A combustor for oxidizing a combustion fuel and pre-heating one or more reactants for fuel reforming. The combustor includes an elongated housing having an inlet for receiving a combustion fuel and an outlet for exhausting combustion products. The elongated housing further includes a cylindrical sid
A combustor for oxidizing a combustion fuel and pre-heating one or more reactants for fuel reforming. The combustor includes an elongated housing having an inlet for receiving a combustion fuel and an outlet for exhausting combustion products. The elongated housing further includes a cylindrical side wall, a bottom wall, and a top wall. Inert particles are disposed within the housing adjacent the inlet. A combustion catalyst bed is disposed within the housing above the inert particles that is a mixture of inert particles and combustion catalyst. The inert particles and the combustion catalyst preferably have a volumetric ratio of inert particles to catalyst between about 2:1 and about 4:1. The combustor has at least one heat exchanger within the combustion catalyst bed for heating a reformer reactant and generating steam. Preferably, the combustor includes at least two heat exchangers within the combustion catalyst bed, the heat exchanging elements have different surface areas. The combustor can include at least one sensor for measuring temperature within the combustor, and preferably the reactor includes two or more sensors for measuring temperature at two or more locations within the combustion catalyst bed. A power-generating apparatus comprising the combustor, a fuel processor and fuel cell is also provided. Methods for pre-heating a reactant and generating steam for use in a fuel reformer and for manufacturing a combustor for use in fuel reforming are provided.
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1. Combustor for oxidizing a combustion fuel and pre-heating one or more reactants for fuel reforming, the apparatus comprising: an elongated housing having an inlet for receiving a combustion fuel; and an outlet for exhausting combustion gases;optionally, a mixer located at the inlet;inert particle
1. Combustor for oxidizing a combustion fuel and pre-heating one or more reactants for fuel reforming, the apparatus comprising: an elongated housing having an inlet for receiving a combustion fuel; and an outlet for exhausting combustion gases;optionally, a mixer located at the inlet;inert particles disposed within the housing adjacent the inlet with a first bed of inert particles being positioned to receive the combustion fuel from the inlet, the inert particles further comprising a second bed of inert particles which receives the combustion fuel after passing through the first bed, wherein the first bed is comprised of inert particles that are larger in size from the inert particles of the second bed;optionally, heating means for heating the combustion fuel;a combustion catalyst bed disposed within the housing to receive the combustion fuel after passing through the first and second beds of inert particles, wherein the combustion catalyst bed comprises catalyst particles mixed with inert particles in addition to the first and second layers of inert particles thereby defining mixed inert particles; anda heat exchanging element having an inlet for receiving a reformer reactant and an outlet for directing a heated reformer reactant out of the elongated housing for use in fuel reforming, at least a portion of the heat exchanging element disposed within the combustion catalyst bed. 2. The combustor of claim 1, wherein the elongated housing further comprises a cylindrical side wall, a bottom wall, and a top wall. 3. The combustor of claim 2, further comprising at least one sensor for measuring temperature within the combustor. 4. The combustor of claim 3, wherein the sensor is a thermocouple connected to the top wall of the combustor. 5. The combustor of claim 1, further comprising two or more sensors for measuring temperature at two or more locations within the combustion catalyst bed. 6. The combustor of claim 1, wherein the mixer is a static mixer connected to the inlet. 7. The combustor of claim 1, wherein the inert particles comprise alumina spheres. 8. The combustor of claim 1, wherein the heating means comprises an electrical heating element disposed below the combustion catalyst bed. 9. The combustor of claim 1, wherein the mixed inert particles and the combustion catalyst have a volumetric ratio of between about 2:1 and about 4:1. 10. The combustor of claim 1, wherein the volumetric ratio of mixed inert particles to combustion catalyst is between about 2.5:1 and about 3.5:1. 11. The combustor of claim 1, wherein the heat exchanging element comprises coiled tubing. 12. The combustor of claim 1, wherein there are at least two heat exchanging elements disposed within the combustion catalyst bed. 13. The combustor of claim 12, wherein at least two of the heat exchanging elements have different surface areas. 14. The combustor of claim 1, wherein: the first bed of inert particles comprises large inert particles and the second bed of inert particles comprises small inert particles;the small inert particles having an average particle size of less than about seventy-five percent of an average particle size of the large inert particles. 15. The combustor of claim 1, wherein: the first bed of inert particles comprises large inert particles and the second bed of inert particles comprises small inert particles;the small inert particles having an average particle size of less than about sixty-five percent of an average particle size of the large inert particles. 16. The combustor of claim 1, wherein: the first bed of inert particles comprises large inert particles and the second bed of inert particles comprises small inert particles;the small inert particles having an average particle size of less than about fifty-five percent of an average particle size of the large inert particles. 17. A method for manufacturing a combustor for oxidizing a combustion fuel and pre-heating one or more reactants for use in fuel reforming, the method comprising the steps of: providing a cylindrical housing having an inlet in a lower portion of the housing and an combustion products exhaust outlet in an upper portion of the housing;disposing within the housing at least one heat exchanging element, the heat exchanging element having an inlet for receiving a reformer reactant and an outlet for directing heated reformer reactant out of the heat exchanging element;loading inert particles into the housing adjacent the inlet, wherein the inert particles comprise a first bed and a second bed, and wherein the first bed is comprised of inert particles that are larger in size from the inert particles of the second bed; andloading a mixture of a combustion catalyst and inert particles into the housing above the inert particles, the mixture having a volumetric ratio of inert particles to combustion catalyst of between about 2:1 and about 4:1. 18. A power-generating apparatus comprising: a combustor for pre-heating one or more reformer reactants, the combustor having an elongated housing having an inlet for receiving a combustion fuel; an outlet for exhausting combustion gases; optionally, a mixer located at the inlet; inert particles disposed within the housing adjacent the inlet with a first bed of inert particles being positioned to receive the combustion fuel from the inlet, the inert particles further comprising a second bed of inert particles which receives the combustion fuel after passing through the first bed, wherein the inert particles comprise a first bed and a second bed, and wherein the first bed is comprised of inert particles that are larger in size from the inert particles of the second bed; optionally, heating means for heating the combustion fuel; a combustion catalyst bed disposed within the housing to receive the combustion after passing through the first and second beds of the inert particles, wherein the combustion catalyst bed comprises catalyst particles mixed with inert particles in addition to the first and second layers of inert particles thereby defining mixed inert particles; and at least one heat exchanging element disposed within the combustion catalyst bed, said heat exchanging element having an inlet for receiving a reformer reactant and an outlet for directing a heated reactant out of the elongated housing for use in fuel reforming;a fuel processor for converting the heated reformer reactants to a hydrogen-rich reformate; anda fuel cell for consuming the hydrogen-rich reformate in an electrochemical reaction to generate electrical power.
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