Power efficiency for very high temperature solar thermal cavity receivers
Patent
·
OSTI ID:865223
- LaCanada-Flintridge, CA
- Upland, CA
This invention is an improved solar energy cavity receiver for exposing materials and components to high temperatures. The receiver includes a housing having an internal reflective surface defining a cavity and having an inlet for admitting solar radiation thereto. A photothermal absorber is positioned in the cavity to receive radiation from the inlet. A reflective baffle is positioned between the absorber and the inlet to severely restrict the re-radiation of energy through the inlet. The front surface of the baffle defines a narrow annulus with the internal reflective surface of the housing. The front surface of the baffle is contoured to reflect incoming radiation onto the internal surface of the housing, from which it is reflected through the annulus and onto the front surface of the absorber. The back surface of the baffle intercepts infrared radiation from the front of the absorber. With this arrangement, a high percentage of the solar power input is retained in the cavity; thus, high internal temperatures are attained.
- Assignee:
- United States of America as represented by United States (Washington, DC)
- Patent Number(s):
- US 4479485
- OSTI ID:
- 865223
- Country of Publication:
- United States
- Language:
- English
Similar Records
Power efficiency for very high temperature solar thermal cavity receivers
Improved power efficiency for very-high-temperature solar-thermal-cavity receivers
Hybrid solar/combustion powered receiver
Patent
·
1984
·
OSTI ID:5733925
Improved power efficiency for very-high-temperature solar-thermal-cavity receivers
Patent
·
1982
·
OSTI ID:6595072
Hybrid solar/combustion powered receiver
Patent
·
1986
·
OSTI ID:5363818
Related Subjects
/126/
absorber
admitting
annulus
arrangement
attained
baffle
cavity
cavity receiver
components
contoured
defines
defining
efficiency
energy
exposing
front
front surface
housing
improved
improved solar
incoming
infrared
infrared radiation
inlet
input
intercepts
internal
internal surface
internal temperature
materials
narrow
percentage
photothermal
positioned
power
power efficiency
power input
radiation
re-radiation
receive
receive radiation
receiver
receivers
reflect
reflected
reflective
reflective surface
restrict
retained
severely
solar
solar energy
solar power
solar radiation
solar thermal
surface
surface defining
temperature
temperatures
thereto
thermal
thermal cavity
absorber
admitting
annulus
arrangement
attained
baffle
cavity
cavity receiver
components
contoured
defines
defining
efficiency
energy
exposing
front
front surface
housing
improved
improved solar
incoming
infrared
infrared radiation
inlet
input
intercepts
internal
internal surface
internal temperature
materials
narrow
percentage
photothermal
positioned
power
power efficiency
power input
radiation
re-radiation
receive
receive radiation
receiver
receivers
reflect
reflected
reflective
reflective surface
restrict
retained
severely
solar
solar energy
solar power
solar radiation
solar thermal
surface
surface defining
temperature
temperatures
thereto
thermal
thermal cavity