A combustion chamber, having an upper part and a lower part, may include an annular constriction, in combination with the combustion chamber, to aid in directing partially combusted gases such as carbon monoxide away from the periphery of the combustion chamber back toward its center, and into the f
A combustion chamber, having an upper part and a lower part, may include an annular constriction, in combination with the combustion chamber, to aid in directing partially combusted gases such as carbon monoxide away from the periphery of the combustion chamber back toward its center, and into the flame front. The annular constriction may also impede the flow of partially combusted gases located at the periphery, thus increasing the time these gases spend within the combustion chamber and increasing the likelihood that any products of incomplete combustion will undergo combustion. The combustion chamber may further comprise a dual burner cooktop for directing combustion gases and exhaust to multiple cooking vessels. In further embodiments, the combustion chamber may be made of, lined, or clad with a metal alloy comprising iron, chromium, and aluminum.
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1. A portable biomass fuel stove comprising: a main body including an inner chamber forming a combustion chamber, said combustion chamber further comprising;a lower combustion chamber for combustion of the solid biomass fuel, said lower combustion chamber having at least one inlet for air to pass th
1. A portable biomass fuel stove comprising: a main body including an inner chamber forming a combustion chamber, said combustion chamber further comprising;a lower combustion chamber for combustion of the solid biomass fuel, said lower combustion chamber having at least one inlet for air to pass through; andan upper combustion chamber for channeling exhaust out of the combustion chamber;wherein the combustion chamber is at least partially load bearing and at least one of the upper combustion chamber and the lower combustion chamber is formed of an alloy comprising FeCrAl. 2. The stove of claim 1, further comprising an orifice ring positioned within the upper combustion chamber. 3. The stove of claim 2, wherein the orifice ring is comprised of FeCrAl. 4. A portable biomass stove comprising: a main body including; a shell, with a plurality of handles;an inner chamber forming a combustion chamber, said combustion chamber including;a lower combustion chamber for at least partially containing the biomass fuel and including at least one inlet for the passage of at least air into the combustion chamber, andan upper combustion chamber having at least one outlet for venting at least part of any combustion byproducts away from said lower combustion chamber; andat least one annular constriction positioned in said upper combustion chamber, said constriction defining an aperture through which combustion byproducts flow, and through which an open flame may extend, said annular constriction to redirect at least a portion of any combustion byproducts upstream of said annular constriction back into the open flame combustion, and to create a recirculation zone downstream of said annular constriction to increase residence time of said combustion byproducts and to redirect at least a portion of said combustion byproducts back into the open flame combustion extending through said annular constriction; andwherein said combustion chamber is at least partially load bearing and at least one of the upper combustion chamber and the lower combustion chamber is formed of an alloy comprising FeCrAl. 5. A stove as defined in claim 4, wherein: said annular constriction is an orifice ring defining an outer periphery adjoined to the upper combustion chamber and an inner periphery defining said aperture. 6. A stove as defined in claim 5, wherein said inner periphery of said orifice ring defines separated tabs. 7. A stove as defined in claim 5, wherein said aperture is centered in said ring. 8. A stove as defined in claim 5, wherein said ring is flat. 9. A stove as defined in claim 5, wherein said ring is frustoconically shaped. 10. A stove as defined in claim 5, wherein a slot is formed between said inner edge and said outer edge, and extends at least part of the circumference around said ring. 11. A stove as defined in claim 5, wherein said ring is positioned in said upper combustion chamber is adjacent said lower combustion chamber. 12. A stove as defined in claim 5, wherein said ring is positioned in said upper combustion chamber is distal from said lower combustion chamber. 13. A stove as defined in claim 5, wherein more than one ring is positioned in said upper combustion chamber. 14. A stove as defined in claim 4, wherein said upper combustion chamber is formed of an alloy comprising FeCrAl. 15. A stove as defined in claim 4, wherein said lower combustion chamber and said upper combustion chamber are formed of an alloy comprising FeCrAl. 16. The stove of claim 4, wherein the FeCrAl comprises: carbon of about 0.03% or less by weight; andtitanium of about 0.5% by weight. 17. A portable biomass fuel stove comprising: a shell; comprising a plurality of handles for lifting and transporting the stove, a bottom for supporting the stove on the ground, the shell further defining a inlet and an outlet;a cooktop positioned at the outlet configured to accept and support a cooking vessel above said outlet; anda combustion chamber for containing and combusting solid biomass fuel, wherein the combustion chamber is metal, and comprises an upper combustion chamber and a lower combustion chamber;wherein the combustion chamber includes at least one annular constriction positioned in said upper combustion chamber, said constriction defining an aperture through which combustion gases and byproducts flow, and through which an open flame may extend, said annular constriction to redirect at least a portion of any gases and combustion byproducts upstream of said annular constriction back into the open flame combustion, and to create a recirculation zone downstream of said annular constriction to increase residence time of said combustion by products and to redirect at least a portion of said combustion byproducts back into the open flame combustion extending through said annular constriction; andwherein the combustion chamber is at least partially load bearing and at least one of the upper combustion chamber and the lower combustion chamber is formed of an alloy comprising FeCrAl.
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