Demonstration of a Self-Powered Boiler Concept Based on Emitter-less Thermophotovoltaic Power Generation
- Resource Type
- Conference
- Authors
- Hammonds, J.S.; Mejia, E.; Nolan, M.; Persaud, C.; Horne, Ed; Kamath, B.; Butcher, T.
- Source
- 2007 IEEE Long Island Systems, Applications and Technology Conference Systems, Applications and Technology Conference, 2007. LISAT 2007. IEEE Long Island. :1-7 May, 2007
- Subject
- Computing and Processing
Boilers
Power generation
Combustion
Cogeneration
Photovoltaic systems
Fires
Temperature
Photonic band gap
Cities and towns
Educational institutions
Thermophotovoltaics
GaSb Photovoltaic cells
Combined heat and power
Thermal power generation
- Language
In this study the technical feasibility of implementing thermophotovoltaic (TPV) power generation through the use of GaSb photocells within the chamber of a residential, oil-fired boiler was evaluated. The objective of this work is a self-powered hydronic heating system for which an estimated 200 watts of power is needed. An approach was developed in which direct radiation from the combustion chamber is incident on TPV cells which are protected only by a quartz plate. This work differs from that of previous TPV research in that no stand-alone thermal emitter is used. It was demonstrated experimentally that a power densities greater than 2 watts/cm2 could be achieved with this "emitter-less" approach. The results of this work also demonstrate that the power density is strongly affected by the burner excess air level.