Claims
- 1. A process for combusting a nitrogen-containing fuel with resulting low NO.sub.x emissions comprising the steps of directing a fuel-rich mixture of the fuel and primary air through at least one fuel-rich combustion zone having a catalytic bed the outer perimeter margin of which is carried by a support structure which comprises a wall, catalytically combusting the mixture within the bed to release thermal energy, limiting transfer of thermal energy from the bed into the support structure to maintain the outer perimeter margin of the bed at an optimum temperature which minimizes formation of NO.sub.x during the combustion, the step of limiting transfer of the thermal energy including heating the portion of the wall which is disposed about the first bed to a temperature of greater than 1000.degree. K. during the entire combustion process to minimize the temperature differential between the wall and outer perimeter of the bed and thereby minimize the rate of the heat transfer therebetween, exhausting products of combustion from the bed with such products of combustion being mixed with secondary air and directed through at least one downstream bed comprised of a catalyst material, and catalytically combusting the mixture in the downstream bed to substantially complete combustion of the fuel.
- 2. A process as in claim 1 in which the flow rate of primary and secondary air is in an overally stoichiometric proportion with the flow rate of fuel, including the step of extracting thermal energy from the products of combustion exhausting from the first bed for limiting temperature of combustion in the downstream bed to below the use temperature of the catalyst material of the downstream bed.
- 3. A process as in claim 1 in which the step of heating the wall is carried out by directing electrical current through resistance elements disposed about the wall.
- 4. A process as in claim 1 in which the step of heating the wall is carried out by cyclically passing an electro-magnetic inductance heating field through the wall about the bed.
- 5. A process as in claim 1 in which the step of heating the wall includes directing at least a portion of the products of combustion from the first bed along a path in heat-exchange relationship with the portion of the wall which is disposed about the first bed.
- 6. A process as in claim 1 in which the step of heating the wall is carried out by combusting a fuel to produce a flame and directing the flame in heat-exchange relationship with the portion of the wall which is disposed about the first bed.
- 7. A process as in claim 1 in which the combustion products from the first bed comprises a fuel-rich mixture and are directed into an additional catalytic bed carried by a support structure and disposed between the first and second mentioned catalytic beds, catalytically combusting the mixture within the additional bed to release thermal energy, limiting transfer of thermal energy from the additional bed into the support structure by heating the portion of the wall which is disposed about the additional bed to a temperature of greater than about 1000.degree. K. during the entire combustion process to minimize the temperature differential between the wall and outer perimeter of the bed and thereby minimize the rate of heat transfer therebetween.
Government Interests
This invention described in this patent was made in the course of work under U.S. Environmental Protection Agency Contract No. 68-02-3122. The Government of the United States has certain rights in this invention.
US Referenced Citations (7)