RU2292U1 - CATALYTIC HEATING DEVICE - Google Patents

Abstract

1. A catalytic heating device comprising a housing with a gas outlet pipe, inside of which there is a catalytic element with a rectilinear working surface and an evaporator located inside the catalytic element, characterized in that the evaporator is made in the form of a lower horizontal pipe connected by a vertical pipe to the upper horizontal pipe, to which a horizontal pipe is connected - a collector connected to gas distribution pipes having gas outlets, while inside the vertical pipe, the plugged pipe is coaxially located with the formation of an annular gap, the lower horizontal pipe is equipped with a fitting for connecting the fuel line, the pipe-manifold is equipped with a gas supply regulator, the evaporator is closed around the perimeter by a box-shaped structural element with lateral supporting surfaces to which the catalytic element is sealed, frontal and the rear walls of the housing are made in the form of articulated lids installed with the possibility of opening them. 2. The device according to claim 1, characterized in that the walls of the housing are double with the formation of a gap between the inner and outer walls.

Description

The invention relates to devices for local heating, using catalytic (flameless) oxidation of hydrocarbon fuel, and is intended for heating household, utility and industrial premises, tents, as well as for heating food and drying clothes.

A heater (I) is known, comprising a silver body with a chimney, a burner with a catalytic ring-shaped nozzle located inside the housing, a deflector located above the nozzle, a fuel line and a burner start device; the casing is made with double walls, between which a through-air heating channel is formed along its perimeter; body height 2.5 f 4.0 times the height of the nozzle; the deflector is made in the form of a cup of heat-conducting material, the bottom facing the nozzle and equal in diameter to it; The fins are made longitudinal on the outer surface of the inner wall of the housing. In addition, the device comprises a wick connected to a fuel line made of porous non-combustible material and a feeding element in the form of a perforated annular tube, located in the middle height zone of the catalytic nozzle.

The device has the following disadvantages. The design of the device is difficult to manufacture and assemble due to the annular shape of the catalytic nozzle, the presence of longitudinal ribs on the outer surface of the inner wall of the housing, a complex device for starting the device.

The device comprises a housing installed in the veins with a gap, a catalytic element with a rectilinear working surface, an evaporator, a device for removing combustion products; the body is formed by plates with a heat-reflecting surface dispersed along the height of the catalytic element with the formation of through openings and installed at an angle of 45 ° to its working surface; the device also contains starting electric heaters and a fuel tank connected by a fuel line to the fuel supply regulator, made in the form of a float chamber mounted on an arm.

The disadvantages of the device are low heat transfer, the complexity of the process of regulating the heat capacity of the device by changing the installation height of the float chamber, the lack of autonomy to start the device due to the need for electricity.

In addition, the device is designed to operate only on liquid fuel.

The proposed catalytic heating device solves the problem of ensuring versatility through the use of both liquid and gaseous fuels, as well as increasing heat dissipation and ensuring autonomy of work.

In addition, the device solves the problem of reducing the cost of the device and improving ease of use.

The essence of the proposed technical solution lies in the fact that the catalytic heating device comprises a housing with a gas outlet pipe inside which a catalytic element and a rectilinear working surface and an evaporator located inside the catalytic element are installed; the evaporator is made in the form of a lower horizontal pipe connected by means of a vertical pipe to an upper horizontal pipe to which a horizontal manifold pipe connected to

gas distribution pipes having gas outlets, while the inside of the vertical pipe has a muffled pipe coaxially arranged to form an annular gap, the lower horizontal pipe is equipped with a fitting for connecting the fuel pipe, the manifold pipe is equipped with a gas supply regulator; the evaporator around the perimeter is closed by a box-shaped structural element with lateral supporting surfaces to which the catalytic element is hermetically attached; the front and rear walls of the housing are made in the form of articulated lids and installed with the possibility of opening them.

In addition, the walls of the housing are double with the formation of a gap between the inner and outer walls.

New in the proposed device is that the evaporator is made in the form of a lower horizontal pipe connected by means of a vertical pipe to the upper horizontal pipe,

which is connected to a horizontal manifold pipe, connected to gas distribution pipes having gas

holes, if inside the vertical pipe, the plugged pipe is coaxially located with the formation of an annular gap, the lower horizontal pipe is equipped with a fitting for connecting the fuel pipe, the manifold pipe is equipped with a gas supply regulator; the evaporator around the perimeter is closed by a box-shaped structural element with lateral supporting surfaces to which the catalytic element is hermetically attached, the front and rear walls of the housing are made in the form of hinged lids installed with the possibility of opening them.

New in the device is also that the walls of the housing are double with the formation of a gap between the inner to the outer walls. $

and also increases the safety of using the device.

A gas outlet pipe is used to divert the products of catalytic oxidation from a heated room.

The catalytic element provides oxidation of hydrocarbon fuel, which results in the release of radiant thermal energy. In this case, the use of a catalytic element with a rectilinear working surface simplifies the manufacture and assembly of the catalytic element, and also increases its strength.

The design of the evaporator, which contains a lower horizontal pipe connected by means of a vertical pipe to an upper horizontal pipe, to which a horizontal manifold pipe is connected, connected to gas distribution pipes having gas outlet openings, wherein a muffled pipe is coaxially installed in the vertical pipe to form an annular gap, provides a uniform distribution of oxidizable fuel on the working surface of the catalyst and allows the use of both gas and liquid nd hydrocarbon fuel. When operating on liquid fuel in an annular gap formed by a vertical pipe and a plugged pipe coaxially installed in it, intense vapor formation of liquid fuel flows into the lower horizontal pipe of the evaporator. The resulting fuel vapor rises, the collector and gas distribution pipes enter the pipe. The process of catalytic oxidation of fuel vapors that enter the catalytic element through exhaust gas vents is carried out in the device similarly to the gas oxidation process when the device is operated on gas fuel.

preference for the tube.

The fitting installed in the lower horizontal pipe provides the possibility of supplying gas or liquid fuel through the heat conduit, while the gas cylinder or fuel tank are autonomous and are not structurally fixed to the device body.

A box-shaped structural element with lateral supporting surfaces covers the perimeter along the perimeter and at the same time is an element for fastening the plates of the catalytic element. This ensures the sealing of the working o & dsv device. The working cavity on the upper, lower and lateral sides is closed by a box-shaped structure, and on the front and back sides it is closed by plates of a catalytic element tightly attached to the supporting surfaces of the box-shaped structure. This design prevents the entry of unburned harmful products of the oxidation reaction into the environment, simplifies installation and increases the compactness of the device.

The implementation of the front and rear walls of the housing in the form of articulated lids with the possibility of their opening ensures the release of radiant thermal energy into the surrounding space during the operation of the device. In this case, the covers can also be installed if necessary in the closed position, for example, when firing up the device.

The execution of the walls of the housing double, consisting of internal and external walls, reduces the heating temperature of the housing. An air gap forms between the double walls, while the inner walls act as heat shields. This allows the use of cheaper grades of metal for the construction of the housing instead of using expensive heat-resistant grades or the application of additional heat-resistant coatings, and, in addition, prevents the heating of the housing to a temperature exceeding the permissible operating temperature.

In Fig. I presents the design of the proposed device is a front view.

Figure 2 presents the design of the proposed device is a side view.

The device comprises a housing I, the walls of which are mounted on a box-shaped base 2. The upper part of the housing I is made in the form of a cap with a gas outlet 3. The walls of the housing I are made double and consist of an inner 4 and an outer 5 walls, between which a gap is formed.

Inside the housing I there are plates b of a catalytic element with a rectilinear working surface. The plates b are made of a carrier, for example, silica or kaolin fiber, impregnated with a catalyst for deep oxidation of hydrocarbon fuels, made, for example, based on cobalt or nickel chromite.

Between the plates b is an evaporator 7. The evaporator 7 contains a lower horizontal pipe 8, connected through a vertical pipe 9 to the upper horizontal pipe 10, which in turn is connected to the horizontal pipe-collector II by means of a vertical pipe 12 and a horizontal pipe 13, while I / - are connected to the pipe-collector II shaped gas distribution pipes 14 with gas outlets located on the surfaces of the pipes 14 facing; to the inner surfaces of the plates b of the catalytic element.

In the pipe 9, a plugged pipe 15 is coaxially installed. With the formation of a narrow annular gap 16.

The pipe 8 is equipped with a fitting 17 for connecting a heat pipe, for example, a flexible hose (not shown in the drawing). The fitting 17 is fixed in the base 2. In the side of the base 2 there is an additional fitting 18 for easy connection

fuel line and stationary fastening of the fuel pipe section located inside the base 2.

The manifold pipe II is equipped with a rasa feed regulator 19.

The evaporator 7 assembly is mounted in the housing I by means of a horizontal collector pipe II fixed in the side walls of the housing I and the nipple 17 fixed in the base 2. Thus, the evaporator 7 is securely fixed at three points of the housing I.

The evaporator 7 around the perimeter is closed by a structural element 20 with lateral supporting surfaces 21. To the supporting surfaces 21 are pressed by flat frames 22 and hermetically attached by fasteners (not shown) of the plate b of the catalytic element. In the upper part of the element 20, there are sealed passage openings for passing the vertical tube 12 and the horizontal manifold pipe II. Thus, the working cavity of the device is formed, which is completely sealed.

The front and rear walls of the building I are fixed on the base 2 with the help of swivel joints 23 with the possibility of opening and installing the walls in a horizontal position. In the vertical position, the front and rear walls of the housing I are fixed with the help of the locking arms 24.

The walls of the housing I are installed on the base 2 with the formation of through openings 25, through which air from the surrounding space enters the housing I and into the gap between the double walls of the housing I.

On the basis of 2 installed bath 26 for the initial ignition of the device.

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highway (not shown in the drawing). When operating on liquid fuel, a fuel tank (not shown) is connected to the fitting 17 by means of a heat conduit. Liquid fuel by gravity by the principle of communicating vessels enters from the tank into the evaporator 7 fills the pipe 8 and part of the annular gap 16, while the fuel level in the evaporator 7 is determined by the fuel level in the fuel tank. The fuel tank is installed relative to the housing I at such a height that the fuel level in the tank does not exceed the height of the plugged pipe 15.

Carry out the initial ignition of the device. In the process of ignition, the front and rear walls (covers) of the device are installed in the closed position with the help of the locking handles 24. A small amount of liquid fuel is poured into the bath 26, the wick is ignited and the flame is brought from the wick to the bath 26 and to the bottom of the plates 6 of the catalytic element. At the initial moment of time, the usual flame burning occurs on the surface of the catalytic element, while the catalytic element is heated to the temperature at which the catalytic oxidation reaction begins. The closed position of the walls - the covers of the device contributes to a more intense heating of the plates 6 and the evaporator 7 and prevents the penetration of products of incomplete combustion of fuel into the room, and also protects the flame of the rod from extinction when the device is used outdoors.

At the end of the rosiaig, the flame decreases and the process of flameless catalytic oxidation begins. Walls - covers of the device are opened and installed in a horizontal position.

When working on gas fuel in the evaporator 7, the gas entering the fuel line is heated, it is supplied to the working cavity through the gas outlet openings in the tubes 14 and the gas is evenly distributed on the inner surface of the plates 6 of the catalytic element. /.:. -. ,. The gas passes through the pores of the support of the catalytic element impregnated with the catalyst and is actively surrounded by oxygen from the air entering the housing I through the through openings 25 contained therein. In this case, radiant thermal energy is released.

When working on liquid fuel during the initial ignition of the device, the plates b of the catalytic element are preheated and the fuel evaporates in the gap 16. The fuel vapor enters through the gas inlets in the tubes 14 of the evaporator 7 to the inner surface of the plates b, and the process of catalytic oxidation of the vapor begins. After the ignition is completed and the device reaches the stationary mode, the heat flux given off by the plates of the catalytic element activates the process of fuel evaporation. Vapors of intensely evaporating liquid fuel continuously flow from the evaporator 7 into the working cavity, pass through the pores of the support of the catalytic element impregnated with the catalyst, and similarly, as in the case of using gaseous fuels, the oxygen content of the air is actively oxidized with radiant thermal energy.

The resulting catalytic oxidation products are removed to the outside using a gas outlet 3.

The regulation of the heat output of the device during operation is carried out using the regulator 19, which changes the area of the orifice of the hole through which gas or fuel vapor enters the manifold pipe II.

The proposed catalytic heating device is universal, as it can operate on both liquid and gaseous fuels.

 / | f «V # T # 3f

In addition, the heater is simple in design, easy to assemble, safe to operate, has high heat dissipation, and is autonomous in operation.

Itovdiki fame:

1.a.s. USSR No. 1778450, f 24 C 5/08, publ. 1992

2.a.s. USSR No. II67406, R 24 C 5/08, publ., 1985

in.

Claims (2)

1. A catalytic heating device comprising a housing with a gas outlet pipe, inside of which there is a catalytic element with a rectilinear working surface and an evaporator located inside the catalytic element, characterized in that the evaporator is made in the form of a lower horizontal pipe connected by a vertical pipe to the upper horizontal pipe, to which a horizontal pipe is connected - a collector connected to gas distribution pipes having gas outlets, while inside the vertical pipe, the plugged pipe is coaxially located with the formation of an annular gap, the lower horizontal pipe is equipped with a fitting for connecting the fuel line, the pipe-manifold is equipped with a gas supply regulator, the evaporator is closed around the perimeter by a box-shaped structural element with lateral supporting surfaces to which the catalytic element is sealed, frontal and the back wall of the housing is made in the form of pivotally mounted covers installed with the possibility of their opening.  2. The device according to p. 1, characterized in that the walls of the housing are double with the formation of a gap between the inner and outer walls.