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The Status of Thermophotovoltaic Energy Conversion Technology at Lockheed Martin Corporation

Technical Report ·
DOI:https://doi.org/10.2172/837657· OSTI ID:837657
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In a thermophotovoltaic (TPV) energy conversion system, a heated surface radiates in the mid-infrared range onto photocells which are sensitive at these energies. Part of the absorbed energy is converted into electric output. Conversion efficiency is maximized by reducing the absorption of non-convertible energy with some form of spectral control. In a TPV system, many technology options exist. Our development efforts have concentrated on flat-plate geometries with greybody radiators, front surface tandem filters and a multi-chip module (MCM) approach that allows selective fabrication processes to match cell performance. Recently, we discontinued development of GaInAsSb quaternary cell semiconductor material in favor of ternary GaInAs material. In our last publication (Ref. 1), the authors reported conversion efficiencies of about 20% (radiator 950 C, cells 22 C) for small modules (1-4 cm{sup 2}) tested in a prototypic cavity test environment. Recently, we have achieved measured conversion efficiencies of about 12.5% in larger ({approx}100 cm{sup 2}) test arrays. The efficiency reduction in the larger arrays was probably due to quality and variation of the cells as well as non-uniform illumination from the hot radiator to the cold plate. Modules in these tests used GaInAsSb cells with 0.52 eV bandgap and front surface filters for spectral control. This paper provides details of the individual system components and the rationale for our technical decisions. It also describes the measurement techniques used to record these efficiencies.

Research Organization:
Lockheed Martin Corporation, Schenectady, NY 12301 (US)
Sponsoring Organization:
US Department of Energy (US)
DOE Contract Number:
AC12-00SN39357
OSTI ID:
837657
Report Number(s):
LM-04K068
Country of Publication:
United States
Language:
English

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Related Subjects

36 MATERIALS SCIENCE
42 ENGINEERING
ABSORPTION
EFFICIENCY
ENERGY CONVERSION
FABRICATION
ILLUMINANCE
PERFORMANCE
PHOTOELECTRIC CELLS
RADIATORS
SEMICONDUCTOR MATERIALS