RU2745092C2 - Boiler for heating gas - Google Patents

Abstract

FIELD: household fuel-consuming equipment.

SUBSTANCE: invention relates to household fuel-consuming equipment and can be used in gas flow and capacitive water heaters, heating devices for heating purposes, water supply of apartments in apartment houses and industrial premises. Heating gas boiler consists of rectangular cabinet with warm protection and casing, inside of which furnace with heating pad is located, heat exchanger and combustion product outlet pipe through outer wall of room, installed vertically and comprising cone-shaped nozzle with curvilinear planes and guides and swirling ribs, cassette with adsorbing substance, hermetically installed in combustion products outlet branch pipe between rectangular cabinet casing with warm protection and inner surface of room outer wall. Cassette includes vertical housing with upper and lower headers, side walls, which with sectional partitions installed in it are made zigzag-shaped and form in each section diffusers and confusors located relative to adjacent sections in staggered order. Combustion product outlet pipe includes an ejector installed along the combustion products flow direction and a combustion product partial discharge flange, which is connected to the thermoelectric generator made in the form of a housing with a through channel for combustion products and set of differential thermocouples. "Hot" ends of thermoelectric generator differential thermocouple set are located in combustion product passage, and "cold" ends thereof are fixed on outer surface of thermoelectric generator housing away from feed channel for combustion products, besides, input of passage channel for combustion products of housing of thermoelectric generator is connected to flange of partial discharge of combustion products, and outlet is connected to ejector mixing chamber. "Hot" ends of set of differential thermocouples and inner surface of passage channel for combustion products, on which they are located, are coated with dielectric from tantalum oxide in form of nano-like glass-like film, besides on inner surface of ejector part expanding in direction of movement of combustion products there are screw-like grooves with profile in form of swallowtail, and its outlet hole has circular groove, connection with contaminant removal device. Pollution removal device is made in the form of housing with cover and combustion products inlet and outlet pipes, wherein cover is connected to reflective partition and symmetrically located between combustion and combustion products discharge pipes, and in lower part of housing there is condensate trap.

EFFECT: maintenance of normalized environmentally safe air environment in the area of boiler operation, due to elimination of contamination by substances harmful for health due to additional purification in device for removal of contaminants, by coagulation and enlargement of fine solid and drop-shaped particles.

1 cl, 7 dwg

Description

The invention relates to household fuel-using equipment and can be used in gas flowing and capacitive water heaters, heating devices for heating, water supply of apartments in residential buildings and industrial premises.

A well-known gas heating boiler (see RF patent No. 2482399, IPC F24H 1/00, publ. 05/20/2013 Bul. No. 14), consisting of a rectangular cabinet with thermal protection and a casing, inside which there are a furnace with a burner, a heat exchanger and a pipe the outlet of combustion products through the outer wall of the room, installed vertically and containing a cone-shaped nozzle with curved planes and guiding and twisting ribs, a cassette with an adsorbent substance, hermetically installed in the outlet of combustion products between the casing of a rectangular cabinet with thermal protection and the inner surface of the outer wall of the room, when In this case, the cassette includes a vertical body with upper and lower collectors, side walls, which, with sectional partitions installed in it, are made zigzag and form diffusers and confusers in each section, located relative to adjacent sections in a staggered manner, while the combustion products outlet pipe includes an ejector, installed located in the direction of movement of combustion products, and a flange for partial exhaust of combustion processes, which is connected to a thermoelectric generator made in the form of a housing with a passage channel for combustion products and a set of differential thermocouples, while the "hot" ends of a set of differential thermocouples of the thermoelectric generator are located in the passage channel for combustion products, and their "cold" ends are fixed on the outer surface of the thermoelectric generator body away from the passage channel for combustion products, in addition, the inlet of the passage channel for combustion products of the thermoelectric generator housing is connected to the flange of the partial exhaust of combustion products, and the outlet is connected to the chamber mixing ejector.

The disadvantage is a decrease in the thermal potential during long-term operation of the thermoelectric generator due to the appearance of a condensing film on the inner surface of the passage channel for combustion products, which leads to dissipation of the thermal potential generated by differential thermocouples.

A known gas heating boiler (see RF patent No. 2646276, IPC F24H 1/100; F23J 15/00; BO1D 53/00, publ. 02.03.2018, bull. No. 7), consisting of a rectangular cabinet with warm protection and a casing, inside which there are a firebox with a heating pad, a heat exchanger and a combustion product outlet pipe through the outer wall of the room, installed vertically and containing a cone-shaped nozzle with curved planes and guiding and twisting ribs, a cassette with an adsorbent substance, hermetically installed in the combustion product outlet pipe between the casing of a rectangular cabinet with warm protection and the inner surface of the outer wall of the room, while the cassette includes a vertical body with upper and lower collectors, side walls, which, with sectional partitions installed in it, are made zigzag and form diffusers and convergers in each section, located relative to adjacent sections in a staggered manner, in this case, the branch pipe of the outlet of combustion products includes t an ejector, installed in the direction of the combustion products, and a flange for partial exhaust of combustion products, which is connected to a thermoelectric generator made in the form of a housing with a through passage for combustion products and a set of differential thermocouples, while the "hot" ends of the set of differential thermocouples of the thermoelectric generator are located in the passage channel for combustion products, and their "cold" ends are fixed on the outer surface of the thermoelectric generator housing away from the passage channel for combustion products, in addition, the inlet of the passage channel for combustion products of the thermoelectric generator housing is connected to the flange of the partial exhaust of combustion products, and the outlet connected to the mixing chamber of the ejector, and the "hot" ends of the set of differential thermocouples and the inner surface of the passage channel for combustion products, on which they are located, are coated with a tantalum oxide dielectric in the form of a nano-like glassy film.

The disadvantage is the deterioration of environmental safety in the area of the gas heating boiler due to a decrease in the absorbing capacity of the adsorbing substance, which is intensively destroyed during long-term operation under the influence of condensing droplet moisture coming from the outlet of the thermoelectric generator through the ejector bias chamber into the cassette with the adsorbing substance.
The technical objective of the proposed invention is to maintain a normalized environmentally safe air environment in the area of operation of the gas heating boiler due to the elimination of its pollution with harmful substances due to additional cleaning in the pollution removal device, by coagulation and enlargement of fine solid and droplet-like particles.

The technical result is achieved by the fact that the gas heating boiler consists of a rectangular cabinet with warm protection and a casing, inside which there are a firebox with a heating pad, a heat exchanger and a pipe for the outlet of the combustion product through the outer wall of the room, installed vertically and containing a cone-shaped nozzle with curved planes and guides and twisting ribs, a cassette with an adsorbent substance, hermetically installed in the combustion products outlet pipe between the casing of a rectangular cabinet with warm protection and the inner surface of the outer wall of the room, while the cassette includes a vertical casing with upper and lower collectors, side walls, which with sectional partitions installed in it are made zigzag and form diffusers and confusers in each section, located relative to adjacent sections in a staggered manner, while the combustion products outlet pipe includes an ejector installed in the direction of combustion products movement , and a flange for partial exhaust of combustion products, which is connected to a thermoelectric generator made in the form of a housing with a passage channel for combustion products and a set of differential thermocouples, while the "hot" ends of the set of differential thermocouples of the thermoelectric generator are located in the passage channel for combustion products, and " their cold "ends are fixed on the outer surface of the thermoelectric generator body away from the passage channel for combustion products, moreover, the inlet of the passage channel for combustion products of the thermoelectric generator housing is connected to the flange of the partial exhaust of combustion products, and the outlet is connected to the mixing chamber of the ejector, and the" hot »The ends of the set of differential thermocouples and the inner surface of the passage channel for combustion products, on which they are located, are covered with a tantalum oxide dielectric in the form of a nano-like glassy film; of the combustion products of the ejector part, helical grooves with a "dovetail" profile are made, and a circular groove is made at its outlet opening, connecting with a contamination removal device.

FIG. 1 shows a gas heating boiler; in fig. 2 - a branch pipe for the outlet of combustion products with a cone-shaped nozzle, a cassette filled with an adsorbing substance; ejector and thermoelectric generator; in fig. 3 - cassette body with side walls and zigzag partitions; in fig. 4 is a sectional view of the passage channel for combustion products, the inner surface of which is coated with a tantalum oxide dielectric in the form of a nano-like glassy film; in fig. 5 - the inner surface of the expanding part of the ejector with helical grooves and a circular groove at the outlet with a device for removing contaminants; in fig. 6 - the cavity of the helical groove in the form of a "dovetail", FIG. 7 - section of the device for removing contaminants.

A gas heating boiler consists of a rectangular cabinet 1 with thermal insulation and a casing, inside which there are a firebox 2 with a burner 3, a heat exchanger 4 and a branch pipe for the outlet of combustion products 5. Between the inner surface of the outer wall and the inner wall 6 of the dwelling and the casing of the rectangular cabinet 1 with thermal Isolation in the flue gas outlet 5 is hermetically installed cassette 7 with adsorbent 8. The flue gas outlet 5 is equipped with a cone-shaped nozzle 9 with curved planes 10 and guiding and twisting ribs 11. The cassette 7 includes a vertical body with upper 12 and lower 13 collectors and lateral walls 14 with sectional partitions 15 installed in them, made zigzag and forming in each section 16 diffusers 17 and confusers 18, located relative to adjacent sections in a staggered manner. The inlet openings 19 in each section 16 are made in proportion to the increasing sections along the direction of the combustion products movement along the lower 13 collector of the cassette body 7.

The flue gas outlet 5 includes an ejector 20 installed in the direction of the combustion products and a partial exhaust flange 21, which is connected to a thermoelectric generator 22 made in the form of a housing 23 with a passage channel 24 for combustion products and a set of differential thermocouples 25. When The "hot" ends 26 of the set of differential thermocouples 25 of the thermoelectric generator 22 are located in the passage channel 24 for combustion products, and their "cold" ends 27 are fixed on the outer surface 28 of the housing 23 of the thermoelectric generator 22 away from the passage channel 24 for the combustion products. In addition, the inlet 29 of the passage channel 24 for the combustion products of the housing 23 of the thermoelectric generator 22 is connected to the flange 21 of the partial exhaust of the combustion products, and the outlet 30 is connected to the mixing chamber 31 of the ejector 20.

The "hot" ends 26 of the set of differential thermocouples 25 and the inner surface 32 of the passageway 24 for combustion products, on which they are located, are coated with a tantalum oxide dielectric 33 in the form of a nano-like glassy film.

On the inner surface 34 of the expanding part 35 of the ejector 20, helical grooves 36 with a profile 37 in the form of a "dovetail" are made, and at the outlet 38 of the expanding part 35 of the ejector 20, a circular groove 39 is made connected to the contamination removal device 40. The contamination removal device 40 is made in the form of a body 41 with a cover 42 and pipes for inlet 43 and outlet 44 of combustion products, the lid 42 is connected to a baffle wall 45 and is symmetrically located between the inlet 43 and outlet 44 of combustion products, and a condensate drain 46 is located in the lower part of the body 41.

Gas heating boiler works as follows.

With the accumulation of fine solid, gaseous and droplet-like particles in the device for removing pollutants 40, in its internal volume, the concentration of substances harmful to the health of the population increases. Consequently, when discharging harmful substances from the pollution removal device 40 manually or automatically (not shown in the figure), they intensively contaminate the surrounding air, adversely affecting, especially in the area where the heating gas boiler is located, the operating personnel.

When the device for removing contaminants 40 is in the form of a housing 41 with a baffle 45 and a condensate drain 46, the combustion products with fine solid and droplet-like particles from the circular groove 39 of the expanding part 35 of the ejector 20 enter the inlet 43 and hit the baffle 45, after which they fall off into the condensate drain 46, where a liquid mirror is formed from droplet-like particles, and fine solid particles are wetted here and accumulate in the condensate drain 46 in the form of a moistened mass. The gaseous combustion products, cleaned of fine solid and droplet-like particles, go around the baffle, where they additionally come into contact with the liquid mirror, is cleaned of gaseous contaminants during absorption by a liquid medium. Additionally purified in the condensate drain 46, combustion products in the gaseous state occupy the internal cavity of the pollution removal device 40 between the baffle 45, the liquid mirror of the condensate drain 46 and the outlet pipe 44. As a result, as the gas mixture of combustion products is released into the surrounding air, it is not contaminated with harmful for public health by substances. The liquid from the steam trap 46 is collected as it is filled into sealed containers (not shown) without contact with the environment. Consequently, environmental safety is ensured in the area of operation of the gas heating boiler.

The condensed vaporous moisture in the form of a finely dispersed mass, obtained as a result of cooling from the combustion products of natural gas, from the outlet 30 of the thermoelectric generator 22 enters the mixing chamber 31 of the ejector 20 and then into the cassette 7 with the adsorbing substance 8. As a result of the contact of the mixture of combustion products of natural gas, saturated finely dispersed droplet-like moisture, with an adsorbent 8, there is an intense destruction of its grains, followed by a decrease in the absorbing capacity of moisture in cassette 7 (see, for example, EN Serpionova Industrial adsorption of gases and vapors. - M .: "Higher School" , 1969 .-- 416 p., Ill.).

When performing on the inner surface 34 of the expanding part 35 of the ejector 20 helical grooves 36 with a profile 37 in the form of a "dovetail", finely dispersed drop-like moisture coming from the outlet 30 of the thermoelectric generator 22 through the mixing chamber 31 under the action of the centrifugal forces of the swirling flow (see, for example, Merkulov AP Vortex effect and its application in technology - Samara: GTU. - 309 p., ill.) moves in the cavity of helical grooves 36 with a profile 37 in the form of a "dovetail".

Finely dispersed moisture particles in cavities with a dovetail profile 37 come into contact with each other, coagulate, enlarge and move to the outlet 38 of the expanding part 35 of the ejector 20, where they enter the circular groove 39.

The circular groove 39 is connected to a dirt removal device 40, from where, as fine moisture accumulates, it is removed manually or automatically (not shown in the figure) into the environment. As a result, natural gas combustion products separated from the droplet-like finely dispersed moisture enter the cassette 7 for contact with the adsorbent and subsequent effective cleaning before being released into the environment.

In addition, the execution of the profile 37 of the helical grooves 36 in the form of a "dovetail" contributes to the flat-jet exit of combustion products along the entire length of the helical grooves 36 into the internal volume of the expanding part 35 of the ejector 20. This provides heat and mass transfer with a high degree of condensation of vaporous substances accompanying natural gas in the form of pollution (see, for example, Tsoi P.V. Methods for calculating individual problems of heat and mass transfer. - M .: Energiya, 1971. - 384 p., ill.), which additionally cleans the combustion products from pollution before being released into the environment.

In the process of burning natural gas, vaporous moisture is formed, which, as the combustion products are cooled, condenses along the length of the passage channel 24 for combustion products of the housing 23 of the thermoelectric generator 22 (for example, when burning 1 m ^{3 of} natural gas, about 2 m of water vapor is formed, see, for example, p. 153 Chepel V.M., Shur I.A.Combustion of gases in the furnaces of boilers and furnaces and maintenance of the gas facilities of enterprises. - L .: Nedra. - 1969). The formed finely dispersed condensed moisture on the inner surface 32 of the passage channel 24 for combustion products coagulates, coalesces and forms a condensate film. Due to the fact that the "hot" ends 26 of the set of differential thermocouples 25 are located on the inner surface 32 of the passage channel 24 for combustion products, there is a dissipation of the energy potential of the "hot" ends 26 of the set of differential thermocouples 25, since water is a conductor of electric current, in as a result, the thermoEMF generated by the thermoelectric generator 22 decreases, which ultimately reduces the efficiency of the gas heating boiler.

When covering the "hot" ends 26 of a set of differential thermocouples 25 with a dielectric 33 made of tantalum oxide, the dissipation of electric potential is not carried out (see, for example, Chemical encyclopedia. T4. M .: Soviet encyclopedia. 1995. 446 p.).

The coating of the "hot" ends 26 of the set of differential thermocouples 25 and the inner surface 32 of the passage channel 24 for combustion products, on which they are located, with a dielectric 33 of tantalum oxide in the form of a nano-like glassy film contributes to the fact that fine condensed particles of moisture from the cooling process of combustion products slide on dielectric 33 without coagulation and enlargement (see, for example, Litvinova B.A., Savruk E.N. Nanosized films of tantalum oxide obtained by the ion-plasma method // Proceedings of the regional scientific-practical conference "Modern problems and achievements of agricultural science in animal husbandry, plant growing and economy "- Tomsk. TSKHI IGLU, issue 12.2010. pp. 209-301).

As a result, along with the prevention of the scattering of the electric potential along the length of the passage channel 24 for combustion products under the protective action of the dielectric 33 made of tantalum oxide in the form of a nano-like glassy film, the corrosive destruction of the material of the body 23 of the thermoelectric generator 22 is also eliminated due to the fact that the finely dispersed condensed moisture particles are displaced a moving stream of natural gas from the inlet 29 to the outlet 30 of the passage channel 24 without the formation of a "spot" of liquid with corrosive consequences.

From the gas network, low-pressure natural gas through the automation system through a gas pipeline (not shown in the figure) enters the furnace 2 to the burner 3, where it ignites. The resulting combustion products pass through the heat exchanger 4, where the water is heated, and then enter the combustion products outlet 5, where they are divided into two streams. One stream with a temperature of about 100 ° C through the flange 21 of the partial exhaust of combustion products enters the inlet 29 of the passage channel 24 for combustion products of the housing 23 of the thermoelectric generator 22 and contacts the "hot" ends 26 of the set of differential thermocouples 25.

Due to the fact that the "cold" ends 27 of the set of differential thermocouples 25 are fixed on the outer surface 28 of the housing 23 of the thermoelectric generator 22 far from the passage channel 24 for combustion products and, accordingly, are in contact with the room air (for the kitchen + 16 ° C in accordance with SNiP 2.01.01-92 Construction climatology and geophysics. M: Stroyizdat, 1993. 82 p.), Then between the "cold" and "hot" ends of the thermoelectric generator 22 there is a thermoEMF. When performing a set of differential thermocouples 25 from chromel-copelyatermoEMF can reach 6.0 mV (see, for example, Ivanova TM Thermal measurements and instruments. M .: Energoatomizdat, 1984. 230 p.).

Consequently, the use of the temperature potential of the combustion products moving in the passage channel 24 of the housing 23 provides a voltage at the output of the thermoelectric generator 22 in the range of 12-36 V (see, for example, Technical fundamentals of heat engineering. Heat engineering experiment. Handbook / ed. General ed. V.M. Zorin. M .: Energoatomizdat, 1980. 560 p.), Which is quite enough for the implementation of both emergency lighting in the dark of the room where the gas heating boiler is located, and / or for powering the automation system and its control , i.e. eliminates the need to use electrical energy from an external source for these purposes. As a result, energy consumption during the operation of a gas heating boiler is reduced.

The second flow of combustion products moves through the combustion products outlet pipe 5, enters the ejector 20 and, passing through the mixing chamber 31, ejects the combustion products from the outlet 30 of the passage channel 24 of the housing 23 of the thermoelectric generator 22 and the mixed flow goes to the lower collector 13, where it is uniformly distributed but sections 16. Sections 16 consist of diffusers 17 and confusers 18, located relative to each other in a checkerboard pattern. The uniformity of the velocity diagram with the distribution of the flow of combustion products in the lower 13 collector is carried out due to the proportionally increasing cross-sections of the inlet holes 19 individually for each section 16.

The flow of combustion products moving in the body of the cassette 7, passing sequentially through the sections of the diffusers 17 and confusers 18, continuously changes its speed, which leads to turbulence of the flow and an increase in the intensity of heat and mass transfer of the adsorption gas purification process (see, for example, Baklastov AM and others. Industrial heat and mass transfer processes and installations.M .: Energoaudit. 1986-328 p.), as well as redistribution in sections 16 of the pressure of the moving stream of combustion products. This evens out the aerodynamic resistance in the sections 16 along the height from the lower collector 13 to the upper collector 12, which ensures effective adsorption cleaning, and this ultimately improves the environmental situation in the area of the cone-shaped nozzle 9. Further, from the upper collector 12 of the cassette 7, the refined combustion products come into the cone-shaped nozzle 9. The air flow of atmospheric air surrounding the vertically mounted cone-shaped nozzle 9 from the outer wall 6 flows around the curved surfaces of the plane 10, as well as the guiding and swirling ribs 11, twists, creating an ejection effect by increasing the air velocity in the flow between the curved the surface of the plane 10 and the outer surface of the outlet of the combustion products 9.

The originality of the proposed technical solution lies in the fact that the implemented devices for removing contaminants in the form of a housing with nozzles for input and output of combustion products, a cover and a condensate drain located in the lower part of the housing ensures the maintenance of normalized environmental safety in the area of operation of the heating gas boiler due to additional cleaning gas flow of combustion products from finely dispersed solid and droplet-like particles. This is done by the sedimentation of contaminants after contact with the baffle and on the liquid mirror of the condensate drain. As a result, the release of the gaseous stream of combustion products does not saturate the air environment with harmful substances that negatively affect the health of the population and service personnel.

Claims (1)

A gas heating boiler, consisting of a rectangular cabinet with thermal protection and a casing, inside which there is a furnace with a burner, a heat exchanger and a branch pipe for the outlet of combustion products through the outer wall of the room, installed vertically and containing a cone-shaped nozzle with curved planes and guiding and twisting ribs, a cassette with an adsorbing substance, hermetically installed in the exhaust pipe of combustion products between the casing of a rectangular cabinet with thermal protection and the inner surface of the outer wall of the room, while the cassette includes a vertical casing with upper and lower collectors, side walls, which with sectional partitions installed in it are made zigzag and form in for each section, diffusers and confusers located in relation to adjacent sections in a staggered manner, while the outlet of the combustion products includes an ejector installed in the direction of movement of the combustion products and a flange for a partial discharge of the product ov combustion, which is connected to a thermoelectric generator made in the form of a housing with a passage channel for combustion products and a set of differential thermocouples, while the "hot" ends of the set of differential thermocouples of the thermoelectric generator are located in the passage channel for combustion products, and their "cold" ends are reinforced on the outer surface of the thermoelectric generator housing away from the passage channel for combustion products, in addition, the inlet of the passage channel for combustion products of the thermoelectric generator housing is connected to the flange of the partial exhaust of combustion products, and the outlet is connected to the mixing chamber of the ejector, and the "hot" ends of the set of differential thermocouples and the inner surface of the passage channel for combustion products, on which they are located, are coated with a tantalum oxide dielectric in the form of a nano-like glassy film, in addition, on the inner surface of the part of the ezh expanding along the direction of the combustion products The vector has helical grooves with a dovetail profile, and at its outlet a circular groove is made connected to the dirt removal device, characterized in that the pollution removal device is made in the form of a body with a cover and nozzles for inlet and outlet of combustion products, and the cover is connected to the baffle and is symmetrically located between the inlet and outlet pipes of combustion products, and a condensate drain is located in the lower part of the body.

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