groove 7 is 80-110 mm.

In the technique for purifying and removing viscous components and causative substances thereof in industrial exhaust gas according to the embodiment of the present invention, the rotating body 2 is cylindrical.

According to the technology for purifying and removing viscous components and causative substances of the viscous components in the industrial waste gas, provided by the embodiment of the invention, the radial straight line length of the inner ring different wing piece I19 is 1/2 of the radial straight line length of the outer ring different wing piece I18.

According to the technology for purifying and removing viscous components and causative substances of the viscous components in the industrial waste gas, provided by the embodiment of the invention, the radial straight line length of the outer ring different wing piece two 23 is 1/2 which is the radial straight line length of the inner ring different wing piece two 24.

According to the technology for purifying and removing viscous components and causative substances of the viscous components in the industrial waste gas, provided by the embodiment of the invention, the radial straight line length of the inner ring different wing piece III 29 is 1/2 of the radial straight line length of the outer ring different wing piece III 28.

According to the technology for purifying and removing viscous components and causative substances of the viscous components in the industrial waste gas, provided by the embodiment of the invention, a plurality of circular protrusions 22 are arranged from the connection part of the circular protrusions 22 and the outer side of a central ring I20 or an inner ring I21 to the outer periphery according to large, medium and small specifications.

According to the technology for purifying and removing viscous components and causative substances of the viscous components in the industrial waste gas, provided by the embodiment of the invention, the circular protrusion II 27 is provided with a plurality of blocks with large, medium and small specifications from the joint with the outer side of the central ring II 25 or the inner ring II 26 to the outer periphery, and the circular protrusion III 33 is provided with a plurality of blocks with large, medium and small specifications from the joint with the outer side of the central ring III 30 or the inner ring III 31 to the outer periphery.

According to the technology for purifying and removing viscous adhesive components and causative substances of the viscous adhesive components in industrial waste gas, flanges 53 are arranged at two ends of a shell 1, flange holes 54 are formed in the flanges 53, two fixing frames 3 are provided, and two ends of a rotating shaft 4 are respectively fixed on the two fixing frames 3 through a rotating bearing 5 and a rotating bearing seat 6.

The beneficial effects of the invention include: through the collecting diversion trench, the discharge port and the connecting collection pipe which are arranged on the shell, the separated viscous adhesive components and the causative substances thereof can be purified, removed and recovered at any time, so that the load of the main treatment process system is reduced, the normal operation of the main treatment process system can be realized, the normal service life of the main treatment process system is further ensured, the exertion of the purification effect of the original main treatment process system is ensured, the energy consumption caused by the endless and ineffective operation and maintenance of the prior art is avoided, and the pollution discharge and emission reduction which cannot be realized by the prior art can be realized; and the load of the post-treatment, namely the deep purification process system can be reduced, the normal operation of the post-treatment, namely the deep purification process system is promoted, and the normal service life of the post-treatment, namely the deep purification process system is ensured. The optimization of the whole process system is realized, and the integral purification effect is improved. And the separated viscous adhesive components and the cause substances thereof are removed and recovered through the collecting diversion trench, the discharge port and the connecting collection pipe, so that the resource recycling is realized, the production raw materials are saved, the excessive waste is avoided, and the dangerous waste is not formed, thereby killing two birds with one stone.

In addition, the rotator is arranged in the shell, so that viscous adhesive components and substances causing the viscous adhesive components in the industrial waste gas are efficiently purified and removed. The rotary body consists of a front and a back different-wing bodies, a circular rotary guide body and a guide separation body, and the scientific design of the structure realizes the effect that the traditional pretreatment technology and equipment cannot realize high-efficiency purification and removal of viscous adhesive components and causative substances thereof. The reasonable applicability of the scientific technology is improved through the targeted and matched application of the technology, and the direction of the scientific and reasonable application is pointed out for the use with poor pertinence, low efficiency, high cost, high operation and maintenance cost and sequelae in the past with blindness and messy use. The PTFE coating is carried out on all the surfaces of the rotating body, the component parts and the auxiliary parts by using a special PTFE coating technology, PTFE with different properties used for coating the surfaces can be prepared into different, corresponding and specific special PTFE according to different properties of industrial flue gas and industrial waste gas, and then the special PTFE coating is prepared by carrying out the coating technology to enhance the purification and removal effect. Therefore, the method can exert wide applicability and unique pertinence, receive good removal effect of sticky adhesive components and causative substances thereof, and reasonably control and adjust the operation parameters and conditions of equipment so as to realize the purification and removal effect which cannot be achieved by the prior pretreatment technology.

On the other hand, the important significance of the technology provided by the invention on the society and the economy lies in the auxiliary realization of the following aspects:

1. the effective treatment of industrial flue gas and industrial waste gas is promoted, and the atmospheric pollution is prevented;

2. by effectively treating industrial flue gas and industrial waste gas and reducing the emission of atmospheric pollutants, the global environmental problems of marine pollution, reduction of wild species, reduction of tropical rain forests, ozone layer damage, global warming and the like are prevented;

3. the effective treatment of industrial flue gas and industrial waste gas is promoted, and the deterioration of operation environments such as factories and the like and the environment of residents in houses is prevented;

4. the effective treatment of industrial smoke and industrial waste gas is promoted, and the influence on soil, water environment, plants and crops is prevented;

5. the effective treatment of industrial flue gas and industrial waste gas is promoted, and the human health is guaranteed;

6. the environment pollution treatment cost of enterprises is reduced by the characteristics of miniaturization, no landing, high efficiency, zero risk, zero operation and maintenance and the like, and the healthy development of the enterprises is promoted;

7. fills up the blank of the similar technology in the environmental protection industry, drives the development of the technical innovation in the same industry and the like.

It should be understood that the above-mentioned embodiments are only illustrative of the technical concept and features of the present invention, and the purpose of the present invention is to enable those skilled in the art to understand the content of the present invention and to implement the same, and not to limit the scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.