Solid particle receiver with porous structure for flow regulation and enhancement of heat transfer

What is claimed is: 1. A solar central receiver system, comprising: a central receiver comprising a plurality of receiver panels wherein an individual receiver panel is configured to receive a curtain of solid particles, the individual receiver panel comprising: a top end and an opposing bottom end, a plurality of porous foam blocks that define a downward travel pathway between the top end and the bottom end, wherein the downward travel pathway defined by the porous foam blocks has a size to impede movement of the curtain of solid particles along the downward travel pathway from the top end to the bottom end; the solar central receiver system further comprises a tower having an upper portion and a lower portion, the upper portion supporting the plurality of receiver panels in a configuration to receive solar irradiation; a hopper positioned at a height above the plurality of receiver panels, the hopper forming a slot configured to dispose the particles at a given location on to the porous foam blocks; and, wherein each of the plurality of porous foam blocks within the individual receiver panel comprises a top face and an opposing bottom face and is arranged vertically separated from the other porous foam blocks such that the plurality of porous foam blocks are arranged in a substantially parallel pattern relative to one another such that an area of free fall is provided between the porous foam blocks, and wherein the solid particles flow through the receiver panel entering from the top end and exiting through the opposing bottom end, and wherein the particles are directly irradiated and thereby heated over an open area of free fall between the porous foam blocks. 2. The solar central receiver system of claim 1 , wherein the size of the downward travel pathway is configured to reduce a downward speed of the particles during travel from the top end to the bottom end. 3. The solar central receiver system of claim 1 , further comprising ligaments forming the porous foam blocks. 4. The solar central receiver system of claim 1 , wherein the porous foam blocks are configured to spread the curtain of particles in a direction transverse to a direction of downward travel from the top end to the bottom end. 5. The solar central receiver system of claim 1 , wherein the individual receiver panel comprises a front face and a rear face, the front face configured to receive solar radiation so as to heat the curtain of particles along the downward travel pathway from the top end to the bottom end, and the rear face having an insulation block to prevent heat loss. 6. The solar central receiver system of claim 5 , further comprising a back plate, wherein the back plate is configured for selective attachment to a mounting structure. 7. The solar central receiver system of claim 1 , wherein the solid particles are silica sand. 8. The solar central receiver system of claim 1 , wherein the solid particles are fracking sand. 9. The solar central receiver system of claim 1 , wherein the solid particles are alumina beads. 10. A solar central receiver system, comprising: a central receiver comprising a plurality of receiver panels wherein an individual receiver panel is configured to receive a curtain of solid particles, the individual receiver panel comprising: a top end and an opposing bottom end, a plurality of porous foam blocks that define a downward travel pathway between the top end and the bottom end and have a size to impede movement of the curtain of solid particles along the downward travel pathway from the top end to the bottom end; the solar central receiver system further comprises a tower having an upper portion and a lower portion, the upper portion supporting the plurality of receiver panels in a configuration to receive solar irradiation; a hopper positioned at a height above the plurality of receiver panels, the hopper forming a slot configured to dispose the particles at a given location on to the porous foam blocks, wherein the plurality of porous foam blocks within the individual receiver panel each comprise a top face and an opposing bottom face and are arranged in a slanted zig-zag arrangement with at least one porous foam block arranged at an angle relative to a vertical direction and at least another porous foam block arranged at another angle relative to the vertical direction, and the at least another porous foam block arranged below the at least one porous foam block, and wherein the solid particles flow through the receiver panel entering from the top end and exiting through the opposing bottom end, and wherein the particles are directly irradiated and thereby heated over an open area of free fall between the porous foam blocks. 11. The solar central receiver system of claim 10 , wherein the downward travel pathway defined by the porous foam blocks increases residence time of the curtain of solid particles as it travels along the downward travel pathway from the top end to the bottom end. 12. The solar central receiver system of claim 10 , wherein the solid particles are silica sand. 13. The solar central receiver system of claim 10 , wherein the solid particles are fracking sand. 14. The solar central receiver system of claim 10 , wherein the solid particles are alumina beads. 15. The solar central receiver system of claim 10 , wherein the porous foam blocks comprise a plurality of ligaments disposed therewithin. 16. The solar central receiver system of claim 10 , further comprising ligaments forming the porous foam blocks. 17. The solar central receiver system of claim 10 , wherein the porous foam blocks are configured to spread the curtain of particles in a direction transverse to a direction of downward travel from the top end to the bottom end. 18. The solar central receiver system of claim 10 , further comprising an insulation block. 19. The solar central receiver system of claim 18 , further comprising a back plate disposed between the porous foam blocks and the insulation block, wherein the back plate is configured for selective attachment to a mounting structure.