EP4067740A1 - Wärmeerzeuger mit effizientem wärmeaustausch - Google Patents

Wärmeerzeuger mit effizientem wärmeaustausch Download PDF

Info

Publication number
EP4067740A1
EP4067740A1 EP22164690.4A EP22164690A EP4067740A1 EP 4067740 A1 EP4067740 A1 EP 4067740A1 EP 22164690 A EP22164690 A EP 22164690A EP 4067740 A1 EP4067740 A1 EP 4067740A1
Authority
EP
European Patent Office
Prior art keywords
circuit
combustion chamber
generator
generator according
duct
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Pending
Application number
EP22164690.4A
Other languages
English (en)
French (fr)
Inventor
Carlo Piazzetta
Francesco CONTE
Stefano Gallina
Tommaso GAZZOLA
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Gruppo Piazzetta SpA
Original Assignee
Gruppo Piazzetta SpA
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Priority claimed from IT102021000008072A external-priority patent/IT202100008072A1/it
Application filed by Gruppo Piazzetta SpA filed Critical Gruppo Piazzetta SpA
Publication of EP4067740A1 publication Critical patent/EP4067740A1/de
Pending legal-status Critical Current

Links

Images

Classifications

    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F23COMBUSTION APPARATUS; COMBUSTION PROCESSES
    • F23BMETHODS OR APPARATUS FOR COMBUSTION USING ONLY SOLID FUEL
    • F23B80/00Combustion apparatus characterised by means creating a distinct flow path for flue gases or for non-combusted gases given off by the fuel
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F23COMBUSTION APPARATUS; COMBUSTION PROCESSES
    • F23BMETHODS OR APPARATUS FOR COMBUSTION USING ONLY SOLID FUEL
    • F23B50/00Combustion apparatus in which the fuel is fed into or through the combustion zone by gravity, e.g. from a fuel storage situated above the combustion zone
    • F23B50/12Combustion apparatus in which the fuel is fed into or through the combustion zone by gravity, e.g. from a fuel storage situated above the combustion zone the fuel being fed to the combustion zone by free fall or by sliding along inclined surfaces, e.g. from a conveyor terminating above the fuel bed
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F23COMBUSTION APPARATUS; COMBUSTION PROCESSES
    • F23BMETHODS OR APPARATUS FOR COMBUSTION USING ONLY SOLID FUEL
    • F23B60/00Combustion apparatus in which the fuel burns essentially without moving
    • F23B60/02Combustion apparatus in which the fuel burns essentially without moving with combustion air supplied through a grate

Definitions

  • the present invention relates to a heat generator, in particular powered with biomass, such as pellets, which has a new structure of heat exchange, which is particular effective, in particular among air to be heated and combustion fumes.
  • the European patent EP1327825B1 describes for example a pellet stove comprising a flue gas discharge circuit including a section extending from the top of the respective combustion chamber as well as a suction circuit for air to be heated extending downwards and in heat exchange with part of the discharge circuit.
  • An object of the present invention is thus to provide a new heat generator, in particular powered with biomass.
  • Another object of the present invention is to provide a heat generator capable of ensuring an effective heat exchange, in particular between the air to be heated and the combustion fumes.
  • Another object of the present invention is to provide a heat generator suitable for ensuring low nitrogen emissions.
  • Another object of the present invention is to provide a heat generator capable of ensuring a completion of the combustion with an increase in the CO 2 content and a reduction of pollutants, such as particulate matter.
  • a heat generator is provided according to claim 1.
  • a heat generator 1 has been illustrated, such as a stove for heating environments according to the present invention.
  • Such heat generator comprises, in addition to optional outer protection walls 1a, a main frame 2 delimiting a combustion chamber CC, the generator further including a door or wing for opening/closing 3 an opening for accessing to the combustion chamber CC, which door is constrained, for example pivoted to the main frame, so that it is movable between an open position and a closed position of the combustion chamber CC.
  • the combustion chamber CC is delimited by respective walls of the frame 2.
  • the door or wing 3 defines the front F of the generator, whereas the opposed surface of the generator 1 defines the rear R thereof. Therefore, the indications in this text to the front, rear, front portion or rear portion should be considered according to this approach.
  • the frame 2 delimits a first circuit 4 for the passage of ambient air to be heated in the generator 1 and conveyed hot to the environment to be heated around the generator 1 and/or (by means of respective ducts) away from it, a second circuit 5 for transmitting comburent air from the external environment to the generator 1 in the combustion chamber CC and a third circuit 6 for the intake or discharge of the combustion fumes or gases from the combustion chamber CC to the outside.
  • ambient air to be heated indicates the air taken from the environment outside the generator, heated in the generator itself and then returned to the environment to heat it (forced convective air). Therefore, this ambient air is not involved in the combustion that occurs in the stove due to the reaction between fuel and comburent air.
  • the first circuit 4 has a section in heat exchange relationship with a respective section of the third circuit 6, so that the ambient air to be heated is heated by the heat emanating from the combustion fumes flowing in the third circuit 6.
  • the second circuit 5 has a section in heat exchange relationship with a respective section of the third circuit 6, so that the comburent air is heated by the heat emanating from the combustion fumes flowing in the third circuit 6.
  • the generator 1 then comprises at least one duct or pipe for recirculating 7 the combustion fumes from the third intake or discharge circuit 6 or from suction or thrust means provided in the same or for the same in the combustion chamber CC and/or in the second circuit 5 for transmitting comburent air and/or in a brazier of the generator provided or opening in the combustion chamber CC.
  • the recirculation duct or pipe 7 is then arranged to send part of the combustion fumes from an initial, intermediate or terminal section of the third circuit 6 into the combustion chamber CC or into the second transmission circuit 5, so that the combustion fumes, instead of being expelled directly from the generator, are involved in the combustion of new comburent and fuel.
  • the recirculation duct 7, if provided is a pipe with a circular section with a suitable diameter, such as between 10 and 200 mm, if desired about 30-50 mm, for example 40 mm or even not with circular section and having a suitable section, for example between 80 mm 2 and 30000 mm 2 , for example about 1200-1300 mm 2 .
  • this duct if provided, can have a circular, rectangular section or a section with another configuration.
  • the at least one recirculation duct can include at least one pipe 7 extending between a portion of the third circuit 6 and a section of the second section 5, for example a plenum where the comburent air conveyed is conveyed from outside the generator 1.
  • a recirculation pipe or duct 7 could be provided extending from a section of the third circuit 6 directly into a brazier of the generator 1 and/or into the combustion chamber CC.
  • the recirculation duct 7 can have a terminal intake section 7a fitted in a hole delimited by a portion or duct 23 or 24 of the third circuit 6.
  • this connection is ensured by means of a suitable dimensioning of the terminal intake section 7a and/or by means of suitable fastening means, but in any case in such a way that there is a fluid seal between the terminal intake section 7a and a respective hole in a duct of the third circuit 6, so that there is no leak of the exhaust gases at this fitting.
  • the terminal intake section 7a is open in the direction of the flow of the combustion fumes (see figure 3a ). More in particular, the terminal intake section 7a or rather a respective end portion 7a1 can be arranged so as to be substantially parallel or slightly inclined with respect to the direction of the combustion fumes CF in the respective section (if desired 23 or 24) of the third circuit 6 where the end portion 7a1 is arranged and in such a way as to define an inflow or inlet opening IO which is open or facing the direction of arrival of the combustion fumes CF in the respective section (if desired 23 or 24) of the third circuit 6.
  • the end portion 7a1 delimiting the inflow or inlet opening IO in the recirculation duct 7 is substantially parallel to the main extension dimension of the section 23 or 24 of the third circuit 6 where this end portion 7a1 is arranged, and the inflow opening IO is open in the direction opposite to the direction of flow of the fumes in this section 23, 24.
  • the terminal intake section 7a of the recirculation duct 7 fitted in the third circuit could have, approaching the respective inflow opening, a second portion 7a2 and then the end portion 7a1, and these portions 7a1, 7a2 are preferably orthogonal or inclined with respect to each other.
  • the third circuit 6 opens, which has at least two outlets, another section of the third circuit 6 being mounted in one of these outlets, while the recirculation duct 7 is mounted in the other outlet.
  • the optional intake of combustion fumes from the third circuit 6 through the recirculation duct 7 can clearly be obtained by means of any other suitable solution.
  • valves or baffles can or cannot be provided, even in the recirculation duct 7, for example which are automatic electronically controlled by a respective control unit of the generator 1 and arranged to open/close respective compartments or openings, so as to allow or not the passage of the fumes between the third circuit 6 and the combustion chamber CC and/or the second transmission circuit 5.
  • These valves would therefore be arranged to allow or prevent the communication of fluid between an intermediate section of the third circuit 6 and the combustion chamber CC or between the third circuit 6 and the second circuit 5.
  • At least one first fan 8 is then provided in the generator 1, as a means of suction or thrust provided in the third circuit 6, which first fan 8 is provided with or served by a first suction motor or gearmotor 9, a respective duct or section of the third intake or exhaust circuit 6 opening into the fan 8, so that the first fan 8 is arranged to suck the combustion fumes from the combustion chamber CC.
  • the first fan 8 could be provided in an initial, intermediate or terminal position of the third circuit 6.
  • the recirculation duct 7, if provided, could extend directly from the first fan 8.
  • the suction of the fumes from the combustion chamber CC by the first fan 8 can cause a vacuum in the combustion chamber which determines an intake of comburent air through the second circuit 5. Thanks to this expedient, the suction of the fumes from the combustion chamber CC determines, in fact, a vacuum in the latter and thus, if a recirculation duct is provided, causes also the suck of the combustion fumes in the at least one recirculation duct 7 and therefore in the second circuit 5 and/or in the brazier and/or in the combustion chamber.
  • the generator 1 is also provided with a second fan 10 with a second motor or gearmotor 11 for the intake or delivery of ambient air to be heated in the first circuit 4.
  • the first circuit 4 for air passage extends from the top of the generator towards the bottom thereof, so that the air to be heated passes through the generator 1 from top to bottom for all or part of its path.
  • the first circuit 4 can open on the front of the generator, for example in an area below the door or leaf 3.
  • a thrust fan and not a suction fan for combustion fumes could also be provided, as well as alternatively or in addition to what is indicated above, a thrust or suction fan for the comburent air.
  • the ambient air in the first circuit 4 could also be conveyed upwards starting from the bottom, sides and/or rear of the generator.
  • the generator 1 is then also provided with at least one brazier 12 in the combustion chamber CC for the combustion of a first fuel.
  • the generator 1 can also be equipped with a tank 13 for a fuel, such as a biomass, for example pellets, as well as with at least one duct or line 14 for feeding this fuel from the tank 13 to the combustion chamber CC and, if provided, to the brazier 12.
  • a fuel such as a biomass, for example pellets
  • the generator 1 can also include means for conveying, for example automatic, such as an auger 15 or the like means, suitably driven, of the fuel along the supply line 14 up to the combustion chamber CC and from there to the brazier 12 or on the fire bed of the combustion chamber CC.
  • the supply line 14 can open into the combustion chamber CC in a position slightly higher than the brazier 12 or even inside the brazier 12.
  • the tank 13 can be mounted on the rear of the generator 1, for example in a position raised from the ground and supported by respective uprights or components of the frame 2, while the supply line 14 extends from the tank 13 downwards and towards the front F of generator 1.
  • the brazier 12 as it is known, is provided for the positioning and combustion of the fuel or fuels supplied by means of the supply duct 14 from a fuel tank or container kept by a user or also positioned manually by an operator in the combustion chamber CC.
  • the generator 1 can then comprise at least one burner or tubular casing 16 adapted to receive the igniter resistance.
  • the flame generation end or tip of the at least one burner or tubular casing 16 is provided in the brazier 12 or better at a lower portion thereof, clearly suitably operated or operable, preferably electronically.
  • the brazier 12 can comprise at least one base 12a and a tubular wall 12b, for example cylindrical, extending from the base 12a and connected to the bottom of the combustion chamber CC.
  • the duct or supply line 14 can be mounted or open into the brazier 12 or above it.
  • the brazier 12 can delimit at least one hole 12c for the passage of comburent air and any combustion fumes, for example at the base 12a or at the tubular wall 12b.
  • the second circuit 5 is in fluid communication with the passage hole/s 12c, so that the comburent air possibly with the recirculated combustion fumes is/are fed through the at least one passage hole 12c.
  • respective components of the frame 2 could delimit an accumulation area CA around the brazier 12, and the second circuit 5, as will be described later, could flow into this accumulation area CA around the brazier 12 and from this within it through the passage holes 12c for supplying comburent air and any combustion fumes in the brazier 12.
  • a plurality of holes 12c along the whole base 12a and two or more plurality of holes 12c in the tubular wall 12b can be provided, each plurality being for example aligned along a respective circumference or linear extension, for example concentric or coaxial to the longitudinal axis of the tubular wall 12b.
  • the comburent air fed through the holes 12c is mainly used to ignite the flame as soon as possible and once the combustion has started to limit as much as possible the emissions of undesired substances.
  • the brazier 12 even includes an upper wall 12d for receiving the fuel from the supply line 14, which upper wall 12d can for example be flared towards the center or intermediate area of the brazier, so as to convey the fuel towards this center/intermediate area.
  • the frame 2 comprises a front main body FMB where, among other things, the combustion chamber CC is delimited and, if desired, behind the combustion chamber a zone of passage PZ for ducts of the first and/or third circuit.
  • combustion chamber CC As regards the combustion chamber CC, it is delimited by a bottom 2a, two side walls 2b, 2c, a rear 2d and a top 2e of the front main body FMB.
  • brazier 12 With reference to the bottom 2a, it can have a lower wall 2a1 with the brazier 12 mounted in an intermediate position or in the center thereof, which brazier may or may not extend upwards starting from the lower wall 2a1.
  • the walls or sections of the side wall 2b, 2c extend upwards (if desired also partially downwards), while the rear 2d delimiting the combustion chamber CC extends upwards (also partly downwards) from the rear edge of the lower wall 2a1, which rear 2d is connected, for example welded or mechanically connected to the side walls 2b, 2c.
  • the fuel will be fed on the latter and will mainly remain on it or will slide towards the center of the brazier 12 during the respective combustion.
  • the rear 2d can be made of a suitable material, for example a refractory material, if desired based on aluminum oxides, calcium silica, silico-aluminous compounds, magnesium compounds and in any case with a chemical composition ensuring use in a combustion chamber subject to the prolonged action of fire, together with characteristics of reduced thermal conductivity.
  • a suitable material for example a refractory material, if desired based on aluminum oxides, calcium silica, silico-aluminous compounds, magnesium compounds and in any case with a chemical composition ensuring use in a combustion chamber subject to the prolonged action of fire, together with characteristics of reduced thermal conductivity.
  • the rear can comprise a section of wall with a main vertical extension 2d, although if desired curved in horizontal section, connected at the top or in one piece with a section with a main horizontal extension and, if desired, also partly vertical 2e1 of the top element 2e, extending from the upper edge of the rear 2d towards the front of the generator 1.
  • the section with main horizontal extension 2e1 of the top element 2e can have a width substantially equal to that of the combustion chamber CC and an extension in the direction front-rear between about 1/3 and 1/2 of the latter.
  • the top element 2e can also include a second box-like body or front box-like body 2e2 supported by other walls of the frame 2 or better of the respective upper main body.
  • a top wall 2m can be provided as an upper closure of the combustion chamber, which top wall 2m is at a distance between the horizontal main section 2e1 and optional front box-like body 2e2.
  • an area of passage is delimited between the section with main horizontal extension 2e1 and, if provided, the front box-like body 2e2, which extends upwards and from here towards the passage area PZ and therefore within outlet or discharge ducts 6a which will be discussed later.
  • the two side walls 2b, 2c are bridge-connected by means of a rear wall 2f at a distance from the rear 2d so as to define with it the passage area PZ.
  • a main jacket 2g can also be provided enclosing the combustion chamber CC and also the rear wall 2f on the rear and sides, which main jacket 2g has an upper section 2g1 which ends at the top of the generator 1 at a level higher than the combustion chamber and the rear wall 2f.
  • the first circuit 4 can include one or a series of two, three, four or more conveying ducts 4a, if desired with extension substantially vertical or inclined with respect to the vertical, which extend behind the combustion chamber CC and more particularly behind the rear 2d thereof, in contact or not with the latter.
  • the overall passage section defined by the conveying ducts 4a can be any suitable, for example between about 25,000 and 35,000 mm 2 , if desired about 30,000 mm 2 .
  • the conveying ducts 4a are open upwards, so that they extend from a top zone UZ of the generator 1, if desired closed or hidden by means of a suitable grid 1b, until they open into a bottom area BA defined from the generator 1 and the second fan 10 is mounted and acts on a boundary wall 4b - in particular the lower one - of the bottom area BA.
  • the first circuit 4 can then comprise a delivery duct 4d for the air to be heated, which departs from the second fan 10 and opens at the front of the generator, for example in an area below the door or leaf 3, if desired with a grille covering the discharge end of the conveying duct 4a.
  • the top zone UZ is defined at the rear by the upper section 2g1 of the main jacket 2g and frontally by another wall of the frame 2, for example a shaped wall 2h extending upwards from the top wall 2m.
  • the conveying ducts 4a can be delimited or fitted and therefore extend into the passage zone PZ between the rear 2d and the rear wall 2f.
  • a baffle 17 is also provided, mounted in the bottom area BA under the lower end of the conveying ducts 4a and arranged to deviate the flow of air exiting from the conveying ducts 4a, so that it does not enter directly into the second fan 10, but only after it has passed around the baffle 17.
  • the baffle 17 can be supported by means of one or more sections of wall extending between the upper wall 4c delimiting the bottom area BA and a respective section, if desired an edge section of the deflector 17.
  • the baffle 17 can be made of a plate, if desired, made of metallic material, with horizontal or inclined main extension with respect to the horizontal. According to the non-limiting embodiment shown in the figures, the baffle 17 has a main section 17a with an end front and proximal to the front F of the generator 1 at a level higher than the respective rear or distal end of the front F of the generator.
  • the baffle 17 can also be provided with end sections 17b, 17c each extending from the main section 17a, which end sections 17b, 17c are bent from the main section 17a upwards.
  • the first circuit 4 extends from the top to the bottom of the generator 1, actually passing behind the combustion chamber CC.
  • an intake opening SO can be provided open towards the rear R of the generator 1, from which a supply duct 18 starts and flows, directly or not, into the combustion chamber CC.
  • the intake opening SO could have any suitable size, for example between about 800 and about 1200 mm 2 , if desired about 1000 mm 2 .
  • the generator 1 can provide, for defining or delimiting the intake opening SO, a fitting or sleeve 25, for example flanged, which can be mounted, for example by means of screws, on the frame 2, if desired on the rear R of the latter, which fitting or sleeve 25 would guarantee or facilitate the connection, if necessary, of a pipe for conveying air from the outside towards the intake opening SO.
  • a fitting or sleeve 25 for example flanged, which can be mounted, for example by means of screws, on the frame 2, if desired on the rear R of the latter, which fitting or sleeve 25 would guarantee or facilitate the connection, if necessary, of a pipe for conveying air from the outside towards the intake opening SO.
  • the supply duct 18 can have any suitable configuration and position.
  • the supply duct 18 can extend starting from the suction opening SO, from the bottom upwards with a curved or rectilinear extension or even with other extension.
  • This duct 18 can have, for example, a cross-section circular or of another shape.
  • a first box-like body or plenum 19 is also provided, where the supply duct 18 opens and, if desired, into which the recirculation pipe or duct 7, if provided, opens.
  • the box-shaped body 19 can define a first area FA where the supply duct 18 and, if desired, the recirculation duct 7 open, as well as a second area SA, in fluid communication by means of a suitable passage opening 20 with the first area FA, which second area SA is open towards the combustion chamber by means of a window 21.
  • the window 21 can open into the accumulation area CA, if provided, and from here into the brazier 12.
  • first portion 19a defining the first area FA and having a configuration for example of a polyhedron, such as a cube or a parallelepiped
  • second portion 19b defining the second area SA and with configuration for example of a polyhedron, such as a cube or a parallelepiped, with a wall or a section of wall in common with the first portion 19a, in which second portion the passage opening 20 is delimited, if desired having circular profile.
  • the second portion 19b has an extension greater, for example between 2 and 4 times than the first portion 19a.
  • the second portion 19b can have a wall or a portion of wall in common with the front main body FMB or with the rear of the same or in any case a wall or a section of the wall of the second portion 19b is leaning against a respective section of a wall (if desired, the rear) of the combustion chamber CC or of the front main body FMB.
  • the tubular casing 16 designed to house the igniter resistance can extend through the box-like body 19 or the respective second portion 19b and then through the accumulation area CA where an end or tip for generating the flame is provided.
  • the second circuit 5 could also include a branch duct 22 for transmitting the comburent air at the door 3 or better flush the internal surface 3a1 of the respective glass or double glazing 3a.
  • the branch duct 22 can comprise, among others, a duct, which if desired extends from the box-like body or plenum 19 and flows into an upper area of the frame 2.
  • Said branch duct 22 can have, for example, a main section 22a which is substantially vertical and, if desired, one, two or more horizontal sections 22b, 22c from the box-like body 19 to the vertical portion 22a and from this in the door 3 or in an intermediate component, which two horizontal sections 22b, 22c could also be at different levels.
  • the main section 22a can extend on a side of the generator 1.
  • the frame 2 has in an zone at the top of the combustion chamber CC, at least one front box-like body 2e2 including a series of wall sections 2e3, 2e4 mutually connected with each other, if desired by means of screws or welding, so as to define a volume HV where the branch duct 22 flows, which volume HV is open at the bottom, for example at a slot SL which runs immediately above the internal surface 3a1 of the glass or double-glazing unit 3a and for an extension equal to all or part of its width.
  • This volume HV can have a first upper section HV1, if desired, with a rectangular or polygonal section and a second lower section HV2 with a section decreasing downwards up to if desired a section of a few mm.
  • a first upper series of sections of wall 2 and 3 are provided such as to define the first upper section HV1 and a second lower series of sections of wall 2 and 4 such as to define the second lower section HV2 and opening below into the slot SL.
  • the third circuit 6 can extend for example starting from a zone above and behind the combustion chamber CC and more particularly in the passage zone PZ.
  • the third circuit 6 includes one or a series of two, three, four or more outlet or exhaust ducts 6a, for example with an extension substantially vertical or slightly inclined with respect to the vertical.
  • the end of entrance to the outlet or exhaust duct or ducts 6a can be accessible (from the fumes or combustion gases) from an area above the top of the combustion chamber CC, and more particularly between the top wall 2m and the section with horizontal main extension 2e1.
  • the combustion chamber CC is defined by an upper section 2e1 with a passage opening, slot or path around or in front of this upper section 2e1 so as to reach the upper ends of the outlet or exhaust ducts 6a.
  • a passage opening, slot or path around or in front of this upper section 2e1 so as to reach the upper ends of the outlet or exhaust ducts 6a.
  • outlet or discharge ducts 6a can be arranged between or alternated with respective conveying ducts 4a, if the latter are provided.
  • the outlet or discharge ducts 6a and the conveying ducts 5a are advantageously in the same zone with reference to the distance with respect to the combustion chamber CC and even more advantageously they are separated from the latter only by a wall constituted by the rear 2d.
  • outlet ducts 6a can be delimited or fitted between the rear wall 2f and the rear 2d of the combustion chamber CC.
  • outlet ducts 6a open below into a manifold zone CZ of the third circuit 6, which area is defined below the combustion chamber CC and, if desired, above the bottom area BA, if the latter is provided.
  • the manifold zone CZ can be defined below by the upper wall 4c delimiting the bottom area BA.
  • outlet ducts 6a are open at the front at the manifold zone CZ.
  • a tubular component 23 can be mounted, if desired above the upper wall 4c, if desired with at least one suitably perforated wall 23a, which tubular component 23 extends from the manifold zone CZ towards the rear of the generator 1 and can open into the first fan 8 or into a duct that opens into the first fan 8.
  • a plurality of holes 23b for example two, three, four, five, six or more, each with a diameter between 10 and 20 mm, for example about 15 mm, can be delimited in a wall 23a, if desired frontally, of the tubular component 23.
  • An exhaust duct 24 of the third circuit 6 can then extend from the first fan 8 and open on the rear R of the generator.
  • the recirculation pipe or duct 7 can extend from the tubular component 23 and/or from the exhaust duct 24 or even from the fan 8.
  • the first 4 and/or second 5 circuits are in a heat exchange ratio for a section thereof with the third circuit 6.
  • heat exchange could be provided between the first 4 and third 6 circuits, this occurring in particular between at least one conveying duct 4a and at least one outlet or exhaust duct 6a.
  • at least one conveying duct 4a is parallel for at least 60%, 70%, 80% or 90% and extends alongside or if desired shares a wall with at least one outlet or discharge duct 6a.
  • At least two conveying ducts 4a are provided, one opposite to the other with respect to an outlet or discharge duct 6a or viceversa.
  • heat exchange between second 5 and third 6 circuit could be provided.
  • box-like body or plenum 19, if desired, a respective second portion 19b could extend alongside, if desired in contact with an outlet or discharge duct 6a or between two outlet or discharge ducts 6a.
  • manifold zone CZ if provided, could be in heat exchange with the bottom area BA, if the latter is provided.
  • the generator also comprises a control unit or unit for electronic control of the respective components, such as for example the motors, any valves, the auger, etc.
  • a fan for suctioning or delivering fumes by activating a fan for suctioning or delivering fumes, the latter are also conveyed into the at least one recirculation duct 7 and thus into the second circuit 5 and/or directly into the combustion chamber CC and/or into the brazier 12, this being obtained according to the size of the ducts or even after activating suitable valves.
  • the holder of the present patent rights has been able to experience that owing to a generator according to the present invention it is possible to reduce remarkably nitrogen oxide emissions.
  • combustion was further completed with an increase in the CO2 content and a reduction in pollutants such as particulate matter.
  • the increase in the concentration of CO2 benefits the corrective formulas of the pollutants referring to a predetermined value of oxygen and this also determines a significant increase in combustion efficiency.
EP22164690.4A 2021-03-31 2022-03-28 Wärmeerzeuger mit effizientem wärmeaustausch Pending EP4067740A1 (de)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
IT102021000008072A IT202100008072A1 (it) 2021-03-31 2021-03-31 Generatore di calore con basse emissioni di inquinanti
IT202100015506 2021-06-14

Publications (1)

Publication Number Publication Date
EP4067740A1 true EP4067740A1 (de) 2022-10-05

Family

ID=80928857

Family Applications (1)

Application Number Title Priority Date Filing Date
EP22164690.4A Pending EP4067740A1 (de) 2021-03-31 2022-03-28 Wärmeerzeuger mit effizientem wärmeaustausch

Country Status (1)

Country Link
EP (1) EP4067740A1 (de)

Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2006008762A1 (en) * 2004-07-16 2006-01-26 Filippo Antonio Di Cecilia A pellet heat generator with production of hot water and air
EP1327825B1 (de) 2002-01-10 2006-04-05 Gruppo Piazzetta S.p.A. Ofen für Brennstoffpellets
WO2019145854A1 (en) * 2018-01-24 2019-08-01 Bellintani Claudio System for optimizing the combustion process of a stove/boiler, particularly a pellet-fired one

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP1327825B1 (de) 2002-01-10 2006-04-05 Gruppo Piazzetta S.p.A. Ofen für Brennstoffpellets
WO2006008762A1 (en) * 2004-07-16 2006-01-26 Filippo Antonio Di Cecilia A pellet heat generator with production of hot water and air
WO2019145854A1 (en) * 2018-01-24 2019-08-01 Bellintani Claudio System for optimizing the combustion process of a stove/boiler, particularly a pellet-fired one

Similar Documents

Publication Publication Date Title
CN213237518U (zh) 用于加热休闲旅游车中的水和空气的加热设备和休闲旅游车
KR100917787B1 (ko) 고체연료용 열풍기
US8186286B2 (en) Wood fired boiler
WO1993013360A1 (en) Gas-fired heaters with burners which operate without secondary air
EP1992874A2 (de) Strahlungsheizeranordnung
US4060196A (en) Heat extractor for stoves
WO2017048314A1 (en) Improved pellet stove
PL224288B1 (pl) Kocioł centralnego ogrzewania
EP4067740A1 (de) Wärmeerzeuger mit effizientem wärmeaustausch
KR200422299Y1 (ko) 벽난로
US4607612A (en) Fireplace furnace
JPH03504534A (ja) パルス燃焼装置
EP1890092A1 (de) Wohnraumofen für feste Brennstoffe zur Heizung eines Wohnraums und davon entfernten Räumen sowie zur Heizung von sanitärem Warmwasser
WO2022208177A1 (en) Heat generator with low pollutant emissions
EP3757476B1 (de) Heizgerät
KR200294584Y1 (ko) 벽난로용 에어 커튼장치
JP2006052912A (ja) ストーブ
JP4044431B2 (ja) ペレット燃料燃焼装置
KR20070008989A (ko) 왕겨를 주연료로 하는 보일러
US3274989A (en) Air heater
KR101723483B1 (ko) 에어커튼 기능을 가진 난로
CN218921597U (zh) 拆装式轻钢保温结构密集烤房
FI129332B (fi) Palamisilmakasetti, tulisija palamisilmakasetilla, menetelmä palamisilman syöttämiseksi ja palamisilmakasetin jälkiasennussarja
CN210519976U (zh) 一种发烟炉
CN209726232U (zh) 一种催化燃烧环保节能设备

Legal Events

Date Code Title Description
PUAI Public reference made under article 153(3) epc to a published international application that has entered the european phase

Free format text: ORIGINAL CODE: 0009012

STAA Information on the status of an ep patent application or granted ep patent

Free format text: STATUS: THE APPLICATION HAS BEEN PUBLISHED

AK Designated contracting states

Kind code of ref document: A1

Designated state(s): AL AT BE BG CH CY CZ DE DK EE ES FI FR GB GR HR HU IE IS IT LI LT LU LV MC MK MT NL NO PL PT RO RS SE SI SK SM TR

STAA Information on the status of an ep patent application or granted ep patent

Free format text: STATUS: REQUEST FOR EXAMINATION WAS MADE

17P Request for examination filed

Effective date: 20230311

RBV Designated contracting states (corrected)

Designated state(s): AL AT BE BG CH CY CZ DE DK EE ES FI FR GB GR HR HU IE IS IT LI LT LU LV MC MK MT NL NO PL PT RO RS SE SI SK SM TR

P01 Opt-out of the competence of the unified patent court (upc) registered

Effective date: 20230515