RU2449225C1 - Condensation boiler of external installation - Google Patents

Abstract

FIELD: power engineering.

SUBSTANCE: condensation boiler of external installation comprises a hydraulically and thermally insulated body, inside of which there is a gas burner device, a heat-tube heat exchanger with direction and reverse lines, a coaxial flue connected to a stack. Additionally the boiler comprises a condensation heat exchanger and a centrifugal fan, at the same time the coaxial flue with the condensation heat exchanger are installed downstream the heat-tube heat exchanger in the stack base, and in the upper part of the hydraulically and thermally insulated body, downstream the hest-tube heat exchangers there is a centrifugal fan capable of overcoming additional resistance of smoke fumes movement in the coaxial flue.

EFFECT: reduced boiler dimensions, cheaper production of boilers and preservation of boiler operability in case of power loss.

2 dwg

Description

FIELD OF THE INVENTION

The invention relates to the field of production of hot water boilers, in particular to condensation boilers for outdoor and indoor use, using the latent heat of vaporization of water vapor in flue gases due to additional energy capture during condensation of water vapor.

State of the art

Known water-heating universal boiler installation, consisting of a water heating boiler containing a gas burner device, a gas duct, nozzles for heating and return water, an upper drum, in which a hot water supply system is mounted, made in the form of a multi-pass high-speed water-water heater containing bundles of brass tubes separated at the ends of the chamber and arranged sequentially from the bottom up (see Pat. RU No. 2133925, class F24H 1/22).

The disadvantage of this boiler plant is the high cost of generating heat.

A well-known outdoor boiler containing a gas burner, a boiler heat exchanger, a three-way valve with direct and reverse lines, a chimney, while at the base of the chimney a hatch for cleaning soot and a condensate pipe is installed, and the building heating system contains a vertical riser connected to a straight a boiler line, a deaeration expansion tank, distributing risers with heating devices, a return line to the heating system, a circulation pump, a mud filter (see Condensing boiler l, RGU - M1 operating instructions for Ca 2. 574.023.РЭ OJSC Starorusspribor Plant, 175200, Staraya Russa, Novgorod Region, Mineralnaya St. 24).

The disadvantage of this boiler is its high cost and the cost of heat production, low efficiency.

The closest in technical essence and the achieved positive effect and accepted by the authors for the prototype is an outdoor condensation boiler containing a gas burner device, a boiler heat exchanger, a three-way valve with direct and reverse lines, a chimney, while a hatch for cleaning soot is installed at the base of the chimney a condensate drain pipe, and a straight line is connected to the vertical riser of the building heating system, which contains distributing risers with heating devices, the return line of the system from a boiler and a circulation pump, wherein the boiler in the lower inner part of the chimney is equipped with a heat exchanger of the condensate part, and a fairing is installed inside the heat exchanger of the condensate part, made to evenly distribute the flue gas flow, while the upper part of the heat exchanger of the condensate part is connected to the return line of the heating system, containing a deaeration-expansion tank and a mud filter, and the lower part of the heat exchanger is connected to the return line of the boiler (see US Pat. RU No. 2395042, class F24H 1/00).

The disadvantage of this boiler is its large dimensions, as well as the need to install a larger diameter chimney and increase the height of the boiler due to the need to place a condensing heat exchanger above it.

Disclosure of invention

The objective of the invention is to develop a condensation boiler for outdoor use, having a decrease in size, the cost of production of condensing boilers by reducing the height and diameter of the chimney, the cost of heat production and maintaining the efficiency of the boiler when the power is turned off.

The technical result, which can be obtained using the present invention, is to reduce the size of the boiler, reduce the cost of boiler production and preserve the efficiency of the boiler when the power is turned off.

The technical result is achieved using an external condensation boiler containing a thermally insulated housing, inside of which there is an atmospheric modulated non-volatile gas burner device, a fire tube with direct and reverse lines, a coaxial chimney connected to the chimney, while it is additionally equipped with a condensation heat exchanger and a centrifugal fan, moreover, a coaxial chimney with a condensing heat exchanger installed behind the fire tube ennikom at the base of the chimney and the top of the housing for gidroteploizolirovannogo fire-tube heat exchanger a centrifugal fan installed with the possibility of overcoming the resistance of additional flue gas movement in a coaxial flue.

Thus, the technical result is achieved due to the fact that a coaxial chimney with a condensing heat exchanger is installed behind the fire tube heat exchanger at the base of the chimney, and a centrifugal fan, for example, EBMPAPST, is installed in the upper part of the heat-insulated housing, for example, by which the resistance of the second stroke is overcome flue gas, which leads to the installation of a chimney, which is usual for boilers, for outdoor use, and the use of atmospheric modulated energy Gas burner gonezavisimogo device saves boiler efficiency at power shutdown.

Brief Description of the Drawings

Figure 1 is given a condensation boiler for outdoor use, General view, section.

Figure 2 is the same, the connection of the pipes of the outdoor boiler to the pipes of the heating system of the building with a forced circulation system.

The implementation of the invention

The outdoor condensation boiler consists of a thermally insulated housing 1 with a door (not shown), inside which there is a fire tube heat exchanger 2 with direct and return pipes 3 and 4, respectively, while the fire tube heat exchanger 2 contains an atmospheric modulated non-volatile gas burner device 5, a coaxial chimney 6, inside which is equipped with a condensing heat exchanger 7 made of corrugated thin-walled stainless steel pipe with direct and return pipes 8 and 9, respectively but, at the same time, a condensate drain pipe 10 is installed at the base of the coaxial chimney 6, and the upper part of the coaxial chimney 6 is connected to the chimney 11, a centrifugal fan 12 is installed in the housing 1 behind the fire tube 2, while the return line 13 of the building heating system is connected to the return pipe 4 of the fire tube heat exchanger 2 through an automatic valve 14 with a normally open nozzle, and a straight line 15 of the building heating system is connected to a straight pipe 3 of the fire tube heat exchanger 2, the circulation pump 1 6, the heating system of the building is connected to the automatic valve 14 with a return line 13 using the pipe 17 and with a direct pipe 8 of the condensing heat exchanger 7 using the pipe 18, while the return pipe 9 of the condensing heat exchanger 7 is connected to the return pipe 4 of the fire tube heat exchanger 2, and the pipe 18 connected to a straight line 15 of the building heating system through an automatic valve 19 with a normally open nozzle.

Condensing boiler outdoor placement works as follows.

The door of the thermally insulated housing 1 is opened, an atmospheric modulated non-volatile gas burner device 5 is launched, it generates heat that traps the heat pipe heat exchanger 2, while the flue gases pass through a coaxial chimney 6, they wash the condensing heat exchanger 7 and are removed into the atmosphere by a chimney 11, the surfaces of the condensation heat exchanger 7, the condensate flows down and is removed through the condensate drain pipe 10 from the heat-insulated housing 1, and The fresh air is pumped by a centrifugal fan 12 into the hydrothermally insulated housing 1, passes over the hot lid of the heat exchanger heat exchanger 2, is heated and, under slight pressure, is supplied to an atmospheric modulated non-volatile gas burner 5, which overcomes the additional resistance of the coaxial chimney 6, the coolant from return line 13 through the circulation pipe 17 the pump 16 through the pipe 18 is fed through a straight pipe 8 of the condensing heat exchanger 7 to the condensing heat exchanger 7 and further through pipe 9 to the return pipe 4 of the fire tube heat exchanger 2, having heated in the fire tube heat exchanger 2 to the required temperature, the heat transfer medium through the straight pipe 3 of the fire tube heat exchanger 2 is supplied to the straight line 15 of the building heating system, but since the automatic valve 14 s on one side normally open nozzle discharge occurs, and on the other hand - the circulation pressure, then automatically the valve 14 closes, closes also, due to the circulation pressure in the pipe 18, the automatic valve 19, the coolant is forcedly circulated, and when the power disappears, the circulation pump 16 is stopped and the centrifugal fan 12 is de-energized, the draft is carried out only by the chimney 11, which reduces the supply of external air to the atmospheric modulated non-volatile gas burner device 5, the nozzle of the automatic valve 14 opens and the nozzle of the automatic valve 19, the coolant from the return line 13 of the building heating system enters the return pipe 4 heat exchanger 2 and at the same time through the pipe 9 of the condensing heat exchanger 7 to the condensing heat exchanger 7, heated in both heat exchangers 2 and 7, it enters through a straight pipe 3 into a straight line 15 of the building heating system, the heat carrier from the condensing heat exchanger 7 through the pipe 8 through an opened automatic nozzle valve 19 - in a straight line 15 of the heating system of the building. Thus, the natural circulation of the coolant is carried out in case of violation of the supply of electricity, while the heating system does not defrost and condensation does not occur in the absence of electricity, since the speed of the coolant during natural circulation is several times lower.

The invention in comparison with the prototype and other known technical solutions has the following advantages:

- reducing the size and cost of production of the boiler;

- maintaining the efficiency of the boiler when power is turned off;

- cheaper heat production;

- increase in boiler efficiency by 10-15% due to the use of latent heat of vaporization of water vapor in flue gases and additional energy capture during condensation of water vapor.

Claims (1)

Outdoor condensation boiler, containing a thermally insulated body, inside which there is a gas burner device, a fire tube exchanger with direct and reverse lines, a coaxial chimney connected to a chimney, characterized in that it is additionally equipped with a condensing heat exchanger and a centrifugal fan, while a coaxial chimney with condensation the heat exchanger is installed behind the fire tube heat exchanger at the base of the chimney, and in the upper part of the heat-insulated A centrifugal fan with the ability to overcome the additional resistance to the movement of flue gases in a coaxial chimney is installed on the body, behind the fire tube heat exchanger.

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