Title :
Low NOx thermophotovoltaic generator
Author :
Goldstein, Mark ; Kushch, Aleks
Author_Institution :
Quantum Group Inc., San Diego, CA, USA
Abstract :
Fiber matrix burners incorporating “superemissive” ceramic materials were tested to obtain the relationship between power generation and the pollutant emissions. The tested variables were the following: equivalence ratio, fuel input, and inlet air temperature. One important objective was to achieve maximum efficiency of electricity generation at the lowest level of NOx emissions. It was found that NOx emission under these specific conditions does not depend on inlet air temperature in the ranges from 20 to 200°C. This phenomena suggests that “thermal NOx” is not a significant contributor of NOx emission in these types of burners. The test data indicate that the thermophotovoltaic (TPV) power output increased by a factor of 2 by increasing the combustion temperature while the NOx emissions were stable. The result of these findings is that high efficiency, low polluting TPV-power generation is feasible. The basic technology responsible for the low NO x emission and the electric power generation is being further developed for use in high-efficiency appliances, generators, and total energy systems
Keywords :
air pollution; ceramics; electric power generation; nitrogen compounds; photovoltaic cells; 20 to 200 C; NO; combustion temperature; equivalence ratio; fiber matrix burners; fuel input; generators; high efficiency; inlet air temperature; low NOx thermophotovoltaic generator; pollutant emissions; power generation; superemissive ceramic materials; thermal NOx; total energy systems; Ceramics; Combustion; Fuels; Home appliances; Materials testing; Optical fiber testing; Pollution; Power generation; Temperature dependence; Temperature distribution;
Journal_Title :
Industry Applications, IEEE Transactions on
