NL2021261B1 - Heat cell for heating water by means of heat transfer from flue gases - Google Patents

Abstract

7 Heat cell for heating water by means of heat transfer from flue gases Extract 5 The heat cell comprises a heat exchanger and a vertically positioned flue gas pipe. The heat exchanger comprises a combustion chamber for the production of flue gases, at least one flue gas channel and at least one water channel. The flue gas pipe ensures the discharge of the flue gases from the heat cell after the flue gases have transferred heat in the flue gas channel to water in the water channel. An annular element is inserted in a section of the flue gas pipe. A tube is attached to the annular element which is open on both sides so that flue gas can flow through the tube. The full length of this tube is directed downwards and is located in the flue gas pipe in the flue gas direction upstream of the annular element. Flue gas can flow along the tube up to the annular element.

Description

© 2021261 © B1 PATENT (2?) Application number: 2021261 (22) Application submitted: July 6, 2018 (51) Int. Cl .:

F24H 1/00 (2018.01) F24H 1/10 (2018.01) F23D 14/02 (2019.01) F23D 14/46 (2019.01) F23M 20/00 (2019.01) F24H 1/12 (2019.01) F24H 1/14 (2019.01) F24H 1/16 (2019.01)

© Priority: (73) Patent holder (s): BEKAERT COMBUSTION TECHNOLOGY B.V. (4?) Application registered: to ASSEN January 15, 2020 (72) Inventor (s): (43) Request published: René Huitsing in Middelstum (74) Agent: © Patent granted: January 15, 2020 ir. J.C. Volmer et al. In Rijswijk © Patent issued: January 16, 2020

54) Heat cell for heating water by means of heat transfer from flue gases

57) The heat cell comprises a heat exchanger and a vertically positioned flue gas pipe. The heat exchanger comprises a combustion chamber for the production of flue gases, at least one flue gas channel and at least one water channel. The flue gas pipe ensures the discharge of the flue gases from the heat cell after the flue gases have transferred heat in the flue gas channel to water in the water channel. An annular element is inserted in a section of the flue gas pipe. A tube is attached to the annular element which is open on both sides so that flue gas can flow through the tube. The full length of this tube is directed downwards and is located in the flue gas pipe in the flue gas direction upstream of the annular element. Flue gas can flow along the tube against the annular element.

This patent has been granted regardless of the attached result of the research into the state of the art and written opinion. The patent corresponds to the documents originally submitted.

P33648NL00

Heat cell for heating water by means of heat transfer from flue gases

The invention relates to a heat cell for heating water by means of heat transfer from flue gases. The heat cell contains a special element in the flue gas pipe for avoiding noise pollution.

State of the art

Heat cells for heating water by means of heat transfer from flue gases are known, WO2009 / 053248A1 describes such heat cells.

However, it is known that such heat cells can exhibit annoying noise nuisance, e.g. whistle. It is known to use special inlet elements in the inlet of cylindrical gas premix burners of heat cells to avoid noise nuisance. EP1087180A1 describes a cylindrical burner equipped with such an inlet element. Such elements, however, do not always work adequately, or cannot be mounted, e.g. due to lack of space. Furthermore, such elements cause a not insignificant pressure drop at the entrance of the gas premix burner.

It is also known to mount a silencer in the heat cell, as described in WO2011 / 161042A1. Such silencers actually have a complex composition and cause an important pressure drop in the channel in which they are mounted.

Description of the invention

The invention relates to a heat cell for heating water by means of heat transfer from flue gases. The heat cell comprises a heat exchanger and a vertically positioned flue gas pipe. The heat exchanger comprises a combustion chamber for the production of flue gases, at least one flue gas channel and at least one water channel. The flue gas pipe must ensure the discharge of the flue gases from the heat cell after the flue gases have transferred heat in the at least one flue gas channel to water in the at least one water channel. An annular element is inserted in a section of the flue gas pipe. A tube is attached to the annular element which is open on both sides so that flue gas can flow through the tube. The full length of this tube is directed downwards and is located in the flue gas pipe in the flue gas direction upstream of the annular element. Flue gas can flow along the tube against the annular element.

The heat cell of the invention has proven to be surprisingly free from disturbing noise nuisance when use is made of a fairly simple construction of the element which ensures that no disturbing noise is present. It is furthermore a special advantage that - thanks to the positioning of the tube relative to the annular element - no condensate from the flue gases remains on or in the sound-damping element (which consists of the annular element and the tube attached to it) stand.

The annular element is preferably provided with a plurality of holes for the passage of flue gas over its surface. Preferably, the plurality of holes in the annular element are circular and evenly distributed over the surface of the annular element. Such embodiments have the advantage that a lower pressure drop of the flue gases occurs in the flue gas pipe.

The tube is preferably attached to the inner diameter of the annular element. Such embodiments are easy to implement.

The length of the tube is preferably smaller than the inner diameter of the annular element; more preferably, the length of the tube is greater than 80% of the inner diameter of the annular element. Such embodiments have been found to be particularly advantageous for avoiding noise pollution.

Preferably the tube has no perforations; apart from possibly a perforation to pierce a temperature sensor so that the flue gas temperature in the tube can be measured.

A flue gas pipe made of plastic is particularly advantageous.

In one embodiment of the invention, the combustion chamber is in the form of a beam with a triangular cross-section.

The combustion chamber is preferably bounded by three sides, by a front side and by a rear side. The first side comprises a wall and is preferably constructed from it. The second side contains a wall that contains an opening for mounting a premix gas burner. The second side is preferably constructed from this wall. The third side is open to allow flue gas produced in the combustion chamber to flow into the at least one flue gas channel.

The heat cell preferably comprises a premix gas burner in the combustion chamber, for the production of flue gases.

The premix gas burner is further preferably in the form of a beam with a triangular cross section. The burner has three sides, a closed front and a closed back. The first side and the second side of the burner contain a perforated plate through which premixed gas can flow before being burned. The third side of the burner is open for introducing premixed gas to be burned after it has flowed through the perforations of the perforated plate from the first side or from the second side.

The heat cell preferably comprises a condensation tray. The heat exchanger is mounted on the condensation tray. The flue gas pipe is attached to the condensation tray for the exhaust of the flue gases. There may be connecting pieces and / or a gasket between the condensation tray and the flue gas pipe.

Brief description of the figures

Figure 1 shows a heat cell according to the invention.

Figure 2 shows a sound-damping element as used in the invention.

Figure 3 shows a section of the flue gas pipe.

Embodiment

Figure 1 shows an exploded image 100 of an example of a heat cell according to the invention. The heat cell comprises a heat exchanger 102 and a vertically positioned flue gas pipe 104. The heat exchanger comprises a combustion chamber for the production of flue gases, a number of parallel flue gas channels and a number of parallel water channels.

In the example, the combustion chamber 106 is in the form of a beam with a triangular cross-section. The combustion chamber is bounded by three sides, by a front and by a rear. The first side is made up of a wall. The second side contains a wall that contains an opening in which a premix gas burner 108 is mounted. The third side is open to allow flue gas produced in the combustion chamber to flow into the flue gas channels.

The premix gas burner 108 of the example has the shape of a beam with a triangular cross-section. The burner has three sides, a closed front and a closed back. The first side and the second side of the burner contain a perforated plate through which premixed gas can flow before being burned. The third side of the burner is open for introducing premixed gas to be burned after it has flowed through the perforations of the perforated plate from the first side or from the second side.

The heat exchanger is mounted on a condensation tray 110. The flue gas pipe is attached to the condensation tray for the discharge of the flue gases from the heat cell. Between the condensation tray and the flue gas pipe is a gasket 112.

The flue gas pipe 104, 304 ensures the removal of the flue gases from the heat cell. In a section of the flue gas pipe there is a sound-damping element 215, 315 (not visible in Figure 1, see Figure 2 and Figure 3). This sound-damping element comprises an annular element 230, 330 and a tube 232, 332 and is made in one piece from plastic. The tube is attached to the inner diameter of the annular element. The full length of this tube is directed downwards in the flue gas pipe. This also means that the full length of the tube is in the flue gas pipe in the flue gas direction upstream of the annular element. In the example, the outer diameter of the annular element is 100 mm, its inner diameter is 60 mm and the length of the tube is 56 mm.

Claims (13)

Conclusions A heat cell for heating water by means of heat transfer from flue gases, comprising - a heat exchanger, wherein the heat exchanger comprises a combustion chamber for the production of flue gases, comprises at least one flue gas channel and at least one water channel; and - a vertically positioned flue gas pipe, for discharging the flue gases from the heat cell after the flue gases have transferred heat in the at least one flue gas channel to water in the at least one water channel; wherein an annular element is inserted in a section of the flue gas pipe; wherein a tube is attached to the annular element which is open on both sides so that flue gas can flow through the tube; wherein the full length of the tube attached to the annular element is directed downwards and is located in the flue gas pipe in the flue gas direction upstream of the annular element; wherein flue gas can flow along the tube against the annular element. 2. Heat cell as in the first claim; wherein the annular element is provided with a plurality of holes for the passage of flue gas over its surface. The heat cell of claim 2, wherein the plurality of holes in the annular element are circular; and are evenly distributed over the surface of the annular element. A heat cell according to any one of the preceding claims, wherein the tube is attached to the inner diameter of the annular element. 5. A heat cell according to any one of the preceding claims, wherein the length of the tube is smaller than the inner diameter of the annular element; and preferably wherein the length of the tube is greater than 80% of the inner diameter of the annular element. A heat cell according to any one of the preceding claims, wherein the flue gas pipe is made of plastic. A heat cell according to any one of the preceding claims, wherein the combustion chamber is in the form of a beam with a triangular cross-section. A heat cell according to any one of the preceding claims, wherein the combustion chamber is bounded by three sides, by a front side and by a rear side; wherein the first side comprises a wall and is preferably constructed from it; the second side including a wall containing an opening for mounting a premix gas burner; and wherein the second side is preferably constructed from this wall; wherein the third side is open to allow flue gas produced in the combustion chamber to flow into the at least one flue gas channel. A heat cell according to any one of the preceding claims, wherein the heat cell comprises a premix gas burner in the combustion chamber for the production of flue gases. The heat cell of claim 9, wherein the premix gas burner is in the form of a beam with triangular cross section; wherein the burner has three sides, a closed front and a closed back; wherein the first side and the second side of the burner contain a perforated plate through which premixed gas can flow before being burned; wherein the third side of the burner is open for introducing premixed gas to be burned after it has flowed through the perforations of the perforated plate from the first side or from the second side. A heat cell according to any one of the preceding claims, wherein the heat cell comprises a condensation tray, the heat exchanger being mounted on the condensation tray; and wherein the flue gas pipe is attached to the condensation tray for the discharge of the flue gases. A heat cell according to any one of the preceding claims 1-11, wherein the tube contains no perforations. A heat cell according to any one of the preceding claims 1-11; wherein the tube contains a perforation and wherein a temperature sensor is stopped through the perforation in the tube so that the flue gas temperature can be measured from the flue gas flowing through the tube. 1/2 100