CN104275082A - Haze source greenhouse gas zero-emission machine - Google Patents

Abstract

The invention relates to a haze source greenhouse gas zero-emission machine. The haze source greenhouse gas zero-emission machine comprises 28 parts such as a haze source (haze smoke) greenhouse gas inlet pipe, a first level of L-shaped purifying chamber (A), a second level of L-shaped guide chamber (B), a third level of electrostatic purifier, a fourth level of L-shaped purifying chamber (D), etc.; the first level of L-shaped purifying chamber (A), the second level of L-shaped guide chamber (B), the third level of L-shaped electrostatic purifier chamber (C), the fourth level of L-shaped purifying chamber (D), a fifth level of L-shaped purifying chamber (E), a sixth level of L-shaped purifying chamber (F), a seventh level of L-shaped purifying chamber (G) and an eighth level of L-shaped purifying chamber are switched on, partially switched on or not switched on. The haze source greenhouse gas zero-emission machine is used for realizing zero-emission and purification of haze particles and polluted gas caused by industrial chimneys, automobile tail gas, centralized heating boilers, household cooking, smoke exhaust ventilators, commercial cooking and other reasons.

Description

Haze source greenhouse gases zero-emission machine

Art:

The present invention relates to a kind of zero-emission machine, especially " haze source greenhouse gases zero-emission machine ".

Background technology:

Greenhouse gases GHG Greenhouse Gas) refer to and anyly can absorb and discharge infrared radiation and deposit gas in an atmosphere.It is the solar radiation that can absorb ground return in air, and some gases of emitted radiation again, as steam, carbon dioxide, most of cold-producing medium etc., its effect makes earth surface become warmer, be similar to greenhouse and retain solar radiation, and the effect of air in heating greenhouse.The impact that this greenhouse gases make the earth become warmer is called " greenhouse effects ".The 6 kinds of greenhouse gases controlled in the Kyoto Protocol are: carbon dioxide (CO2), methane (CH4), nitrous oxide (N2O), HFC (HFCs), perfluorocarbon compound (PFCs), sulfur hexafluoride (SF6).It is maximum that carbon dioxide accounts for 55% ratio.Steam is maximum greenhouse gases; it exceeds nearly two orders of magnitude of carbon dioxide, Environmental Protection Agency identification, and carbon dioxide isothermal chamber gas is air pollutants; " harm public health and mankind's happiness ", the extensive emission greenhouse gas of the mankind is enough to cause the climate changes such as global warming.The increase of the greenhouse gases impact on weather and the ecosystem is a more complicated problem.This problem, for the China facing population expansion and the large pressure of per capita resources poor two, seems particularly important and urgent.Greenhouse gas emission causes atmosphere pollution, haze weather, has become biosphere " killer ".Haze is the particle such as PM2.5 equidimension particulate, dust, aerosol in floating air, in weather conditions such as certain humidity, temperature, and the weather phenomenon produced under metastable state.Atmosphere pollution is to become " killer " of human health, and the haze weather of particularly PM2.5 particle generation, has a strong impact on people's physical and mental health and life, become one of major casualty threatening human society health.Haze disaster is that Atmospheric Long-term pollutes the result caused.How control atmosphere pollution is that the whole mankind faces one of urgent problem.Want pollution abatement, mainly start with from decreasing pollution source.1. atmospheric air air pressure is low, and it is principal element that air does not flow.Molecule is assembled, in atmosphere floating.2. floor-dust is large, and air humidity is low, and the people on ground and wagon flow make dust stir.3, vehicle exhaust is main pollutant emission.4. the secondary pollution that produces of factory.5. the pollutant such as CO2 of warming discharge.Existing deduster mainly contains: sack cleaner, wet dust collector, electrostatic precipitator.Sack cleaner causes secondary pollution when clearing up the dust collected, and cost is high.Wet dust collector easily causes secondary pollution, limited efficiency.Electrostatic precipitator cost is high.

Summary of the invention:

The technical problem of solution required for the present invention is: the discharge of haze source greenhouse gases original 98% to 100%, becomes " the greenhouse gases zero-emission of haze source " after patented product of the present invention " haze source greenhouse gases zero-emission machine " process; Solve existing deduster secondary pollution and the high difficult problem of cost.The present invention's " greenhouse gases zero-emission machine " is from the source of generation of greenhouse gases and haze, effective removing PM0.1-PM20 effectively improves air quality index, air quality index refers to the index of quantitative description Air Quality, and the major pollutants participating in Air Quality Evaluation are six indexs and the carbon dioxide (CO2) such as fine particle (PM2.5), pellet (PM10), sulfur dioxide (SO2), nitrogen dioxide (NO2), ozone (O3), carbon monoxide (CO).PM2.5 is the environmental index that air quality and visibility etc. have material impact, refers to that in surrounding air, aerodynamics equivalent diameter is less than or equal to the particle of 2.5 μm (microns), also claims fine particle.This value is higher, just represents air pollution more serious.Pellet is also called PM10, refers to the particle of equivalent aerodynamic diameter below 10 microns.The present invention's " haze source greenhouse gases zero-emission machine " utilization " greenhouse gases zero-emission of haze source " is by haze source greenhouse gases zero-emission machine, the haze source greenhouse gases of 98% to 100%, in the cleanser of molten intrusion purifying agent chamber (K), the haze particle of haze gas 98% to 100% and the elimination purification of dusty gas are carried out.Extraordinary elimination haze can be obtained, purifying air comprises the effect of greenhouse gases.

The technical solution adopted for the present invention to solve the technical problems is: according to mathematical principle, electrical principles, mechanics principle, Machine Design theory, Hydrodynamics Theory and chemical theory, " haze source greenhouse gases zero-emission machine " (Fig. 1) of invention design, by: haze source (haze flue gas) greenhouse gases air inlet pipe (25); First order cleanser high-pressure sprayer (23) (24); The first order " L " type clean room (A) (5, B, 7,8,22,23,24,25); The second level " L " type diversion chamber (B) (5, C, 32,33,34,35,36,6,7,8, A); Third level electrostatic cleaner (34) (5, C, 32,33,34,35,36,6,7,8, A); The third level " rectangle " electrostatic depuration room (C) (5,28, D, 32,33,34,35,36,6,7,8, B); The fourth stage " L " type clean room (D) (C, 28,10, E, 9,37,8); Level V " L " type clean room (E) (10,28, F, 11,9,38, D); 6th grade of " L " type clean room (F) (E, 28,12, G, 9,39,11); 7th grade of " L " type clean room (G) (12,28, H, 13,9,40, F); 8th grade of " L " type clean room (H) (G, 28,31, I, 14,41,13); De-point purifying agent chamber (I) (26) (9,14,31,15, J, 8); Purify air and export room (J) (I, 15,31,17,18,20,8); Purifying agent chamber (on K) (4,16,27,28,29,30,1,2,3,57); Purifying agent chamber (under K) (2,58,3,30,2,58,3); Electric automatic control room (Non-follow control room of holding concurrently) (41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,58,59); De-point purifying agent chamber (I) (9), 14,15,17); Purify air and export room (J) (9,14,15,17,18,19,20,21,26,31); The controller (cleanser High voltage output device group E) (41,6,48,42,43,44,45) of cleanser upper limit device (magnetic valve); Cleanser high-pressure sprayer (23,62,61,63); Secondary complete burner (N) (60,0,25); The heat supply warmer (60,65,64,66,61,62,63) of cleanser heat exchanger; The pressure fan (entrance) of air blast or air-introduced machine (outlet) (as far as possible without air-introduced machine) (18); Chimney (smoke-intake pipe or escape pipe) (19); The purified gas escape pipe (20) of haze source greenhouse gases zero-emission machine; Motor (21); Supporting leg (67) etc. 28 major part composition.It is characterized in that: circular in cross-section (annular) or rectangle or other any geometries, the first order " L " type clean room (A) lower end that is rectangular or circular or other any geometries, longitudinal section forms passage with the second level " L " type diversion chamber (B) upper end or passage portion is connected, the first order " L " type clean room (A) inner periphery end top exports room (J) and is sealedly and fixedly connected with purifying air, the first order " L " type clean room (A) inner periphery end bottom and de-purifying agent chamber (I) are sealedly and fixedly connected, the first order " L " type clean room (A) inner periphery end top forms passage with haze smoke inlet pipe (25) excircle end or passage portion is connected, haze smoke inlet pipe (25) upper end or lower end and haze input or output pipeline and form passage or passage portion is connected, circular in cross-section (annular) or rectangle or other any geometries, the second level " L " type diversion chamber (B) upper end of rectangular or circular or other any geometries in longitudinal section and the first order " L " type clean room (A) lower end forming section expanding channels, the second level " L " type diversion chamber (B) excircle lower end forms passage with the excircle upper end of the third level " L " type electrostatic cleaner room (C) or passage portion is connected, the second level " L " type diversion chamber (B), the third level " L " type electrostatic cleaner room (C), the fourth stage " L " type clean room (D), level V " L " type clean room (E), the 6th grade of " L " type clean room (F), the 7th grade of " L " type clean room (G), the 8th grade of " L " type clean room (H) form waveform haze gas flow at the waveform haze gas passage be combined into, circular in cross-section (annular) or rectangle or other any geometries, the excircle upper end of the third level " L " type electrostatic cleaner room (C) of rectangular or circular or other any geometries in longitudinal section forms passage with the second level " L " type diversion chamber (B) excircle lower end or passage portion is connected, and the left end of the third level " L " type electrostatic cleaner room (C) forms passage with the excircle end of the fourth stage " L " type clean room (D) or passage portion is connected, circular in cross-section (annular) or rectangle or other any geometries, the excircle end of the fourth stage " L " type clean room (D) of rectangular or circular or other any geometries in longitudinal section forms passage with the inner periphery end of the third level " L " type electrostatic cleaner room (C) or passage portion is connected, and the inner periphery end of the fourth stage " L " type clean room (D) forms passage with the excircle end of level V " L " type electrostatic cleaner room (E) or passage portion is connected, circular in cross-section (annular) or rectangle or other any geometries, the excircle end of level V " L " type clean room (E) of rectangular or circular or other any geometries in longitudinal section forms passage with the inner periphery end of the fourth stage " L " type clean room (D) or passage portion is connected, and the inner periphery end of level V " L " type clean room (E) forms passage with the excircle end of the 6th grade of " L " type electrostatic cleaner room (F) or passage portion is connected, circular in cross-section (annular) or rectangle or other any geometries, the excircle end of the 6th grade of " L " type clean room (F) of rectangular or circular or other any geometries in longitudinal section forms passage with the inner periphery end of level V " L " type clean room (E) or passage portion is connected, and the inner periphery end of the 6th grade of " L " type clean room (F) forms passage with the excircle end of the 7th grade of L-type electrostatic cleaner room (G) or passage portion is connected, circular in cross-section (annular) or rectangle or other any geometries, the excircle end of the 7th JiLXing clean room (G) of rectangular or circular or other any geometries in longitudinal section forms passage with the inner periphery end of the 6th JiLXing clean room (F) or passage portion is connected, and the inner periphery end of the 7th JiLXing clean room (G) forms passage with the excircle end of the 8th JiLXing type clean room (I) or passage portion is connected, circular in cross-section (annular) or rectangle or other any geometries, the excircle end of the 8th JiLXing clean room (H) of rectangular or circular or other any geometries in longitudinal section forms passage with the inner periphery end of the 7th JiLXing clean room (G) or passage portion is connected, and the upper end of the 8th JiLXing clean room (G) forms passage with the lower end of de-purifying agent chamber (I) or passage portion is connected through current filter (14), circular in cross-section (annular) or rectangle or other any geometries, the lower end of the de-point purifying agent chamber (I) of rectangular or circular or other any geometries in longitudinal section forms passage with the upper end of the 8th JiLXing clean room (G) or passage portion is connected through current filter (14), and the excircle upper end taking off point purifying agent chamber (I) forms passage with the excircle lower end that exports room (J) of purifying air or passage portion is connected, circular in cross-section (annular) or rectangle or other any geometries, the excircle lower end that the purifying air of rectangular or circular or other any geometries in longitudinal section exports room (J) forms passage with the excircle upper end taking off point purifying agent chamber (I) or passage portion is connected, the upper end exporting room (J) that purifies air forms passage with the lower end of purified gas escape pipe (20) or passage portion is connected, and the upper end of purified gas escape pipe (20) forms passage with chimney (19) lower end or passage portion is connected, circular in cross-section (annular) or rectangle or other any geometries, the upper end of the purifying agent chamber (under K) of rectangular or circular or other any geometries in longitudinal section respectively with second level L-type diversion chamber (B), third level L-type electrostatic cleaner room (C), the fourth stage " L " type clean room (D), level V " L " type clean room (E), 6th grade of " L " type clean room (F), 7th JiLXing clean room (G), the lower end of the 8th JiLXing clean room (I) forms passage or passage portion connects, purifying agent chamber (K) interior splendid attire cleanser is to the spacing line place of cleanser stop (2).

Operation principle of the present invention: when haze source (haze flue gas) greenhouse gases being blown by air blast (pressure fan) (connecting haze source greenhouse gases entrance) suction through chimney, from haze output channel through haze smoke inlet pipe (25) to the first order " L " type clean room (A), under the effect of cleanser high-pressure sprayer, down move while eliminate a part of haze of purification on one side, haze gas through the second level " L " type diversion chamber (B) formed kick stream and torrent on one side down motion elimination on one side purify a part of haze source (haze flue gas) greenhouse gases, remaining haze source (haze flue gas) greenhouse gases through the third level " L " type electrostatic cleaner room (C) formed under the effect of purification electrostatic generator (34) electrostatic field and charged haze particle on one side down motion eliminate on one side and purify a part of haze source (haze flue gas) greenhouse gases, last haze source (haze flue gas) greenhouse gases are successively respectively through the fourth stage " L " type clean room (D), level V " L " type clean room (E), 6th grade of " L " type clean room (F), 7th grade of " L " type clean room (G), 8th grade of " L " type clean room (H) forms waveform mixing cleanser haze source (haze flue gas) greenhouse gases stream at waveform haze source (haze flue gas) the greenhouse gases passage mixing cleanser be combined into, and again respectively cleanser is sprayed to haze particle and dusty gas in cleanser High voltage output device group, wave travels forward while eliminate purification a part of haze source (haze flue gas) greenhouse gases on one side, finally in the cleanser of molten for haze source (haze flue gas) greenhouse gases intrusion purifying agent chamber (under K), carried out haze gas 98% to almost 100% haze source (haze flue gas) greenhouse gases, finally the elimination of haze source (haze flue gas) greenhouse gases is purified.

Beneficial effect of the present invention: " haze source greenhouse gases zero-emission machine " in the cleanser of molten for haze source (haze flue gas) greenhouse gases immersion purifying agent chamber (K), 98% to almost 100% haze source (haze flue gas) greenhouse gases eliminate purification.Solve global the biggest problem " environmental pollution ", really realize zero-emission, promote the well-being of mankind; Guarantee the healthy longevity of resident, really realize zero-emission, improve the quality of life of the people, benefit future generations; Guarantee haze air venting enterprise, really realize zero-emission, return to normal production, retrieve economic losses, create golden eggs, benefit the enterprise buying " haze air cleaner " product using us to produce; Guarantee really to realize zero-emission by all automobiles that " haze air " discharges, recover normally to travel use, retrieve economic losses, create profit, benefit the automobile operation people and end user that buy " haze air cleaner " product using us to produce; For " investor creates great riches, benefits investor." haze source greenhouse gases zero-emission machine " is cut down in the environmental protection of elimination haze source (haze flue gas) greenhouse gas emission in the whole world and is reached the highest peak.

Purposes of the present invention: chimney, the chimney of domestic heating boiler, the smoke exhaust ventilator of family's cooker cooking stove, train tail gas, the steamer tail gas of industrial chimney, vehicle exhaust, concentrated heating boiler; Aircraft tail gas; Space rocket tail gas; Motorcycle exhaust; Outdoor discharge; Indoor discharge; Generating set discharges; Engineering machinery is discharged; Other discharges such as the dust such as dust, construction site ash sandy soil in cement plant, the dust of processing of stone, the zero-emission purification of haze source (haze flue gas) greenhouse gas emission caused.

Accompanying drawing illustrates:

Below in conjunction with accompanying drawing, the present invention is further described.

The front view of Fig. 1-" haze source greenhouse gases zero-emission machine ";

The top view of Fig. 2-" haze source greenhouse gases zero-emission machine ";

1-purifying agent chamber leading section in figure; 2-cleanser upper limit device (magnetic valve); 3-cleanser lower retainer (magnetic valve); Bottom 4-purifying agent chamber; Greenhouse gases zero-emission machine leading section, 5-haze source; 6-inclination air deflector A; The horizontal air deflector A of 7-; 8-haze source greenhouse gases zero-emission machine medial end portions; 9-water conservancy diversion fixator; 10-erects long air deflector A; 11-erects short air deflector A; 12-erects long air deflector B; 13-erects short air deflector B; 14-current filter; 15-cleanser departs from drier; 16-purifying agent chamber rearward end; Greenhouse gases zero-emission machine upper end, 17-haze source; 18-air blast (pressure fan) (connecting haze source greenhouse gases entrance); 19-chimney (smoke-intake pipe or escape pipe); 20-" haze source greenhouse gases zero-emission machine " escape pipe; 21-motor; 22-" haze source greenhouse gases zero-emission machine " enters upper end, haze room; 23-haze source greenhouse gases zero-emission machine high-pressure sprayer; The loader (water pump of band motor) of 24-cleanser high-pressure injection; 25-haze source (haze flue gas) greenhouse gases air inlet pipe; 26-haze source greenhouse gases zero-emission machine " front side portion (containing rear lateral portion); 27-upper limit cleanser; The lower limit bit line of 28-lower limit cleanser; 29-purifying agent chamber front side portion (containing rear lateral portion); The clarifier-tank of 30-purifying agent chamber; 31-haze source greenhouse gases zero-emission machine " rearward end; 32-electrostatic depuration AC power; 33-electrostatic depuration dc source; 34-purifies electrostatic generator; 35-positive electrode; 36-pays electrode; 37-air and quick lime mixing purge gas injector; 38-water and quick lime or white lime slurries cleanser injector; 39-water and quick lime slurries cleanser; 40-gas quick lime mixing Purge gas; The controller of 41-cleanser upper limit device (magnetic valve); The normally closed button of 42-; 43-often drives button; 44-relay normally open contact; 45-relay; The controller of 46-cleanser lower retainer (magnetic valve); The controller of 47-cleanser loader (water pump of band motor); The controller of stop (magnetic valve) in 48-cleanser; 49-purifies the controller of electrostatic generator; The magnetic valve of cleanser is mended in 50-moisturizing; 51-relay; The magnetic valve of 52-cleanser upper limit device; 53-pump water inlet; 54-stops the upper limit float of moisturizing; 55-pump drain pipe; 56-starts the lower limit float of moisturizing; Spacing cleanser in 57-; The magnetic valve of stop in 58-cleanser; The magnetic valve of 59-cleanser lower retainer; The heat supply warmer of 60-cleanser heat exchanger; 61-funnel; What 62-haze source gas greenhouse gases became after purification can flow particles solid; 63-can flow particles solid export manual magnetic valve; The switch of 64-heat supply warmer; The hot water output valve of 65-heat supply warmer; The cold water input valve of 66-heat supply warmer; 67-supporting leg; 68-cleanser; The A-first order " L " type clean room (A); The B-second level " L " type diversion chamber (B); The C-third level " L " type electrostatic cleaner room (C); The D-fourth stage " L " type clean room (D); E-level V " L " type clean room (E); F-the 6th grade of " L " type clean room (F); G-the 7th grade of " L " type clean room (G); H-the 8th grade of " L " type clean room (I); The de-point purifying agent chamber (I) of I-; J-purifies air and exports room (J); K is upper-purifying agent chamber (on K); Under K-purifying agent chamber (under K); The entrance of L-water and quick lime slurries cleanser; The entrance of M-gas quick lime mixing Purge gas; N-bis-complete burners; O-post-ignition hood.

Detailed description of the invention:

Circular in cross-section (annular) or rectangle or other any geometries, the first order " L " type clean room (A) of rectangular or circular or other any geometries in longitudinal section is by upper end, greenhouse gases room, haze source (22); Cleanser high-pressure sprayer (23); Cleanser loader (24); Haze source (haze flue gas) greenhouse gases air inlet pipe (25); Haze source greenhouse gases zero-emission machine " front side portion (containing rear lateral portion) (26); Greenhouse gases zero-emission machine leading section, haze source (5); Haze source greenhouse gases zero-emission machine medial end portions (8), secondary complete burner (N), post-ignition hood (O), air blast (pressure fan) (connecting haze source greenhouse gases entrance) (18) (without air-introduced machine); The circular in cross-section of chimney (smoke-intake pipe or escape pipe) (19), motor (21), composition or rectangle or other any geometries, the first order " L " type clean room (A) of rectangular or circular or other any geometries in longitudinal section; Secondary burner guarantees that haze source greenhouse gases fully complete burning further, installs the direct outward supplying heat of heat supply warmer (60) of cleanser heat exchanger simultaneously or do not install the heat supply warmer (60) of cleanser heat exchanger; Secondary burner is made up of secondary complete burner (N), post-ignition hood (O); Be installed in haze source (haze flue gas) greenhouse gases air inlet pipe (25).The first order " L " type clean room (A) upper middle part inner periphery makes circular in cross-section (annular) or rectangle or other any geometries, the through hole of rectangular or circular or other any geometries in longitudinal section, lower end makes rectangular or circular or other any geometries of cross section, the through hole of rectangular or circular or other any geometries in longitudinal section, cleanser high-pressure sprayer (23) and cleanser loader (24) are arranged on clearing machine and enter on the annular ring peripheral of upper end, haze room (22), and wherein shower nozzle enters in the first order " L " type clean room (A), important technology feature: one, cleanser high-pressure sprayer (23) is the mobilization dynamic increasing haze flue gas and greenhouse gases, reduce resistance, take the cleanser injection direction of cleanser high-pressure sprayer (23) and haze source (haze flue gas) and the greenhouse gases direction of motion to install in the same manner, guarantee that cleanser injection direction and haze source (haze flue gas) and the greenhouse gases direction of motion spray cleanser to haze particle and dusty gas in the same manner, make the haze source (haze flue gas) in motion and greenhouse gases, in the first order " L " type clean room (A), with the cleanser in equidirectional motion under hydraulic state or impact, clash into and vibrate and neither endothermic nor exothermic state under fully contact and physical reactions and chemical reaction completely occur and all produce solid, make to enter haze source (haze flue gas) in purifying agent chamber (under K) and greenhouse gases and the cleanser (68) in purifying agent chamber (under K) impact, clash into and vibrate and neither endothermic nor exothermic state under fully contact and physical reactions and chemical reaction completely occur and all produce solid, its two, stop the liquid level position of the liquid level position (or water level) of the highest cleanser of control (or water) of the upper limit float (54) mending cleanser or moisturizing and upper limit cleanser (27) to be respectively 0 ± 10000000000mm with the bottom surface of the magnetic valve (52) (bottom surface of conductive channel) of cleanser upper limit device (magnetic valve) (2) (bottom surface of conductive channel), cleanser upper limit device, horizontal air deflector A (7), the discrepancy in elevation of bottom surface of erecting short air deflector A (11) respectively, its three, stop the liquid level position (or water level) of cleanser (or water) in the middle of the control of the upper limit float (54) of moisturizing and in the liquid level position of spacing cleanser (57) be respectively 0 ± 10000000000mm with the discrepancy in elevation of the magnetic valve (58) (bottom surface of conductive channel) of stop in cleanser, the bottom surface (bottom) of inclination air deflector A (6) respectively, they are four years old, the liquid level position (or water level) of the minimum cleanser of control (or water) of lower limit float (56) and the liquid level position of the lower limit bit line (28) of lower limit cleanser that start moisturizing are respectively 0 ± 10000000000mm with the discrepancy in elevation of the magnetic valve (59) (bottom surface of conductive channel) of cleanser lower retainer (magnetic valve) (3), cleanser lower retainer respectively, and the discrepancy in elevation being positioned at the bottom surface (bottom) of perpendicular short air deflector B (13) is respectively 10 ± 1000000000mm, they are five years old, the first order " L " type clean room (A) lower end forms passage with the second level " L " type diversion chamber (B) upper end or passage portion is connected, the first order " L " type clean room (A) left upper part with purify air export room (J) close be fixedly connected with, the first order " L " type clean room (A) left end bottom is closed with de-purifying agent chamber (I) and is fixedly connected with, the first order " L " type clean room (A) upper middle part right-hand member forms passage with haze source gas (haze flue gas) greenhouse gases air inlet pipe (25) left end or passage portion is connected, passage or passage portion is become to be connected with haze source (haze flue gas) greenhouse gases (chimney), its six, upper end, greenhouse gases room, haze source (22) respectively with haze source greenhouse gases zero-emission machine " front side portion (containing rear lateral portion) (26), greenhouse gases zero-emission machine leading section, haze source (5), haze source greenhouse gases zero-emission machine medial end portions (8) forms sealing and is fixedly connected, haze source greenhouse gases zero-emission down side portion (containing rear lateral portion) (26) respectively with greenhouse gases zero-emission machine leading section, haze source (5), haze source greenhouse gases zero-emission machine medial end portions (8) forms sealing and is fixedly connected, the loader (water pump of band motor) (24) of cleanser high-pressure injection is installed on the clarifier-tank (30) of purifying agent chamber, pump drain pipe (55) connects with loader (being with the water pump of motor) (24) the discharge outlet conducting of cleanser high-pressure injection, the controller (49) of the loader (water pump of band motor) (24) of cleanser high-pressure injection is respectively all by normally closed button (42), often drive button (43), relay normally open contact (44), relay (45) forms, after often opening button (43) and relay normally open contact (44) parallel connection, priority and normally closed button (42) successively, relay (45) is connected, the magnetic valve (50) of cleanser and relay main coil serial or parallel connection are mended in moisturizing, relay contact is with lower limit float (56) parallel connection of startup moisturizing or after connecting, with upper limit float (54) serial or parallel connection stopping moisturizing, with relay (51) serial or parallel connection, haze source (haze flue gas) greenhouse gases air inlet pipe (25) right-hand member is connected with the gas outlet conducting of air blast (pressure fan) (connecting haze source greenhouse gases entrance) (18), chimney (smoke-intake pipe or escape pipe) (19) is connected with the air intake conducting of air blast (pressure fan) (connecting haze source greenhouse gases entrance) (18) (without air-introduced machine), " haze source greenhouse gases zero-emission machine " escape pipe (20) can be identical with haze source (haze flue gas) greenhouse gases air inlet pipe (25) or dock and be connected with the gas outlet conducting of air blast (pressure fan) (connecting haze source greenhouse gases entrance) (18) (without air-introduced machine) after being connected, passage or passage portion is become to connect, motor (21) is connected with the power transmission shaft of air blast (pressure fan) (connecting haze source greenhouse gases entrance) (18) (without air-introduced machine), the first order " L " type clean room (A), the second level " L " type clean room (B), the third level " L " type clean room (C), the fourth stage " L " type clean room (D), level V " L " type clean room (E), 6th grade of " L " type clean room (F), 7th grade of " L " type clean room (G), 8th grade of waveform haze source gas (haze flue gas) the greenhouse gases passage that " L " type clean room (H) is being combined into forms waveform haze source gas (haze flue gas) greenhouse gases stream, the first order " L " type clean room (A) or the first order " L " type clean room (A), the second level " L " type clean room (B), the third level " L " type clean room (C), the fourth stage " L " type clean room (D), level V " L " type clean room (E), the 6th grade of " L " type clean room (F), the 7th JiLXing clean room (G), the 8th grade of " L " type clean room (H) arrange respectively or do not arrange cleanser High voltage output device group A (37), cleanser High voltage output device group B (38), cleanser High voltage output device group C (39), cleanser High voltage output device group D (40), cleanser High voltage output device group E (41) sprays cleanser to haze source gas (haze flue gas) greenhouse gases respectively.

Circular in cross-section (annular) or rectangle or other any geometries, the second level " L " type diversion chamber (B) of rectangular or circular or other any geometries in longitudinal section is by greenhouse gases zero-emission machine leading section, haze source (5); Inclination air deflector A; Horizontal air deflector A (7); Haze source greenhouse gases zero-emission machine medial end portions (8); Haze source greenhouse gases zero-emission machine " front side portion (containing rear lateral portion) (26); Electrostatic depuration AC power (32); Electrostatic depuration dc source (33); Purification electrostatic generator (34); Positive electrode (35); Pay the circular in cross-section (annular) that forms of electrode (36) or rectangle or other any geometries, the second level " L " type diversion chamber (B) of rectangular or circular or other any geometries in longitudinal section; Important technology feature: one, the technical characteristic of inclination air deflector A (6) is that inclination air deflector A (6) connects follow-up reneing with horizontal air deflector A (7) and stretches 0 ± 10000000000mm, formed inclination air deflector A (6) lower than the bottom surface of horizontal air deflector A (7) bottom go out or exceed 0 ± 10000000000mm, inclination air deflector A (6) is respectively 0 ± 10000000000mm with the discrepancy in elevation of the bottom surface of horizontal air deflector A (7) bottom; They are two years old, formed inclination air deflector A (6) lower than the bottom surface of perpendicular short air deflector A (11) bottom go out or exceed 0 ± 10000000000mm, inclination air deflector A (6) is respectively 0 ± 10000000000mm with the discrepancy in elevation of the bottom surface of perpendicular short air deflector A (11) bottom; Its lower surface (bottom surface) of three, inclination air deflector A (6) and in spacing cleanser (57) contour or not contour; Under the injection cleanser effect of cleanser high-pressure sprayer (23), inclination air deflector A (6) and horizontal air deflector A (7) and upper limit cleanser (27) or in spacing cleanser (57) form check valve along the reverse unidirectional not conducting of haze source greenhouse gases direction of motion forward one-way conduction; Under the injection cleanser effect of cleanser high-pressure sprayer (23), inclination air deflector A (6) and horizontal air deflector A (7) and lower limit cleanser (28) form half check valve of unidirectional half conducting; Haze source greenhouse gases can only enter, can not be out; Bottom its four, inclination air deflector A (6) relative purifying agent chamber, (4), greenhouse gases zero-emission machine leading section, haze source (5), " haze source greenhouse gases zero-emission machine " enter upper end, haze room (22) gap and install; Its five, inclination air deflector A (6) with haze source greenhouse gases zero-emission machine " front side portion (containing rear lateral portion) (26) seal to be fixedly connected and install; Its six, the lower surface (bottom surface) of horizontal air deflector A (7) is contour or not contour with the lower surface (bottom surface) of perpendicular short air deflector A (11); Its lower surface (bottom surface) of seven, inclination air deflector A (6) is contour or not contour with the lower surface (bottom surface) of perpendicular short air deflector B (13); The lower surface (bottom surface) that prioritizing selection erects short air deflector B (13) is than the low or high 0 ± 10000000000mm in the lower surface (bottom surface) of inclination air deflector A (6) or double altitudes, and the lower surface (bottom surface) of perpendicular short air deflector B (13) is respectively 0 ± 10000000000mm than the discrepancy in elevation of the lower surface (bottom surface) of inclination air deflector A (6); They are eight years old, inclination air deflector A (6) relatively greenhouse gases zero-emission machine leading section, haze source (5), clearance distance be 0 ± 10000000000mm, inclination air deflector A (6) relatively greenhouse gases zero-emission machine leading section, haze source (5), clearance distance prioritizing selection be greenhouse gases zero-emission machine leading section, haze source (5) and 1/2nd of the distance of haze source greenhouse gases zero-emission machine medial end portions (8); Greenhouse gases zero-emission machine leading section, haze source (5) is little larger or equal than the cross-sectional area of haze source (haze flue gas) greenhouse gases air inlet pipe (25) with the distance interval area of haze source greenhouse gases zero-emission machine medial end portions (8); Its nine, inclination air deflector A (6) relative greenhouse gases zero-emission machine leading section, haze source (5), interval area little larger or equal than the cross-sectional area of haze source (haze flue gas) greenhouse gases air inlet pipe (25); Prioritizing selection inclination air deflector A (6) relatively greenhouse gases zero-emission machine leading section, haze source (5), interval area less than the cross-sectional area of haze source (haze flue gas) greenhouse gases air inlet pipe (25); Its lower surface (bottom surface) of ten, inclination air deflector A (6) is contour or not contour with the lower surface (bottom surface) of perpendicular short air deflector B (13); The lower surface (bottom surface) that prioritizing selection erects short air deflector B (13) is than the low or high 0 ± 10000000000mm in the lower surface (bottom surface) of inclination air deflector A (6) or double altitudes, and the lower surface (bottom surface) of perpendicular short air deflector B (13) is respectively 0 ± 10000000000mm than the discrepancy in elevation of the lower surface (bottom surface) of inclination air deflector A (6); Under the injection cleanser effect of cleanser high-pressure sprayer (23), inclination air deflector A (6) and horizontal air deflector A (7) and upper limit cleanser (27) or in spacing cleanser (57) and perpendicular short air deflector B (13) formed enter this region one-way conduction along the haze source greenhouse gases direction of motion, leave the check valve of the reverse unidirectional not conducting in this region; Haze source greenhouse gases can only enter, can not be out; The lower end that haze source greenhouse gases zero-emission machine medial end portions (8) of the second level " L " type diversion chamber (B) left end is vertical is fixedly connected with the horizontal air deflector A (7) of horizontal positioned, and inclination air deflector A (6) strengthens horizontal air deflector A (7) and haze source greenhouse gases zero-emission machine medial end portions (8) to be connected; The second level " L " type diversion chamber (B) upper end makes through hole, lower end makes circular in cross-section (annular) or rectangle or other any geometries, and longitudinal section be trapezoidal or the partial through holes of rectangle or circle or other any geometries or through hole; Upper end forms passage with the first order " L " type clean room (A) lower end or passage portion conducting is connected, and the second level " L " type diversion chamber (B) bottom righthand side forms passage with the upper right side of the third level " L " type electrostatic cleaner room (C) or passage portion is connected.

Circular in cross-section (annular) or rectangle or other any geometries, the third level " L " type electrostatic cleaner room (C) of rectangular or circular or other any geometries in longitudinal section is by greenhouse gases zero-emission machine leading section, haze source (5); Inclination air deflector A (6); Horizontal air deflector A (7); Haze source greenhouse gases zero-emission machine medial end portions (8); Haze source greenhouse gases zero-emission machine " front side portion (containing rear lateral portion) (26); Vertical preset piece (27); Horizontal preset piece (28); Electrostatic depuration AC power (32); Electrostatic depuration dc source (33); Purification electrostatic generator (34); Positive electrode (35); Pay the circular in cross-section (annular) that forms of electrode (36) or rectangle or other any geometries, the third level L-type electrostatic cleaner room (C) of rectangular or circular or other any geometries in longitudinal section; The vertical lower end of haze source greenhouse gases zero-emission machine medial end portions (8) of third level L-type electrostatic cleaner room (C) inner periphery upper end is fixedly connected with the horizontal air deflector A (7) of horizontal positioned, and inclination air deflector A (6) strengthens horizontal air deflector A (7) and haze source greenhouse gases zero-emission machine medial end portions (8) to be connected; Third level L-type electrostatic cleaner room (C) excircle upper end makes partial through holes or through hole, and bottom makes through hole, and inner periphery end makes through hole; Excircle upper end and the second level " L " type diversion chamber (B) excircle lower end forming section passage or expanding channels, the inner periphery end of third level L-type electrostatic cleaner room (C) forms passage with the excircle end of the fourth stage " L " type clean room (D) or passage portion is connected; Important technology feature: one, the technical characteristic of inclination air deflector A (6) is that inclination air deflector A (6) connects follow-up reneing with horizontal air deflector A (7) and stretches 0 ± 10000000000mm, formed inclination air deflector A (6) lower than the bottom surface of horizontal air deflector A (7) bottom go out or exceed 0 ± 10000000000mm, inclination air deflector A (6) is respectively 0 ± 10000000000mm with the discrepancy in elevation of the bottom surface of horizontal air deflector A (7) bottom; Its two, the bottom surface of horizontal air deflector A (7) is contour or not contour with the bottom surface of perpendicular short air deflector A (11), and prioritizing selection is contour; Its three, inclination air deflector A (6), horizontal air deflector A (7), haze source greenhouse gases zero-emission machine medial end portions (8) relatively bottom purifying agent chamber (4), greenhouse gases zero-emission machine leading section, haze source (5), perpendicular long air deflector A (10) gap install; It four, inclination air deflector A (6) seals to be fixedly connected install with horizontal air deflector A (7); Haze source greenhouse gases zero-emission machine medial end portions (8) and horizontal air deflector A (7) seal to be fixedly connected installs; Its lower surface (bottom surface) of five, inclination air deflector A (6) is contour or not contour with upper limit cleanser (27); Its lower surface (bottom surface) of six, inclination air deflector A (6) is contour or not contour with the lower surface (bottom surface) of perpendicular short air deflector B (13); The lower surface (bottom surface) that prioritizing selection erects short air deflector B (13) is than the low or high 0 ± 10000000000mm in the lower surface (bottom surface) of inclination air deflector A (6) or double altitudes, and the lower surface (bottom surface) of perpendicular short air deflector B (13) is respectively 0 ± 10000000000mm than the discrepancy in elevation of the lower surface (bottom surface) of inclination air deflector A (6); Under the injection cleanser effect of cleanser high-pressure sprayer (23), inclination air deflector A (6) and horizontal air deflector A (7) and upper limit cleanser (27) or in spacing cleanser (57) and perpendicular short air deflector B (13) formed enter this region one-way conduction along the haze source greenhouse gases direction of motion, leave the check valve of the reverse unidirectional not conducting in this region; Haze source greenhouse gases can only enter, can not be out; The controller (48) of electrostatic cleaner stop (magnetic valve) is respectively all by normally closed button (42); Often drive button (43); Relay normally open contact (44); Relay (45) forms; After often opening button (43) and relay normally open contact (44) parallel connection, priority and normally closed button (42) successively; Relay (45) is connected; Serial or parallel connection is distinguished with relay main coil positive and negative electrode after electrostatic depuration AC power (32) and electrostatic depuration dc source (33) serial or parallel connection; With purification electrostatic generator (34) serial or parallel connection; With positive electrode (35) serial or parallel connection; With pair electrode (36) serial or parallel connection.

Circular in cross-section (annular) or rectangle or other any geometries, the fourth stage " L " type clean room (D) of rectangular or circular or other any geometries in longitudinal section is by haze source greenhouse gases zero-emission machine " front side portion (containing rear lateral portion) (8); Water conservancy diversion fixator (9); Perpendicular long air deflector A (10); Haze source greenhouse gases zero-emission machine " front side portion (containing rear lateral portion) (26); The lower limit bit line (28) of lower limit cleanser; Upper limit cleanser (27); The circular in cross-section (annular) of composition or rectangle or other any geometries, the fourth stage " L " type clean room (D) of rectangular or circular or other any geometries in longitudinal section; The fourth stage " L " type clean room (D) excircle end makes through hole, and lower end makes through hole, and inner periphery end makes through hole; The excircle end of the fourth stage " L " type clean room (D) forms passage with the inner periphery end of the third level " L " type electrostatic cleaner room (C) or passage portion is connected, and the inner periphery end of the fourth stage " L " type clean room (D) forms passage with the excircle end of level V " L " type electrostatic cleaner room (E) or passage portion is connected; Important technology feature: one, perpendicular long air deflector A (10) above-below direction is of a size of 0.5 times ± 100 times of the size of perpendicular short air deflector A (11) above-below direction, prioritizing selection 2 times; They are two years old, the installation dimension of perpendicular long air deflector A (10) above-below direction is the perpendicular upper end of long air deflector A (10) and the lower surface clearance distance 0 ± 10000000000mm of water conservancy diversion fixator (9), and prioritizing selection is 0.5 times of the size of perpendicular short air deflector A (11) above-below direction; Its three, perpendicular long air deflector A (10) and water conservancy diversion fixator (9) gap are installed, bottom perpendicular long air deflector A (10) and purifying agent chamber (4), the installation of funnel (61) gap; Its four, perpendicular long air deflector A (10) and haze source greenhouse gases zero-emission machine " front side portion (containing rear lateral portion) (26) seal to be fixedly connected and install; Its five, the lower surface (bottom surface) of horizontal air deflector A (7) is contour or not contour with the lower surface (bottom surface) of perpendicular short air deflector A (11).

Circular in cross-section (annular) or rectangle or other any geometries, level V " L " type clean room (E) of rectangular or circular or other any geometries in longitudinal section is by haze source greenhouse gases zero-emission machine medial end portions (8); Perpendicular long air deflector A (10); Perpendicular short air deflector A (11); Haze source greenhouse gases zero-emission machine " (clearing machine) front side portion (containing rear lateral portion) (26); Upper limit cleanser (vertical preset piece) (27); The circular in cross-section (annular) that the lower limit bit line (horizontal preset piece) (28) of lower limit cleanser forms or rectangle or other any geometries, level V " L " type clean room (E) of rectangular or circular or other any geometries in longitudinal section; Level V " L " type clean room (E) excircle end makes through hole, and lower end makes through hole, and inner periphery end makes through hole; The excircle end of level V " L " type clean room (E) forms passage with the inner periphery end of the fourth stage " L " type clean room (D) or passage portion is connected, and the inner periphery end of level V " L " type clean room (E) forms passage with the excircle end of the 6th grade of " L " type electrostatic cleaner room (F) or passage portion is connected; Important technology feature: one, perpendicular long air deflector A (10) above-below direction is of a size of 0.5 times ± 100 times of the size of perpendicular short air deflector A (11) above-below direction, prioritizing selection 2 times; They are two years old, the installation dimension of perpendicular long air deflector A (10) above-below direction is the perpendicular upper end of long air deflector A (10) and the lower surface clearance distance 0 ± 10000000000mm of water conservancy diversion fixator (9), and prioritizing selection is 0.5 times of the size of perpendicular short air deflector A (11) above-below direction; Its three, perpendicular long air deflector A (10) and water conservancy diversion fixator (9) gap are installed, bottom perpendicular long air deflector A (10) and purifying agent chamber (4), the installation of funnel (61) gap; Its four, perpendicular long air deflector A (10) and haze source greenhouse gases zero-emission machine " front side portion (containing rear lateral portion) (26) seal to be fixedly connected and install.

Circular in cross-section (annular) or rectangle or other any geometric form longitudinal sections are rectangular or circular or the 6th grade of " L " type clean room (F) of other any geometries by haze source greenhouse gases zero-emission machine medial end portions (8); Perpendicular short air deflector A (11); Perpendicular long air deflector B (12); Haze source greenhouse gases zero-emission machine " (clearing machine) front side portion (containing rear lateral portion) (26); Upper limit cleanser (27); The circular in cross-section (annular) that the lower limit bit line (28) of lower limit cleanser forms or rectangle or other any geometries, the 6th grade of " L " type clean room (F) of rectangular or circular or other any geometries in longitudinal section; 6th grade of " L " type clean room (F) excircle end makes through hole, and lower end makes through hole, and inner periphery end makes through hole; The excircle end of the 6th grade of " L " type clean room (F) forms passage with the inner periphery end of level V " L " type clean room (E) or passage portion is connected, and the inner periphery end of the 6th grade of " L " type clean room (F) forms passage with the excircle end of the 7th grade of " L " type electrostatic cleaner room (G) or passage portion is connected; Important technology feature: one, perpendicular long air deflector B (12) above-below direction is of a size of 0.5 times ± 100 times of the size of perpendicular short air deflector A (11) above-below direction, prioritizing selection 2 times; They are two years old, the installation dimension of perpendicular long air deflector B (12) above-below direction is the perpendicular upper end of long air deflector B (12) and the lower surface clearance distance 0 ± 10000000000mm of water conservancy diversion fixator (9), and prioritizing selection is 0.5 times of the size of perpendicular short air deflector A (11) above-below direction; Its three, perpendicular long air deflector B (12) and water conservancy diversion fixator (9) gap are installed, bottom perpendicular long air deflector B (12) and purifying agent chamber (4), the installation of funnel (61) gap; Its four, perpendicular long air deflector B (12) and haze source greenhouse gases zero-emission machine " front side portion (containing rear lateral portion) (26) seal to be fixedly connected and install; Its five, the size of perpendicular long air deflector B (12) above-below direction is contour or not contour with the size of perpendicular long air deflector A (10) above-below direction.

Circular in cross-section (annular) or rectangle or other any geometries, the 7th grade of " L " type clean room (G) of rectangular or circular or other any geometries in longitudinal section is by haze source greenhouse gases zero-emission machine medial end portions (8); Perpendicular long air deflector B (12); Perpendicular short air deflector B (13); Haze source greenhouse gases zero-emission machine " (clearing machine) front side portion (containing rear lateral portion) (26); Upper limit cleanser (27); The circular in cross-section (annular) that the lower limit bit line (28) of lower limit cleanser forms or rectangle or other any geometries, the 7th grade of " L " type clean room (G) of rectangular or circular or other any geometries in longitudinal section; 7th grade of " L " type clean room (G) excircle end makes through hole, and lower end makes through hole, and inner periphery end makes through hole; The excircle end of the 7th grade of " L " type clean room (G) forms passage with the inner periphery end of the 6th grade of " L " type clean room (F) or passage portion is connected, and the inner periphery end of the 7th grade of " L " type clean room (G) forms passage with the excircle end of the 8th grade of " L " type electrostatic cleaner room (H) or passage portion is connected; Important technology feature: one, the technical characteristic of perpendicular short air deflector B (13) is that perpendicular short air deflector B (13) stretches 0 ± 10000000000mm than perpendicular follow-up the reneing of short air deflector A (11) co-altitude, perpendicular short air deflector B (13) and inclination air deflector A (6) contour or not contour, formed perpendicular short air deflector B (13) of inclining lower than the bottom surface erecting short air deflector A (11) go out or exceed 0 ± 10000000000mm; Its two, under the injection cleanser effect of cleanser high-pressure sprayer (23), perpendicular short air deflector B (13) forms the unidirectional stop valve of the oppositely unidirectional not conducting of haze source greenhouse gases direction of motion forward unidirectional cutoff not conducting; Perpendicular short air deflector B (13) and inclination air deflector A (6) and horizontal air deflector A (7) and upper limit cleanser (27) or in spacing cleanser (57) formation along the check valve of the reverse unidirectional not conducting of haze source greenhouse gases direction of motion forward one-way conduction; Its lower surface (bottom surface) of three, inclination air deflector A (6) is contour or not contour with the lower surface (bottom surface) of perpendicular short air deflector B (13); The lower surface (bottom surface) that prioritizing selection erects short air deflector B (13) is than the low or high 0 ± 10000000000mm in the lower surface (bottom surface) of inclination air deflector A (6) or double altitudes, and the lower surface (bottom surface) of perpendicular short air deflector B (13) is respectively 0 ± 10000000000mm than the discrepancy in elevation of the lower surface (bottom surface) of inclination air deflector A (6); Under the injection cleanser effect of cleanser high-pressure sprayer (23), inclination air deflector A (6) and horizontal air deflector A (7) and upper limit cleanser (27) or in spacing cleanser (57) and perpendicular short air deflector B (13) formed enter this region one-way conduction along the haze source greenhouse gases direction of motion, leave the check valve of the reverse unidirectional not conducting in this region; Haze source greenhouse gases can only enter, can not be out; Under the injection cleanser effect of cleanser high-pressure sprayer (23), inclination air deflector A (6) and horizontal air deflector A (7) and lower limit cleanser (28) form half check valve of unidirectional half conducting; Perpendicular short air deflector B (13) and inclination air deflector A (stiffened panel) (6) and horizontal air deflector A (7) and upper limit cleanser (27) or in spacing cleanser (57) formation along the check valve of the reverse unidirectional not conducting of haze source greenhouse gases direction of motion forward one-way conduction, guarantee haze source greenhouse gases only import but no export, in third level L-type clean room (C); Fourth stage L-type clean room (D); Level V L-type clean room (E); 6th grade of " L " type clean room (F); Mandatory generation chemical reaction in 7th grade of " L " type clean room (G): chemical reaction is all carried out in haze source and greenhouse gases and produces precipitable solid for construction material.

Circular in cross-section (annular) or rectangle or other any geometries, the 8th grade of " L " type clean room (H) of rectangular or circular or other any geometries in longitudinal section is by haze source greenhouse gases zero-emission machine medial end portions (8); Perpendicular long air deflector B (12); Perpendicular short air deflector B (13); Haze source greenhouse gases zero-emission down side portion (containing rear lateral portion) (26); Upper limit cleanser (27); The circular in cross-section (annular) that the lower limit bit line (28) of lower limit cleanser forms or rectangle or other any geometries, the 8th grade of " L " type clean room (H) of rectangular or circular or other any geometries in longitudinal section; 8th grade of " L " type clean room (H) excircle end makes through hole, and lower end makes through hole, and inner periphery end makes through hole; The excircle end of the 8th grade of " L " type clean room (H) forms passage with the inner periphery end of the 7th grade of " L " type clean room (G) or passage portion is connected, and the upper end of the 8th grade of " L " type clean room (H) forms passage with de-point purifying agent chamber (I) lower-left end or passage portion is connected.

Circular in cross-section (annular) or rectangle or other any geometries, the de-point purifying agent chamber (I) of rectangular or circular or other any geometries in longitudinal section is by water conservancy diversion fixator (9); Current filter (14); Cleanser departs from drier (15); Greenhouse gases zero-emission machine upper end, haze source (17); The pressure fan (entrance) of air blast or air-introduced machine (outlet) (as far as possible without air-introduced machine) (18); Chimney (smoke-intake pipe or escape pipe) (19); The purified gas escape pipe (20) of haze source greenhouse gases zero-emission machine; Motor (21); Haze source greenhouse gases zero-emission machine " front side portion (containing rear lateral portion) (26); The circular in cross-section (annular) that haze source greenhouse gases zero-emission machine rearward end (31) forms or rectangle or other any geometries, a de-point purifying agent chamber (I) for rectangular or circular or other any geometries in longitudinal section; De-point purifying agent chamber (I) inner periphery lower end makes through hole, and excircle upper end makes through hole; De-point of inner periphery lower end of purifying agent chamber (I) is with the upper end of the 8th grade of " L " type clean room (H) or inner periphery upper end forms passage or passage portion is connected, and the excircle upper end taking off point purifying agent chamber (I) forms passage with the excircle lower end that exports room (J) of purifying air or passage portion is connected.

Circular in cross-section (annular) or rectangle or other any geometries, rectangular or circular or the purifying air of other any geometries in longitudinal section exports room (J) by water conservancy diversion fixator (9); Current filter (14); Cleanser departs from drier (15); Greenhouse gases zero-emission machine upper end, haze source (17); Chimney (19); " haze source greenhouse gases zero-emission machine " escape pipe (20); Haze source greenhouse gases zero-emission machine " front side portion (containing rear lateral portion) (26); Haze source greenhouse gases zero-emission machine " circular in cross-section (annular) that forms of rearward end (31) or rectangle or other any geometries, rectangular or circular or the purifying air of other any geometries in longitudinal section exports room (J); Purify air and export room (J) excircle lower end making through hole, inner periphery upper end makes through hole; The excircle lower end exporting room (J) that purifies air forms passage with the excircle upper end of de-purifying agent chamber (I) or passage portion is connected, and the inner periphery upper end of output room (J) that purifies air forms passage with the lower end of " haze source greenhouse gases zero-emission machine " escape pipe (20) or passage portion is connected.

Circular in cross-section (annular) or rectangle or other any geometries, the purifying agent chamber (under K) of rectangular or circular or other any geometries in longitudinal section is by haze source greenhouse gases zero-emission machine " front side portion (containing rear lateral portion) (26), the second level " L " type diversion chamber (B), the third level " L " type electrostatic cleaner room (C), the fourth stage " L " type clean room (D), level V " L " type clean room (E), 6th grade of " L " type clean room (F), 7th grade of " L " type clean room (G), the lower end of the 8th grade of " L " type clean room (I), the heat supply warmer (60) of cleanser heat exchanger and funnel (61), supporting leg (67) forms, important technology feature: the upper end of purifying agent chamber (under K) forms passage with the lower end of the second level " L " type diversion chamber (B), the third level " L " type electrostatic cleaner room (C), the fourth stage " L " type clean room (D), level V " L " type clean room (E), the 6th grade of " L " type clean room (F), the 7th grade of " L " type clean room (G), the 8th grade of " L " type clean room (I) respectively or passage portion is connected, the lower end of purifying agent chamber (under K) forms passage with funnel (61) or passage portion is connected, purifying agent chamber (under K) and haze source greenhouse gases zero-emission machine " front side portion (containing rear lateral portion) (26) form sealing and be fixedly connected, the excircle end of purifying agent chamber (under K) is respectively by cleanser upper limit device (magnetic valve) (2), the magnetic valve (58) of stop in cleanser, cleanser lower retainer (magnetic valve) (3), with the clarifier-tank (30) of purifying agent chamber, control conducting and control not conducting to connect, cleanser upper limit device (magnetic valve) (2), the magnetic valve (58) of stop in cleanser, cleanser lower retainer (magnetic valve) (3) are rectangular or circular or other any geometries by cross section, and the pipe of " U " type of rectangular or circular or other any geometries in longitudinal section or " L " type or rectangle or circular or other any geometries or square tube or tubing and control are opened and is composed in series with the magnetic valve controlling to close, cleanser upper limit device (magnetic valve) (2), the magnetic valve (58) of stop in cleanser, the stop (magnetic valve) of cleanser lower retainer (magnetic valve) (3) is respectively by the controller (cleanser High voltage output device group E) (41) of cleanser upper limit device (magnetic valve), the controller (46) of cleanser lower retainer (magnetic valve), controller (48) composition of stop (magnetic valve) in cleanser, the controller (cleanser High voltage output device group E) (41) of cleanser upper limit device (magnetic valve), the controller (46) of cleanser lower retainer (magnetic valve), in cleanser, the controller (48) of stop (magnetic valve) is respectively all by normally closed button (42), often drive button (43), relay normally open contact (44), relay (45) forms, after often opening button (43) and relay normally open contact (44) parallel connection, priority and normally closed button (42) successively, , relay (45) connect, relay main coil positive and negative electrode respectively with cleanser upper limit device (magnetic valve) (2), the magnetic valve (58) of stop in cleanser, cleanser lower retainer (magnetic valve) (3) coupled in series, the injection cleanser direction of cleanser high-pressure sprayer (23) and haze source (haze flue gas) and the greenhouse gases direction of motion spray cleanser to haze particle and dusty gas in the same manner, make haze source (haze flue gas) and greenhouse gases and cleanser under hydraulic state, fully contact jet flow to purifying agent chamber (under K) physical reactions and chemical reaction completely occur further all to generate solid, what form that haze source gas greenhouse gases become after purification can flow particles solid (calcium carbonate, calcium sulfate, calcium nitrate etc.) (can be used as environmental-friendly construction material) (62) be down deposited to funnel (61), through downwards (can be used as environmental-friendly construction material) can be discharged by the manual magnetic valve (63) that exports of flow particles solid, supporting leg (67) is installed on greenhouse gases zero-emission machine lower end, haze source, the heat supply warmer (60) of cleanser heat exchanger forms by organizing often group multitube heat pipe more, and upper end connects with the hot water output valve (65) of heat supply warmer, switch (64) conducting of heat supply warmer, lower end inputs valve (66) with the cold water of heat supply warmer, the switch of heat supply warmer connects, be installed in funnel (61) together, funnel (61) be below haze source gas greenhouse gases become after purification can flow particles solid (62), funnel (61) is installed below can the manual magnetic valve (63) that exports of flow particles solid.Circular in cross-section (annular) or rectangle or other any geometries, longitudinal section purifying agent chamber (on K) that is rectangular or circular or other any geometries mixes purge gas injector (37) by air and quick lime; Water and quick lime or white lime slurries cleanser injector (38); Water and quick lime slurries cleanser (cleanser High voltage output device group C) (39); Gas quick lime mixing Purge gas (cleanser High voltage output device group D) (40); Greenhouse gases zero-emission machine leading section, haze source (5); Haze source greenhouse gases zero-emission machine enters upper end, haze room (22); Haze source (haze flue gas) greenhouse gases air inlet pipe (25); Haze source greenhouse gases zero-emission down side portion (containing rear lateral portion) (26) forms; Purifying agent chamber (on K) excircle lower end connects with the upper middle part inner periphery end conducting in first order L-type clean room (A) or part; Output channel lower end air and the quick lime of purifying agent chamber (on K) upper end and haze source (haze flue gas) and greenhouse gases mix purge gas injector (37); Water and quick lime or injector (38) conducting of white lime slurries cleanser or half conducting connect; The entrance (M) of the gas quick lime mixing Purge gas of air and quick lime mixing purge gas injector (37); For circular or rectangle or any geometry through hole, be positioned at excircle lower end or inner periphery lower end; Water and quick lime or white lime slurries cleanser injector (the cleanser High voltage output device group B) water of (38) and the entrance (L) of quick lime slurries cleanser are circular or rectangle or any geometry through hole, are positioned at excircle lower end or inner periphery lower end; Air and quick lime mixing purge gas injector (cleanser High voltage output device group A) (37) are higher or lower than water and quick lime or white lime slurries cleanser injector (cleanser High voltage output device group B) (38); Air and quick lime mixing purge gas injector (cleanser High voltage output device group A) (37); Water and quick lime or white lime slurries cleanser injector (cleanser High voltage output device group B) (38); Water and quick lime slurries cleanser (cleanser High voltage output device group C) (39); Gas quick lime mixing Purge gas (cleanser High voltage output device group D) (40) is installed on purifying agent chamber (on K).

Claims (10)

1. " haze source greenhouse gases zero-emission machine " (Fig. 1), 1. by haze source (haze flue gas) greenhouse gases air inlet pipe (25); First order cleanser high-pressure sprayer (23) (24); The first order " L " type clean room (A) (5, B, 7,8,22,23,24,25); The second level " L " type diversion chamber (B) (5, C, 32,33,34,35,36,6,7,8, A); Third level electrostatic cleaner (34) (5, C, 32,33,34,35,36,6,7,8, A); The third level " rectangle " electrostatic depuration room (C) (5,28, D, 32,33,34,35,36,6,7,8, B); The fourth stage " L " type clean room (D) (C, 28,10, E, 9,37,8); Level V " L " type clean room (E) (10,28, F, 11,9,38, D); 6th grade of " L " type clean room (F) (E, 28,12, G, 9,39,11); 7th grade of " L " type clean room (G) (12,28, H, 13,9,40, F); 8th grade of " L " type clean room (H) (G, 28,31, I, 14,41,13); De-point purifying agent chamber (I) (26) (9,14,31,15, J, 8); Purify air and export room (J) (I, 15,31,17,18,20,8); Purifying agent chamber (on K) (4,16,27,28,29,30,1,2,3,57); Purifying agent chamber (under K) (2,58,3,30,2,58,3); Electric automatic control room (Non-follow control room of holding concurrently) (41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,58,59); De-point purifying agent chamber (I) (9), 14,15,17); Purify air and export room (J) (9,14,15,17,18,19,20,21,26,31); The controller (cleanser High voltage output device group E) (41,6,48,42,43,44,45) of cleanser upper limit device (magnetic valve); Cleanser high-pressure sprayer (23,62,61,63); Secondary complete burner (N) (60,0,25); The heat supply warmer (60,65,64,66,61,62,63) of cleanser heat exchanger; The pressure fan (entrance) of air blast or air-introduced machine (outlet) (as far as possible without air-introduced machine) (18); Chimney (smoke-intake pipe or escape pipe) (19); The purified gas escape pipe (20) of haze source greenhouse gases zero-emission machine; Motor (21); Supporting leg (67) etc. 28 major part composition.It is characterized in that: circular in cross-section (annular) or rectangle or other any geometries, the first order " L " type clean room (A) lower end that is rectangular or circular or other any geometries, longitudinal section forms passage with the second level " L " type diversion chamber (B) upper end or passage portion is connected, the first order " L " type clean room (A) inner periphery end top exports room (J) and is sealedly and fixedly connected with purifying air, the first order " L " type clean room (A) inner periphery end bottom and de-purifying agent chamber (I) are sealedly and fixedly connected, the first order " L " type clean room (A) inner periphery end top forms passage with haze smoke inlet pipe (25) excircle end or passage portion is connected, haze smoke inlet pipe (25) upper end or lower end and haze input or output pipeline and form passage or passage portion is connected, circular in cross-section (annular) or rectangle or other any geometries, the second level " L " type diversion chamber (B) upper end of rectangular or circular or other any geometries in longitudinal section and the first order " L " type clean room (A) lower end forming section expanding channels, the second level " L " type diversion chamber (B) excircle lower end forms passage with the excircle upper end of the third level " L " type electrostatic cleaner room (C) or passage portion is connected, the second level " L " type diversion chamber (B), the third level " L " type electrostatic cleaner room (C), the fourth stage " L " type clean room (D), level V " L " type clean room (E), the 6th grade of " L " type clean room (F), the 7th grade of " L " type clean room (G), the 8th grade of " L " type clean room (H) form waveform haze gas flow at the waveform haze gas passage be combined into, circular in cross-section (annular) or rectangle or other any geometries, the excircle upper end of the third level " L " type electrostatic cleaner room (C) of rectangular or circular or other any geometries in longitudinal section forms passage with the second level " L " type diversion chamber (B) excircle lower end or passage portion is connected, and the left end of the third level " L " type electrostatic cleaner room (C) forms passage with the excircle end of the fourth stage " L " type clean room (D) or passage portion is connected, circular in cross-section (annular) or rectangle or other any geometries, the excircle end of the fourth stage " L " type clean room (D) of rectangular or circular or other any geometries in longitudinal section forms passage with the inner periphery end of the third level " L " type electrostatic cleaner room (C) or passage portion is connected, and the inner periphery end of the fourth stage " L " type clean room (D) forms passage with the excircle end of level V " L " type electrostatic cleaner room (E) or passage portion is connected, circular in cross-section (annular) or rectangle or other any geometries, the excircle end of level V " L " type clean room (E) of rectangular or circular or other any geometries in longitudinal section forms passage with the inner periphery end of the fourth stage " L " type clean room (D) or passage portion is connected, and the inner periphery end of level V " L " type clean room (E) forms passage with the excircle end of the 6th grade of " L " type electrostatic cleaner room (F) or passage portion is connected, circular in cross-section (annular) or rectangle or other any geometries, the excircle end of the 6th grade of " L " type clean room (F) of rectangular or circular or other any geometries in longitudinal section forms passage with the inner periphery end of level V " L " type clean room (E) or passage portion is connected, and the inner periphery end of the 6th grade of " L " type clean room (F) forms passage with the excircle end of the 7th grade of L-type electrostatic cleaner room (G) or passage portion is connected, circular in cross-section (annular) or rectangle or other any geometries, the excircle end of the 7th JiLXing clean room (G) of rectangular or circular or other any geometries in longitudinal section forms passage with the inner periphery end of the 6th JiLXing clean room (F) or passage portion is connected, and the inner periphery end of the 7th JiLXing clean room (G) forms passage with the excircle end of the 8th JiLXing type clean room (I) or passage portion is connected, circular in cross-section (annular) or rectangle or other any geometries, the excircle end of the 8th JiLXing clean room (H) of rectangular or circular or other any geometries in longitudinal section forms passage with the inner periphery end of the 7th JiLXing clean room (G) or passage portion is connected, and the upper end of the 8th JiLXing clean room (G) forms passage with the lower end of de-purifying agent chamber (I) or passage portion is connected through current filter (14), circular in cross-section (annular) or rectangle or other any geometries, the lower end of the de-point purifying agent chamber (I) of rectangular or circular or other any geometries in longitudinal section forms passage with the upper end of the 8th JiLXing clean room (G) or passage portion is connected through current filter (14), and the excircle upper end taking off point purifying agent chamber (I) forms passage with the excircle lower end that exports room (J) of purifying air or passage portion is connected, circular in cross-section (annular) or rectangle or other any geometries, the excircle lower end that the purifying air of rectangular or circular or other any geometries in longitudinal section exports room (J) forms passage with the excircle upper end taking off point purifying agent chamber (I) or passage portion is connected, the upper end exporting room (J) that purifies air forms passage with the lower end of purified gas escape pipe (20) or passage portion is connected, and the upper end of purified gas escape pipe (20) forms passage with chimney (19) lower end or passage portion is connected, circular in cross-section (annular) or rectangle or other any geometries, the upper end of the purifying agent chamber (under K) of rectangular or circular or other any geometries in longitudinal section respectively with second level L-type diversion chamber (B), third level L-type electrostatic cleaner room (C), the fourth stage " L " type clean room (D), level V " L " type clean room (E), 6th grade of " L " type clean room (F), 7th JiLXing clean room (G), the lower end of the 8th JiLXing clean room (I) forms passage or passage portion connects, purifying agent chamber (K) interior splendid attire cleanser is to the spacing line place of cleanser stop (2).
2. 2. " haze air cleaner " according to claim 1, it is characterized in that: circular in cross-section (annular) or rectangle or other any geometries, the first order " L " type clean room (A) of rectangular or circular or other any geometries in longitudinal section is by upper end, greenhouse gases room, haze source (22); Cleanser high-pressure sprayer (23); Cleanser loader (24); Haze source (haze flue gas) greenhouse gases air inlet pipe (25); Haze source greenhouse gases zero-emission machine " front side portion (containing rear lateral portion) (26); Greenhouse gases zero-emission machine leading section, haze source (5); Haze source greenhouse gases zero-emission machine medial end portions (8), secondary complete burner (N), post-ignition hood (O), air blast (pressure fan) (connecting haze source greenhouse gases entrance) (18) (without air-introduced machine); The circular in cross-section of chimney (smoke-intake pipe or escape pipe) (19), motor (21), composition or rectangle or other any geometries, the first order " L " type clean room (A) of rectangular or circular or other any geometries in longitudinal section; Secondary burner guarantees that haze source greenhouse gases fully complete burning further, installs the direct outward supplying heat of heat supply warmer (60) of cleanser heat exchanger simultaneously or do not install the heat supply warmer (60) of cleanser heat exchanger; Secondary burner is made up of secondary complete burner (N), post-ignition hood (O); Be installed in haze source (haze flue gas) greenhouse gases air inlet pipe (25).The first order " L " type clean room (A) upper middle part inner periphery makes circular in cross-section (annular) or rectangle or other any geometries, the through hole of rectangular or circular or other any geometries in longitudinal section, lower end makes rectangular or circular or other any geometries of cross section, the through hole of rectangular or circular or other any geometries in longitudinal section, cleanser high-pressure sprayer (23) and cleanser loader (24) are arranged on clearing machine and enter on the annular ring peripheral of upper end, haze room (22), and wherein shower nozzle enters in the first order " L " type clean room (A), important technology feature: one, cleanser high-pressure sprayer (23) is the mobilization dynamic increasing haze flue gas and greenhouse gases, reduce resistance, take the cleanser injection direction of cleanser high-pressure sprayer (23) and haze source (haze flue gas) and the greenhouse gases direction of motion to install in the same manner, guarantee that cleanser injection direction and haze source (haze flue gas) and the greenhouse gases direction of motion spray cleanser to haze particle and dusty gas in the same manner, make the haze source (haze flue gas) in motion and greenhouse gases, in the first order " L " type clean room (A), with the cleanser in equidirectional motion under hydraulic state or impact, clash into and vibrate and neither endothermic nor exothermic state under fully contact and physical reactions and chemical reaction completely occur and all produce solid, make to enter haze source (haze flue gas) in purifying agent chamber (under K) and greenhouse gases and the cleanser (68) in purifying agent chamber (under K) impact, clash into and vibrate and neither endothermic nor exothermic state under fully contact and physical reactions and chemical reaction completely occur and all produce solid, its two, stop the liquid level position of the liquid level position (or water level) of the highest cleanser of control (or water) of the upper limit float (54) mending cleanser or moisturizing and upper limit cleanser (27) to be respectively 0 ± 10000000000mm with the bottom surface of the magnetic valve (52) (bottom surface of conductive channel) of cleanser upper limit device (magnetic valve) (2) (bottom surface of conductive channel), cleanser upper limit device, horizontal air deflector A (7), the discrepancy in elevation of bottom surface of erecting short air deflector A (11) respectively, its three, stop the liquid level position (or water level) of cleanser (or water) in the middle of the control of the upper limit float (54) of moisturizing and in the liquid level position of spacing cleanser (57) be respectively 0 ± 10000000000mm with the discrepancy in elevation of the magnetic valve (58) (bottom surface of conductive channel) of stop in cleanser, the bottom surface (bottom) of inclination air deflector A (6) respectively, they are four years old, the liquid level position (or water level) of the minimum cleanser of control (or water) of lower limit float (56) and the liquid level position of the lower limit bit line (28) of lower limit cleanser that start moisturizing are respectively 0 ± 10000000000mm with the discrepancy in elevation of the magnetic valve (59) (bottom surface of conductive channel) of cleanser lower retainer (magnetic valve) (3), cleanser lower retainer respectively, and the discrepancy in elevation being positioned at the bottom surface (bottom) of perpendicular short air deflector B (13) is respectively 10 ± 1000000000mm, they are five years old, the first order " L " type clean room (A) lower end forms passage with the second level " L " type diversion chamber (B) upper end or passage portion is connected, the first order " L " type clean room (A) left upper part with purify air export room (J) close be fixedly connected with, the first order " L " type clean room (A) left end bottom is closed with de-purifying agent chamber (I) and is fixedly connected with, the first order " L " type clean room (A) upper middle part right-hand member forms passage with haze source gas (haze flue gas) greenhouse gases air inlet pipe (25) left end or passage portion is connected, passage or passage portion is become to be connected with haze source (haze flue gas) greenhouse gases (chimney), its six, upper end, greenhouse gases room, haze source (22) respectively with haze source greenhouse gases zero-emission machine " front side portion (containing rear lateral portion) (26), greenhouse gases zero-emission machine leading section, haze source (5), haze source greenhouse gases zero-emission machine medial end portions (8) forms sealing and is fixedly connected, haze source greenhouse gases zero-emission down side portion (containing rear lateral portion) (26) respectively with greenhouse gases zero-emission machine leading section, haze source (5), haze source greenhouse gases zero-emission machine medial end portions (8) forms sealing and is fixedly connected, the loader (water pump of band motor) (24) of cleanser high-pressure injection is installed on the clarifier-tank (30) of purifying agent chamber, pump drain pipe (55) connects with loader (being with the water pump of motor) (24) the discharge outlet conducting of cleanser high-pressure injection, the controller (49) of the loader (water pump of band motor) (24) of cleanser high-pressure injection is respectively all by normally closed button (42), often drive button (43), relay normally open contact (44), relay (45) forms, after often opening button (43) and relay normally open contact (44) parallel connection, priority and normally closed button (42) successively, relay (45) is connected, the magnetic valve (50) of cleanser and relay main coil serial or parallel connection are mended in moisturizing, relay contact is with lower limit float (56) parallel connection of startup moisturizing or after connecting, with upper limit float (54) serial or parallel connection stopping moisturizing, with relay (51) serial or parallel connection, haze source (haze flue gas) greenhouse gases air inlet pipe (25) right-hand member is connected with the gas outlet conducting of air blast (pressure fan) (connecting haze source greenhouse gases entrance) (18), chimney (smoke-intake pipe or escape pipe) (19) is connected with the air intake conducting of air blast (pressure fan) (connecting haze source greenhouse gases entrance) (18) (without air-introduced machine), " haze source greenhouse gases zero-emission machine " escape pipe (20) can be identical with haze source (haze flue gas) greenhouse gases air inlet pipe (25) or dock and be connected with the gas outlet conducting of air blast (pressure fan) (connecting haze source greenhouse gases entrance) (18) (without air-introduced machine) after being connected, passage or passage portion is become to connect, motor (21) is connected with the power transmission shaft of air blast (pressure fan) (connecting haze source greenhouse gases entrance) (18) (without air-introduced machine), the first order " L " type clean room (A), the second level " L " type clean room (B), the third level " L " type clean room (C), the fourth stage " L " type clean room (D), level V " L " type clean room (E), 6th grade of " L " type clean room (F), 7th grade of " L " type clean room (G), 8th grade of waveform haze source gas (haze flue gas) the greenhouse gases passage that " L " type clean room (H) is being combined into forms waveform haze source gas (haze flue gas) greenhouse gases stream, the first order " L " type clean room (A) or the first order " L " type clean room (A), the second level " L " type clean room (B), the third level " L " type clean room (C), the fourth stage " L " type clean room (D), level V " L " type clean room (E), the 6th grade of " L " type clean room (F), the 7th JiLXing clean room (G), the 8th grade of " L " type clean room (H) arrange respectively or do not arrange cleanser High voltage output device group A (37), cleanser High voltage output device group B (38), cleanser High voltage output device group C (39), cleanser High voltage output device group D (40), cleanser High voltage output device group E (41) sprays cleanser to haze source gas (haze flue gas) greenhouse gases respectively.
3. 3. " haze air cleaner " according to claim 1, it is characterized in that: circular in cross-section (annular) or rectangle or other any geometries, the second level " L " type diversion chamber (B) of rectangular or circular or other any geometries in longitudinal section is by greenhouse gases zero-emission machine leading section, haze source (5); Inclination air deflector A; Horizontal air deflector A (7); Haze source greenhouse gases zero-emission machine medial end portions (8); Haze source greenhouse gases zero-emission machine " front side portion (containing rear lateral portion) (26); Electrostatic depuration AC power (32); Electrostatic depuration dc source (33); Purification electrostatic generator (34); Positive electrode (35); Pay the circular in cross-section (annular) that forms of electrode (36) or rectangle or other any geometries, the second level " L " type diversion chamber (B) of rectangular or circular or other any geometries in longitudinal section; Important technology feature: one, the technical characteristic of inclination air deflector A (6) is that inclination air deflector A (6) connects follow-up reneing with horizontal air deflector A (7) and stretches 0 ± 10000000000mm, formed inclination air deflector A (6) lower than the bottom surface of horizontal air deflector A (7) bottom go out or exceed 0 ± 10000000000mm, inclination air deflector A (6) is respectively 0 ± 10000000000mm with the discrepancy in elevation of the bottom surface of horizontal air deflector A (7) bottom; They are two years old, formed inclination air deflector A (6) lower than the bottom surface of perpendicular short air deflector A (11) bottom go out or exceed 0 ± 10000000000mm, inclination air deflector A (6) is respectively 0 ± 10000000000mm with the discrepancy in elevation of the bottom surface of perpendicular short air deflector A (11) bottom; Its lower surface (bottom surface) of three, inclination air deflector A (6) and in spacing cleanser (57) contour or not contour; Under the injection cleanser effect of cleanser high-pressure sprayer (23), inclination air deflector A (6) and horizontal air deflector A (7) and upper limit cleanser (27) or in spacing cleanser (57) form check valve along the reverse unidirectional not conducting of haze source greenhouse gases direction of motion forward one-way conduction; Under the injection cleanser effect of cleanser high-pressure sprayer (23), inclination air deflector A (6) and horizontal air deflector A (7) and lower limit cleanser (28) form half check valve of unidirectional half conducting; Haze source greenhouse gases can only enter, can not be out; Bottom its four, inclination air deflector A (6) relative purifying agent chamber, (4), greenhouse gases zero-emission machine leading section, haze source (5), " haze source greenhouse gases zero-emission machine " enter upper end, haze room (22) gap and install; Its five, inclination air deflector A (6) with haze source greenhouse gases zero-emission machine " front side portion (containing rear lateral portion) (26) seal to be fixedly connected and install; Its six, the lower surface (bottom surface) of horizontal air deflector A (7) is contour or not contour with the lower surface (bottom surface) of perpendicular short air deflector A (11); Its lower surface (bottom surface) of seven, inclination air deflector A (6) is contour or not contour with the lower surface (bottom surface) of perpendicular short air deflector B (13); The lower surface (bottom surface) that prioritizing selection erects short air deflector B (13) is than the low or high 0 ± 10000000000mm in the lower surface (bottom surface) of inclination air deflector A (6) or double altitudes, and the lower surface (bottom surface) of perpendicular short air deflector B (13) is respectively 0 ± 10000000000mm than the discrepancy in elevation of the lower surface (bottom surface) of inclination air deflector A (6); They are eight years old, inclination air deflector A (6) relatively greenhouse gases zero-emission machine leading section, haze source (5), clearance distance be 0 ± 10000000000mm, inclination air deflector A (6) relatively greenhouse gases zero-emission machine leading section, haze source (5), clearance distance prioritizing selection be greenhouse gases zero-emission machine leading section, haze source (5) and 1/2nd of the distance of haze source greenhouse gases zero-emission machine medial end portions (8); Greenhouse gases zero-emission machine leading section, haze source (5) is little larger or equal than the cross-sectional area of haze source (haze flue gas) greenhouse gases air inlet pipe (25) with the distance interval area of haze source greenhouse gases zero-emission machine medial end portions (8); Its nine, inclination air deflector A (6) relative greenhouse gases zero-emission machine leading section, haze source (5), interval area little larger or equal than the cross-sectional area of haze source (haze flue gas) greenhouse gases air inlet pipe (25); Prioritizing selection inclination air deflector A (6) relatively greenhouse gases zero-emission machine leading section, haze source (5), interval area less than the cross-sectional area of haze source (haze flue gas) greenhouse gases air inlet pipe (25); Its lower surface (bottom surface) of ten, inclination air deflector A (6) is contour or not contour with the lower surface (bottom surface) of perpendicular short air deflector B (13); The lower surface (bottom surface) that prioritizing selection erects short air deflector B (13) is than the low or high 0 ± 10000000000mm in the lower surface (bottom surface) of inclination air deflector A (6) or double altitudes, and the lower surface (bottom surface) of perpendicular short air deflector B (13) is respectively 0 ± 10000000000mm than the discrepancy in elevation of the lower surface (bottom surface) of inclination air deflector A (6); Under the injection cleanser effect of cleanser high-pressure sprayer (23), inclination air deflector A (6) and horizontal air deflector A (7) and upper limit cleanser (27) or in spacing cleanser (57) and perpendicular short air deflector B (13) formed enter this region one-way conduction along the haze source greenhouse gases direction of motion, leave the check valve of the reverse unidirectional not conducting in this region; Haze source greenhouse gases can only enter, can not be out; The lower end that haze source greenhouse gases zero-emission machine medial end portions (8) of the second level " L " type diversion chamber (B) left end is vertical is fixedly connected with the horizontal air deflector A (7) of horizontal positioned, and inclination air deflector A (6) strengthens horizontal air deflector A (7) and haze source greenhouse gases zero-emission machine medial end portions (8) to be connected; The second level " L " type diversion chamber (B) upper end makes through hole, lower end makes circular in cross-section (annular) or rectangle or other any geometries, and longitudinal section be trapezoidal or the partial through holes of rectangle or circle or other any geometries or through hole; Upper end forms passage with the first order " L " type clean room (A) lower end or passage portion conducting is connected, and the second level " L " type diversion chamber (B) bottom righthand side forms passage with the upper right side of the third level " L " type electrostatic cleaner room (C) or passage portion is connected.
4. 4. " haze air cleaner " according to claim 1, it is characterized in that: circular in cross-section (annular) or rectangle or other any geometries, the third level " L " type electrostatic cleaner room (C) of rectangular or circular or other any geometries in longitudinal section is by greenhouse gases zero-emission machine leading section, haze source (5); Inclination air deflector A (6); Horizontal air deflector A (7); Haze source greenhouse gases zero-emission machine medial end portions (8); Haze source greenhouse gases zero-emission machine " front side portion (containing rear lateral portion) (26); Vertical preset piece (27); Horizontal preset piece (28); Electrostatic depuration AC power (32); Electrostatic depuration dc source (33); Purification electrostatic generator (34); Positive electrode (35); Pay the circular in cross-section (annular) that forms of electrode (36) or rectangle or other any geometries, the third level L-type electrostatic cleaner room (C) of rectangular or circular or other any geometries in longitudinal section; The vertical lower end of haze source greenhouse gases zero-emission machine medial end portions (8) of third level L-type electrostatic cleaner room (C) inner periphery upper end is fixedly connected with the horizontal air deflector A (7) of horizontal positioned, and inclination air deflector A (6) strengthens horizontal air deflector A (7) and haze source greenhouse gases zero-emission machine medial end portions (8) to be connected; Third level L-type electrostatic cleaner room (C) excircle upper end makes partial through holes or through hole, and bottom makes through hole, and inner periphery end makes through hole; Excircle upper end and the second level " L " type diversion chamber (B) excircle lower end forming section passage or expanding channels, the inner periphery end of third level L-type electrostatic cleaner room (C) forms passage with the excircle end of the fourth stage " L " type clean room (D) or passage portion is connected; Important technology feature: one, the technical characteristic of inclination air deflector A (6) is that inclination air deflector A (6) connects follow-up reneing with horizontal air deflector A (7) and stretches 0 ± 10000000000mm, formed inclination air deflector A (6) lower than the bottom surface of horizontal air deflector A (7) bottom go out or exceed 0 ± 10000000000mm, inclination air deflector A (6) is respectively 0 ± 10000000000mm with the discrepancy in elevation of the bottom surface of horizontal air deflector A (7) bottom; Its two, the bottom surface of horizontal air deflector A (7) is contour or not contour with the bottom surface of perpendicular short air deflector A (11), and prioritizing selection is contour; Its three, inclination air deflector A (6), horizontal air deflector A (7), haze source greenhouse gases zero-emission machine medial end portions (8) relatively bottom purifying agent chamber (4), greenhouse gases zero-emission machine leading section, haze source (5), perpendicular long air deflector A (10) gap install; It four, inclination air deflector A (6) seals to be fixedly connected install with horizontal air deflector A (7); Haze source greenhouse gases zero-emission machine medial end portions (8) and horizontal air deflector A (7) seal to be fixedly connected installs; Its lower surface (bottom surface) of five, inclination air deflector A (6) is contour or not contour with upper limit cleanser (27); Its lower surface (bottom surface) of six, inclination air deflector A (6) is contour or not contour with the lower surface (bottom surface) of perpendicular short air deflector B (13); The lower surface (bottom surface) that prioritizing selection erects short air deflector B (13) is than the low or high 0 ± 10000000000mm in the lower surface (bottom surface) of inclination air deflector A (6) or double altitudes, and the lower surface (bottom surface) of perpendicular short air deflector B (13) is respectively 0 ± 10000000000mm than the discrepancy in elevation of the lower surface (bottom surface) of inclination air deflector A (6); Under the injection cleanser effect of cleanser high-pressure sprayer (23), inclination air deflector A (6) and horizontal air deflector A (7) and upper limit cleanser (27) or in spacing cleanser (57) and perpendicular short air deflector B (13) formed enter this region one-way conduction along the haze source greenhouse gases direction of motion, leave the check valve of the reverse unidirectional not conducting in this region; Haze source greenhouse gases can only enter, can not be out; The controller (48) of electrostatic cleaner stop (magnetic valve) is respectively all by normally closed button (42); Often drive button (43); Relay normally open contact (44); Relay (45) forms; After often opening button (43) and relay normally open contact (44) parallel connection, priority and normally closed button (42) successively; Relay (45) is connected; Serial or parallel connection is distinguished with relay main coil positive and negative electrode after electrostatic depuration AC power (32) and electrostatic depuration dc source (33) serial or parallel connection; With purification electrostatic generator (34) serial or parallel connection; With positive electrode (35) serial or parallel connection; With pair electrode (36) serial or parallel connection.
5. 5. " haze air cleaner " according to claim 1, it is characterized in that: circular in cross-section (annular) or rectangle or other any geometries, the fourth stage " L " type clean room (D) of rectangular or circular or other any geometries in longitudinal section is by haze source greenhouse gases zero-emission machine " front side portion (containing rear lateral portion) (8); Water conservancy diversion fixator (9); Perpendicular long air deflector A (10); Haze source greenhouse gases zero-emission machine " front side portion (containing rear lateral portion) (26); The lower limit bit line (28) of lower limit cleanser; Upper limit cleanser (27); The circular in cross-section (annular) of composition or rectangle or other any geometries, the fourth stage " L " type clean room (D) of rectangular or circular or other any geometries in longitudinal section; The fourth stage " L " type clean room (D) excircle end makes through hole, and lower end makes through hole, and inner periphery end makes through hole; The excircle end of the fourth stage " L " type clean room (D) forms passage with the inner periphery end of the third level " L " type electrostatic cleaner room (C) or passage portion is connected, and the inner periphery end of the fourth stage " L " type clean room (D) forms passage with the excircle end of level V " L " type electrostatic cleaner room (E) or passage portion is connected; Important technology feature: one, perpendicular long air deflector A (10) above-below direction is of a size of 0.5 times ± 100 times of the size of perpendicular short air deflector A (11) above-below direction, prioritizing selection 2 times; They are two years old, the installation dimension of perpendicular long air deflector A (10) above-below direction is the perpendicular upper end of long air deflector A (10) and the lower surface clearance distance 0 ± 10000000000mm of water conservancy diversion fixator (9), and prioritizing selection is 0.5 times of the size of perpendicular short air deflector A (11) above-below direction; Its three, perpendicular long air deflector A (10) and water conservancy diversion fixator (9) gap are installed, bottom perpendicular long air deflector A (10) and purifying agent chamber (4), the installation of funnel (61) gap; Its four, perpendicular long air deflector A (10) and haze source greenhouse gases zero-emission machine " front side portion (containing rear lateral portion) (26) seal to be fixedly connected and install; Its five, the lower surface (bottom surface) of horizontal air deflector A (7) is contour or not contour with the lower surface (bottom surface) of perpendicular short air deflector A (11).
6. 6. " haze air cleaner " according to claim 1, it is characterized in that: circular in cross-section (annular) or rectangle or other any geometries, level V " L " type clean room (E) of rectangular or circular or other any geometries in longitudinal section is by haze source greenhouse gases zero-emission machine medial end portions (8); Perpendicular long air deflector A (10); Perpendicular short air deflector A (11); Haze source greenhouse gases zero-emission machine " (clearing machine) front side portion (containing rear lateral portion) (26); Upper limit cleanser (vertical preset piece) (27); The circular in cross-section (annular) that the lower limit bit line (horizontal preset piece) (28) of lower limit cleanser forms or rectangle or other any geometries, level V " L " type clean room (E) of rectangular or circular or other any geometries in longitudinal section; Level V " L " type clean room (E) excircle end makes through hole, and lower end makes through hole, and inner periphery end makes through hole; The excircle end of level V " L " type clean room (E) forms passage with the inner periphery end of the fourth stage " L " type clean room (D) or passage portion is connected, and the inner periphery end of level V " L " type clean room (E) forms passage with the excircle end of the 6th grade of " L " type electrostatic cleaner room (F) or passage portion is connected; Important technology feature: one, perpendicular long air deflector A (10) above-below direction is of a size of 0.5 times ± 100 times of the size of perpendicular short air deflector A (11) above-below direction, prioritizing selection 2 times; They are two years old, the installation dimension of perpendicular long air deflector A (10) above-below direction is the perpendicular upper end of long air deflector A (10) and the lower surface clearance distance 0 ± 10000000000mm of water conservancy diversion fixator (9), and prioritizing selection is 0.5 times of the size of perpendicular short air deflector A (11) above-below direction; Its three, perpendicular long air deflector A (10) and water conservancy diversion fixator (9) gap are installed, bottom perpendicular long air deflector A (10) and purifying agent chamber (4), the installation of funnel (61) gap; Its four, perpendicular long air deflector A (10) and haze source greenhouse gases zero-emission machine " front side portion (containing rear lateral portion) (26) seal to be fixedly connected and install.
7. 7. " haze air cleaner " according to claim 1, it is characterized in that: circular in cross-section (annular) or rectangle other any geometric form longitudinal sections are rectangular or circular or the 6th grade of " L " type clean room (F) of other any geometries by haze source greenhouse gases zero-emission machine medial end portions (8); Perpendicular short air deflector A (11); Perpendicular long air deflector B (12); Haze source greenhouse gases zero-emission machine " (clearing machine) front side portion (containing rear lateral portion) (26); Upper limit cleanser (27); The circular in cross-section (annular) that the lower limit bit line (28) of lower limit cleanser forms or rectangle or other any geometries, the 6th grade of " L " type clean room (F) of rectangular or circular or other any geometries in longitudinal section; 6th grade of " L " type clean room (F) excircle end makes through hole, and lower end makes through hole, and inner periphery end makes through hole; The excircle end of the 6th grade of " L " type clean room (F) forms passage with the inner periphery end of level V " L " type clean room (E) or passage portion is connected, and the inner periphery end of the 6th grade of " L " type clean room (F) forms passage with the excircle end of the 7th grade of " L " type electrostatic cleaner room (G) or passage portion is connected; Important technology feature: one, perpendicular long air deflector B (12) above-below direction is of a size of 0.5 times ± 100 times of the size of perpendicular short air deflector A (11) above-below direction, prioritizing selection 2 times; They are two years old, the installation dimension of perpendicular long air deflector B (12) above-below direction is the perpendicular upper end of long air deflector B (12) and the lower surface clearance distance 0 ± 10000000000mm of water conservancy diversion fixator (9), and prioritizing selection is 0.5 times of the size of perpendicular short air deflector A (11) above-below direction; Its three, perpendicular long air deflector B (12) and water conservancy diversion fixator (9) gap are installed, bottom perpendicular long air deflector B (12) and purifying agent chamber (4), the installation of funnel (61) gap; Its four, perpendicular long air deflector B (12) and haze source greenhouse gases zero-emission machine " front side portion (containing rear lateral portion) (26) seal to be fixedly connected and install; Its five, the size of perpendicular long air deflector B (12) above-below direction is contour or not contour with the size of perpendicular long air deflector A (10) above-below direction.
8. 8. " haze air cleaner " according to claim 1, it is characterized in that: circular in cross-section (annular) or rectangle or other any geometries, the 7th grade of " L " type clean room (G) of rectangular or circular or other any geometries in longitudinal section is by haze source greenhouse gases zero-emission machine medial end portions (8); Perpendicular long air deflector B (12); Perpendicular short air deflector B (13); Haze source greenhouse gases zero-emission machine " (clearing machine) front side portion (containing rear lateral portion) (26); Upper limit cleanser (27); The circular in cross-section (annular) that the lower limit bit line (28) of lower limit cleanser forms or rectangle or other any geometries, the 7th grade of " L " type clean room (G) of rectangular or circular or other any geometries in longitudinal section; 7th grade of " L " type clean room (G) excircle end makes through hole, and lower end makes through hole, and inner periphery end makes through hole; The excircle end of the 7th grade of " L " type clean room (G) forms passage with the inner periphery end of the 6th grade of " L " type clean room (F) or passage portion is connected, and the inner periphery end of the 7th grade of " L " type clean room (G) forms passage with the excircle end of the 8th grade of " L " type electrostatic cleaner room (H) or passage portion is connected; Important technology feature: one, the technical characteristic of perpendicular short air deflector B (13) is that perpendicular short air deflector B (13) stretches 0 ± 10000000000mm than perpendicular follow-up the reneing of short air deflector A (11) co-altitude, perpendicular short air deflector B (13) and inclination air deflector A (6) contour or not contour, formed perpendicular short air deflector B (13) of inclining lower than the bottom surface erecting short air deflector A (11) go out or exceed 0 ± 10000000000mm; Its two, under the injection cleanser effect of cleanser high-pressure sprayer (23), perpendicular short air deflector B (13) forms the unidirectional stop valve of the oppositely unidirectional not conducting of haze source greenhouse gases direction of motion forward unidirectional cutoff not conducting; Perpendicular short air deflector B (13) and inclination air deflector A (6) and horizontal air deflector A (7) and upper limit cleanser (27) or in spacing cleanser (57) formation along the check valve of the reverse unidirectional not conducting of haze source greenhouse gases direction of motion forward one-way conduction; Its lower surface (bottom surface) of three, inclination air deflector A (6) is contour or not contour with the lower surface (bottom surface) of perpendicular short air deflector B (13); The lower surface (bottom surface) that prioritizing selection erects short air deflector B (13) is than the low or high 0 ± 10000000000mm in the lower surface (bottom surface) of inclination air deflector A (6) or double altitudes, and the lower surface (bottom surface) of perpendicular short air deflector B (13) is respectively 0 ± 10000000000mm than the discrepancy in elevation of the lower surface (bottom surface) of inclination air deflector A (6); Under the injection cleanser effect of cleanser high-pressure sprayer (23), inclination air deflector A (6) and horizontal air deflector A (7) and upper limit cleanser (27) or in spacing cleanser (57) and perpendicular short air deflector B (13) formed enter this region one-way conduction along the haze source greenhouse gases direction of motion, leave the check valve of the reverse unidirectional not conducting in this region; Haze source greenhouse gases can only enter, can not be out; Under the injection cleanser effect of cleanser high-pressure sprayer (23), inclination air deflector A (6) and horizontal air deflector A (7) and lower limit cleanser (28) form half check valve of unidirectional half conducting; Perpendicular short air deflector B (13) and inclination air deflector A (stiffened panel) (6) and horizontal air deflector A (7) and upper limit cleanser (27) or in spacing cleanser (57) formation along the check valve of the reverse unidirectional not conducting of haze source greenhouse gases direction of motion forward one-way conduction, guarantee haze source greenhouse gases only import but no export, in third level L-type clean room (C); Fourth stage L-type clean room (D); Level V L-type clean room (E); 6th grade of " L " type clean room (F); Mandatory generation chemical reaction in 7th grade of " L " type clean room (G): chemical reaction is all carried out in haze source and greenhouse gases and produces precipitable solid for construction material.
9. 9. " haze air cleaner " according to claim 1, it is characterized in that: circular in cross-section (annular) or rectangle or other any geometries, the 8th grade of " L " type clean room (H) of rectangular or circular or other any geometries in longitudinal section is by haze source greenhouse gases zero-emission machine medial end portions (8); Perpendicular long air deflector B (12); Perpendicular short air deflector B (13); Haze source greenhouse gases zero-emission down side portion (containing rear lateral portion) (26); Upper limit cleanser (27); The circular in cross-section (annular) that the lower limit bit line (28) of lower limit cleanser forms or rectangle or other any geometries, the 8th grade of " L " type clean room (H) of rectangular or circular or other any geometries in longitudinal section; 8th grade of " L " type clean room (H) excircle end makes through hole, and lower end makes through hole, and inner periphery end makes through hole; The excircle end of the 8th grade of " L " type clean room (H) forms passage with the inner periphery end of the 7th grade of " L " type clean room (G) or passage portion is connected, and the upper end of the 8th grade of " L " type clean room (H) forms passage with de-point purifying agent chamber (I) lower-left end or passage portion is connected.
10. 10. " haze air cleaner " according to claim 1, it is characterized in that: circular in cross-section (annular) or rectangle or other any geometries, the de-point purifying agent chamber (I) of rectangular or circular or other any geometries in longitudinal section is by water conservancy diversion fixator (9); Current filter (14); Cleanser departs from drier (15); Greenhouse gases zero-emission machine upper end, haze source (17); The pressure fan (entrance) of air blast or air-introduced machine (outlet) (as far as possible without air-introduced machine) (18); Chimney (smoke-intake pipe or escape pipe) (19); The purified gas escape pipe (20) of haze source greenhouse gases zero-emission machine; Motor (21); Haze source greenhouse gases zero-emission machine " front side portion (containing rear lateral portion) (26); The circular in cross-section (annular) that haze source greenhouse gases zero-emission machine rearward end (31) forms or rectangle or other any geometries, a de-point purifying agent chamber (I) for rectangular or circular or other any geometries in longitudinal section; De-point purifying agent chamber (I) inner periphery lower end makes through hole, and excircle upper end makes through hole; De-point of inner periphery lower end of purifying agent chamber (I) is with the upper end of the 8th grade of " L " type clean room (H) or inner periphery upper end forms passage or passage portion is connected, and the excircle upper end taking off point purifying agent chamber (I) forms passage with the excircle lower end that exports room (J) of purifying air or passage portion is connected;

    Circular in cross-section (annular) or rectangle or other any geometries, rectangular or circular or the purifying air of other any geometries in longitudinal section exports room (J) by water conservancy diversion fixator (9); Current filter (14); Cleanser departs from drier (15); Greenhouse gases zero-emission machine upper end, haze source (17); Chimney (19); " haze source greenhouse gases zero-emission machine " escape pipe (20); Haze source greenhouse gases zero-emission machine " front side portion (containing rear lateral portion) (26); Haze source greenhouse gases zero-emission machine " circular in cross-section (annular) that forms of rearward end (31) or rectangle or other any geometries, rectangular or circular or the purifying air of other any geometries in longitudinal section exports room (J); Purify air and export room (J) excircle lower end making through hole, inner periphery upper end makes through hole; The excircle lower end exporting room (J) that purifies air forms passage with the excircle upper end of de-purifying agent chamber (I) or passage portion is connected, and the inner periphery upper end of output room (J) that purifies air forms passage with the lower end of " haze source greenhouse gases zero-emission machine " escape pipe (20) or passage portion is connected;

    Circular in cross-section (annular) or rectangle or other any geometries, the purifying agent chamber (under K) of rectangular or circular or other any geometries in longitudinal section is by haze source greenhouse gases zero-emission machine " front side portion (containing rear lateral portion) (26), the second level " L " type diversion chamber (B), the third level " L " type electrostatic cleaner room (C), the fourth stage " L " type clean room (D), level V " L " type clean room (E), 6th grade of " L " type clean room (F), 7th grade of " L " type clean room (G), the lower end of the 8th grade of " L " type clean room (I), the heat supply warmer (60) of cleanser heat exchanger and funnel (61), supporting leg (67) forms, important technology feature: the upper end of purifying agent chamber (under K) forms passage with the lower end of the second level " L " type diversion chamber (B), the third level " L " type electrostatic cleaner room (C), the fourth stage " L " type clean room (D), level V " L " type clean room (E), the 6th grade of " L " type clean room (F), the 7th grade of " L " type clean room (G), the 8th grade of " L " type clean room (I) respectively or passage portion is connected, the lower end of purifying agent chamber (under K) forms passage with funnel (61) or passage portion is connected, purifying agent chamber (under K) and haze source greenhouse gases zero-emission machine " front side portion (containing rear lateral portion) (26) form sealing and be fixedly connected, the excircle end of purifying agent chamber (under K) is respectively by cleanser upper limit device (magnetic valve) (2), the magnetic valve (58) of stop in cleanser, cleanser lower retainer (magnetic valve) (3), with the clarifier-tank (30) of purifying agent chamber, control conducting and control not conducting to connect, cleanser upper limit device (magnetic valve) (2), the magnetic valve (58) of stop in cleanser, cleanser lower retainer (magnetic valve) (3) are rectangular or circular or other any geometries by cross section, and the pipe of " U " type of rectangular or circular or other any geometries in longitudinal section or " L " type or rectangle or circular or other any geometries or square tube or tubing and control are opened and is composed in series with the magnetic valve controlling to close, cleanser upper limit device (magnetic valve) (2), the magnetic valve (58) of stop in cleanser, the stop (magnetic valve) of cleanser lower retainer (magnetic valve) (3) is respectively by the controller (cleanser High voltage output device group E) (41) of cleanser upper limit device (magnetic valve), the controller (46) of cleanser lower retainer (magnetic valve), controller (48) composition of stop (magnetic valve) in cleanser, the controller (cleanser High voltage output device group E) (41) of cleanser upper limit device (magnetic valve), the controller (46) of cleanser lower retainer (magnetic valve), in cleanser, the controller (48) of stop (magnetic valve) is respectively all by normally closed button (42), often drive button (43), relay normally open contact (44), relay (45) forms, after often opening button (43) and relay normally open contact (44) parallel connection, priority and normally closed button (42) successively, , relay (45) connect, relay main coil positive and negative electrode respectively with cleanser upper limit device (magnetic valve) (2), the magnetic valve (58) of stop in cleanser, cleanser lower retainer (magnetic valve) (3) coupled in series, the injection cleanser direction of cleanser high-pressure sprayer (23) and haze source (haze flue gas) and the greenhouse gases direction of motion spray cleanser to haze particle and dusty gas in the same manner, make haze source (haze flue gas) and greenhouse gases and cleanser under hydraulic state, fully contact jet flow to purifying agent chamber (under K) physical reactions and chemical reaction completely occur further all to generate solid, what form that haze source gas greenhouse gases become after purification can flow particles solid (calcium carbonate, calcium sulfate, calcium nitrate etc.) (can be used as environmental-friendly construction material) (62) be down deposited to funnel (61), through downwards (can be used as environmental-friendly construction material) can be discharged by the manual magnetic valve (63) that exports of flow particles solid, supporting leg (67) is installed on greenhouse gases zero-emission machine lower end, haze source, the heat supply warmer (60) of cleanser heat exchanger forms by organizing often group multitube heat pipe more, and upper end connects with the hot water output valve (65) of heat supply warmer, switch (64) conducting of heat supply warmer, lower end inputs valve (66) with the cold water of heat supply warmer, the switch of heat supply warmer connects, be installed in funnel (61) together, funnel (61) be below haze source gas greenhouse gases become after purification can flow particles solid (62), funnel (61) is installed below can the manual magnetic valve (63) that exports of flow particles solid,

    Circular in cross-section (annular) or rectangle or other any geometries, longitudinal section purifying agent chamber (on K) that is rectangular or circular or other any geometries mixes purge gas injector (37) by air and quick lime; Water and quick lime or white lime slurries cleanser injector (38); Water and quick lime slurries cleanser (cleanser High voltage output device group C) (39); Gas quick lime mixing Purge gas (cleanser High voltage output device group D) (40); Greenhouse gases zero-emission machine leading section, haze source (5); Haze source greenhouse gases zero-emission machine enters upper end, haze room (22); Haze source (haze flue gas) greenhouse gases air inlet pipe (25); Haze source greenhouse gases zero-emission down side portion (containing rear lateral portion) (26) forms; Purifying agent chamber (on K) excircle lower end connects with the upper middle part inner periphery end conducting in first order L-type clean room (A) or part; Output channel lower end air and the quick lime of purifying agent chamber (on K) upper end and haze source (haze flue gas) and greenhouse gases mix purge gas injector (37); Water and quick lime or injector (38) conducting of white lime slurries cleanser or half conducting connect; The entrance (M) of the gas quick lime mixing Purge gas of air and quick lime mixing purge gas injector (37); For circular or rectangle or any geometry through hole, be positioned at excircle lower end or inner periphery lower end; Water and quick lime or white lime slurries cleanser injector (the cleanser High voltage output device group B) water of (38) and the entrance (L) of quick lime slurries cleanser are circular or rectangle or any geometry through hole, are positioned at excircle lower end or inner periphery lower end; Air and quick lime mixing purge gas injector (cleanser High voltage output device group A) (37) are higher or lower than water and quick lime or white lime slurries cleanser injector (cleanser High voltage output device group B) (38); Air and quick lime mixing purge gas injector (cleanser High voltage output device group A) (37); Water and quick lime or white lime slurries cleanser injector (cleanser High voltage output device group B) (38); Water and quick lime slurries cleanser (cleanser High voltage output device group C) (39); Gas quick lime mixing Purge gas (cleanser High voltage output device group D) (40) is installed on purifying agent chamber (on K).