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A solar receiver including a housing defining an internal volume divided into at least a first chamber and a second chamber, wherein the second chamber is in fluid communication with the first chamber, the housing further defining a first opening into the first chamber, a second opening into the fir

A solar receiver including a housing defining an internal volume divided into at least a first chamber and a second chamber, wherein the second chamber is in fluid communication with the first chamber, the housing further defining a first opening into the first chamber, a second opening into the first chamber and a third opening into the second chamber, a generally transparent cover connected to the housing to generally seal the first opening, and a thermal energy storage material received in the first chamber, the thermal energy storage material including a thermally conductive material defining an internal chamber and a salt received in the internal chamber.

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1. A solar power system comprising: a system housing that defines a cold chamber and a hot chamber;at least one alkali metal thermal-to-electric converter (“AMTEC”) cell received in said system housing, said AMTEC cell having a first portion disposed in said hot chamber and a second portion disposed

1. A solar power system comprising: a system housing that defines a cold chamber and a hot chamber;at least one alkali metal thermal-to-electric converter (“AMTEC”) cell received in said system housing, said AMTEC cell having a first portion disposed in said hot chamber and a second portion disposed in said cold chamber;a receiver having an outer housing defining an internal volume divided into at least a first chamber and a second chamber, wherein said first chamber includes a heated chamber and said second chamber includes a fluid return chamber in fluid communication with said heated chamber, said outer housing further defining a sunlight inlet opening directly into said heated chamber, a first opening to provide fluid communication between said heated chamber and said hot chamber of said system housing, and a fluid return port to provide fluid communication between said fluid return chamber and said cold chamber;a generally transparent cover connected to said outer housing to generally seal said sunlight inlet such that sunlight can pass through said sunlight inlet and said cover to enter said heated chamber;a dividing wall separating said heated chamber from said fluid return chamber, said dividing wall defining at least one port, said port providing said fluid communication between said heated chamber and said fluid return chamber; andsaid first chamber further including a layer of thermally conductive material defining an internal chamber having thermal energy storage material received therein, said heated chamber being located between said sunlight inlet and said internal chamber, said thermal energy storage material including a salt;whereby incoming solar energy is focused on said thermal energy storage material to heat said heated chamber and vaporize alkali metal in said fluid return chamber so that said vaporized alkali metal enters said heated chamber and enters said hot chamber of said system housing by way of said first opening to interact with said AMTEC cell to generate electricity. 2. The solar receiver of claim 1 wherein said cover is formed from glass. 3. The solar receiver of claim 1 wherein said glass is low iron glass. 4. The solar receiver of claim 1 wherein said salt is selected from the group consisting of potassium nitrate, sodium nitrate, sodium nitrite and combinations thereof. 5. The solar receiver of claim 1 wherein said thermally conductive material has a thermal conductivity of at least about 200 W/(m·° K). 6. The solar receiver of claim 1 wherein said thermally conductive material has a thermal conductivity of at least about 300 W/(m·° K). 7. The solar receiver of claim 1 wherein said thermally conductive material has a thermal conductivity of about 400 W/(m·° K). 8. The solar receiver of claim 1 wherein said thermally conductive material includes pyrolytic carbon. 9. The solar receiver of claim 1 further comprising an alkali metal in said second chamber. 10. The solar receiver of claim 1 wherein at least a portion of said second chamber is thermally insulated from said first chamber. 11. A solar power system comprising: a system housing that defines a cold chamber and a hot chamber;at least one alkali metal thermal-to-electric converter (“AMTEC”) cell received in said system housing, said AMTEC cell having a first portion disposed in said hot chamber and a second portion disposed in said cold chamber;a receiver having an outer housing defining an internal volume and including a dividing wall that separates said internal volume into at least a heated chamber and a fluid return chamber, said dividing wall defining at least one port extending between said heated chamber and said fluid return chamber for fluid communication between said fluid chamber and said heated chamber, said outer housing further defining a sunlight inlet directly into said heated chamber, a first opening to provide fluid communication between said heated chamber and said hot chamber of said system housing, and a fluid return port to provide fluid communication between said fluid return chamber and said cold chamber;a generally transparent cover connected to said outer housing to generally seal said sunlight inlet such that sunlight can pass through said sunlight inlet and said cover to enter said heated chamber; anda layer of thermally conductive material defining an internal chamber having pyrolytic carbon received therein, said heated chamber being located between said sunlight inlet and said internal chamber such that sunlight entering said sunlight inlet passes through said heated chamber is focused onto said internal chamber;whereby incoming solar energy is focused on said pyrolytic carbon to heat said heated chamber and vaporize alkali metal in said fluid return chamber so that said vaporized alkali metal enters said heated chamber and enters said hot chamber of said system housing by way of said first opening to interact with said AMTEC cell to generate electricity. 12. The solar receiver of claim 11 wherein said cover is formed from low iron glass. 13. The solar receiver of claim 11 wherein said salt is selected from the group consisting of potassium nitrate, sodium nitrate, sodium nitrite and combinations thereof. 14. The solar receiver of claim 11 further comprising an alkali metal in said fluid return chamber. 15. The solar receiver of claim 11 wherein at least a portion of said fluid return chamber is thermally insulated from said heated chamber. 16. A solar power system comprising: a housing that defines a cold chamber and a hot chamber;at least one AMTEC cell received in said housing, said AMTEC cell having a first portion disposed in said hot chamber and a second portion disposed in said cold chamber; anda solar receiver comprising: a receiver housing defining an internal volume and including a dividing wall that separates said internal volume into at least a heated chamber and a fluid return chamber, said dividing wall defining at least one port extending between said heated chamber and said fluid return chamber, said receiver housing further defining a sunlight inlet directly into said heated chamber, said receiver housing including a first opening for fluid communication between said heated chamber and said hot chamber, and a fluid return port for fluid communication between said fluid return chamber and said cold chamber;a generally transparent cover connected to said receiver housing to generally seal said sunlight inlet such that sunlight can pass through said sunlight inlet and said cover to enter said heated chamber; anda layer of thermally conductive material defining an internal chamber having thermal energy storage material received therein, said heated chamber located between said sunlight inlet and said internal chamber,whereby incoming solar energy is focused on said thermal energy storage material to heat said heated chamber and vaporize alkali metal in said fluid return chamber so that said vaporized alkali metal enters said heated chamber and enters said hot chamber of said system housing by way of said first opening to interact with said AMTEC cell to generate electricity.