GB2161923A

GB2161923A - Catalytic camping stove

Info

Publication number: GB2161923A
Application number: GB08516668A
Authority: GB
Inventors: Claudio Bruno; Michael D Leshner; Thomas Tonon
Original assignee: David Landau
Current assignee: David Landau
Priority date: 1984-07-03
Filing date: 1985-07-02
Publication date: 1986-01-22
Also published as: BE902808A; FR2567251B1; SE8503197L; IT1237561B; SE463228B; FR2567251A1; SE8503197D0; IT8567607A0; DE3523811C2; DE3523811A1; GB8516668D0; CH662048A5; GB2161923B; CA1266212A; NL8501860A

Abstract

A catalytic stove (10) has a mixing chamber (18) having one end adapted to receive a fuel can (12) and an opposite end provided with a diffuser (28). A plate (30) provided with a grid extends across the exit end of the diffuser (28). A catalytic surface is coated on the exit portion of the plate (30). As the fuel, eg propane, butane, passes through the mixing chamber 18, it entrains air. The fuel/air mixture is then ignited at the top of the chamber 18. After several seconds, the catalyst is heated and the flame is extinguished by turning off the gas flow. The gas flow is re- established and catalytic combustion takes place at surface of plate 30. Food may then be cooked by placing pan on supports 36. <IMAGE>

Description

SPECIFICATION Catalytic camping stove This invention relates to camping stoves.

The conventional camping stove of the type designed to fit in a backpack or the like consists of a burner unit adapted to screw or clamp onto a can containing a supply of fuel such as propane or butane. While such stoves meet the prime objectives of being lightweight and hence easily portable, they suffer from the serious drawback of relying on an open flame to produce heat. The flame poses a fire hazard particularly when used in a dry location. In addition, the flame is subject to being extinguished, or the heat therefrom to being dispersed during windy or rain conditions. A further problem with such stoves is that they permit only a limited degree of throttling and hence, must burn at substantially the same rate in all conditions.

In view of the above, it is the principal object of the present invention to provide an improved camping stove which is less sensitive to weather conditions than conventional, flame type stoves.

According to the present invention there is provided a camping stove having a burner unit in which heat may be generated from the catalytic combustion of catalyst means positioned within the flow path of a combustible fuel supplied to said stove.

In particular the present invention preferably provides a camp stove comprising an elongated fuel-air mixing chamber in the form of an elongated tube. A fuel tank coupling is provided at the inlet of the chamber. A diffuser is provided surrounding the outlet of the chamber. A plate provided with a grid overlies the outlet end of the diffuser. The plate is a monolithic metallic or ceramic member with between 200 and 400 openings per inch therein, the openings being on the order of .06" x .06" and .044" X .044", respectively. The plate has an exit face with a catalytic coating thereon extending minutely into the interstices of the grid. The catalytic coating is formed from the group consisting of platinum, palladium, rhodium and iridium.

Such a stove may be readily throttled as required to increase or decrease the rate of combustion, is more fuel efficient than conventional stoves, and yields less objectionable emissions than conventional stoves.

The invention will now be described by way of example with reference to the accompanying drawings in which: Figure 1 is a simplified side elevational sectional view of a catalytic stove in accordance with the present invention; Figure 2 is a sectional view taken along reference line 2-2 of Fig. 1 in the direction indicated by the arrows; Figure 3 is a simplified enlarged side elevational view of the stove plate; and, Figure 4 is a fragmentary enlarged schematic plan view of the plate grid.

In the drawings, Fig. 1 in particular, a stove 10 in accordance with the present invention is depicted. The stove is designed to be used with a conventional fuel carl or tank 1 2 containing liquid butane or propane. To this end, the top of tank 1 2 contains a coupling for connection to a mating coupling provided at the bottom of the stove. A valve 14 is provided at the inlet to the stove for regulating the flow of fuel from the tank into the stove.

The stove includes a mixing chamber in the form of an elongated tube 1 8.

An orifice 1 6 is provided at the inlet to the mixing tube 1 8 which comprises the main body of stove 10. The orifice is fixed and serves to regulate the flow of fuel from tank 1 2 when valve 1 4 is open. The orifice produces a high velocity jet of fuel which enters into tube 18. Ambient air which enters the tube 18 through an inlet opening 20 is sucked into the tube where is it mixed with the gas to form a combustible mixture. The relative sizes of the orifice and tube determine the resulting ratio of air to fuel passing through the stove.

At the top end of tube 1 8 a flame holder 22 in the form of a perforated truncated cone is provided. The flame holder 22 serves as a cap for the tube so that the perforations 24 extending through the cap provide the only exit for the fuel/air mixture passing through the tube. As shown, the perforations 24 are distributed substantially uniformly over the flame holder surface.

An ignition port 28 extends through the flame holder 22. A spark igniter, utilizing, for example, a flint or piezoelectric element may be provided in the ignition port in the manner common in conventional gas stoves.

A diffuser 28 comprising an inverted, truncated cone extends upwardiy from the side of tube 1 8 adjacent to its upper end. As shown, the ignition port 28 passes through the diffuser. The bottom of diffuser 28 is sealed to the outer surface of tube 1 8 so that the diffuser 28 acts as a funnel directing the gas/air mixture upwardly and outwardly. A plate 30 is provided extending across the open top end of the diffuser 28. A gasket seals the edge of plate 30 to a rim 32 which, in turn, is sealed to or formed integral with the top edge of the diffuser. Rim 34 is provided with spaced projections 36 that extend beyond the top face of plate 30. These projections serve as a support for pots or pans to be heated on the stove. The plate 30 is shown in some detail in Figs. 3 and 4.As shown, the plate is a generally pancakeshaped member which may be formed of a ceramic or metal. The plate is formed as a monolith with a relatively large number of small openings extending therethrough. The number of openings should be on the order of 200-400 per square inch.

An important aspect of the present invention resides in the fact that a catalytic surface is applied as a coating to the outer (i.e. exit) face of plate 30 extending into the interstices of the grid to a depth of approximately 1 or 2 mm. This depth is such as to complete combustion of the fuel/air mixture in the presence of the catalyst. The catalyst is applied only as a surface coating to plate 30. The catalyst may be platinum, palladium, or other rare metal such as rhodium or iridium.

In operation, the valve is first opened to permit fuel to flow from the tank through the orifice into the mixing tube.

As the gas passes through the tube it entrains air thereby creating a flammable mixture. The spark igniter is then activated or a flame is passed through the ignition port to ignite the gas/air mixture at the top of the flame holder. After several seconds the catalyst is heated and the flame is extinguished by turning off the gas flow. The valve is then reopened to re-establish gas flow and after a few seconds the top portion of the plate 30 glows from the catalytic combustion that is taking place. Food may then be cooked or water boiled by placing a pan on the pot/pan supports 36. Heating takes place by means of radiant heatings and by convection of the heated gases passing adjacent to the cooking utensil. Since the present stove operates without a flame, it is less sensitive to wind than are conventional flame stoves. In additiion, the catalytic stove throttles better than conventional stoves since there is no need to support a flame.

Claims

1. A catalytic stove comprising: a fuel/air mixing chamber having an inlet and an outlet; a diffuser surrounding the chamber outlet; a plate overlying the diffuser, said plate having a grid of openings passing therethrough; an inner face of the plate directed toward said chamber; and, an exit face of said plate directed away from said chamber, said exit face being provided with a catalytic coating extending minutely into the interstices of the grid.

2. The stove in accordance with claim 1 further comprising a flame holder disposed about said chamber outlet and positioned within said diffuser.

3. The stove in accordance with claim 1 or 2 wherein said diffuser comprises a truncated, inverted cone and said flame holder comprises a truncated perforated cone.

4. The stove in accordance with anyone of claims 1 to 3 further comprising fuel receiving means at the chamber inlet; an orifice upstream of said fuel receiving means to accelerate the flow of fuel through said chamber; and, an air inlet passing through said chamber whereby fuel passing through said chamber entrains air from within said chamber.

5. The stove in accordance with claim 2 further comprising fuel/air igniter means in said chamber aligned with said flame holder.

6. The stove in accordance with anyone of the preceding claims further comprising a pan support extending about said plate grid, said support including support surfaces extending outwardly beyond the exit face of said plate.

7. The stove in accordance with any one of the preceding claims wherein said plate comprises a monolithic member provided with between 200 and 40 openings per square inch.

8. The stove in accordance with any one of the preceding claims wherein said catalytic coating is selected from the group consisting of platinum, palladium, rhodium and iridium.

9. The stove in accordance with any one of the preceding claims wherein said catalytic coating extends to a depth of 1 or 2 mm.

10. A camping stove having a burner unit in which heat may be generated from the catalytic combustion of catalyst means positioned within the flow path of a combustible fuel supplied to said stove.

11. A camping stove substantially as herebefore described with reference to and as illustrated in the accompanying drawings.