Multi-focal point solar refraction heating

The invention claimed is: 1. A solar heating system, comprising: a container configured to enclose contents within the container in a closed configuration; and a solar refraction device comprising a lens array assembly having a plurality of lens array sub-assemblies, the lens array assembly configured to refract solar energy impinging on the lens array assembly to focus refracted solar energy at a plurality of focal points positioned to heat the contents enclosed within the container in the closed configuration, each of the plurality of focal points corresponding to a corresponding lens array sub-assembly of the plurality of lens array sub-assemblies, and wherein the solar refraction device forms a canopy having a curved shape; the solar heating system further comprising one or more reflectors positioned to reflect at least a portion of the refracted solar energy toward the container; wherein the solar heating system is configured to heat or melt materials inside the container; wherein the container includes an elongated pipe segment with a round cross section; wherein the lens array assembly is contoured to a shape of the elongated pipe segment such that the plurality of focal points are positioned within the elongated pipe segment along a length of the elongated pipe segment; and wherein a plurality of support structures connect and support the lens array assembly relative to the elongated pipe segment along the length of the elongated pipe segment. 2. The solar heating system of claim 1 , wherein the container comprises an enclosed pipe configured to contain a fluid as the contents. 3. The solar heating system of claim 2 , wherein the enclosed pipe is configured to contain a gas as the contents. 4. The solar heating system of claim 2 , wherein the enclosed pipe is configured to contain a liquid as the contents. 5. The solar heating system of claim 2 , wherein the enclosed pipe is configured to contain a flow of the contents including one or more of a chemical reactant and a chemical product in a chemical processing system. 6. The solar heating system of claim 2 , wherein the enclosed pipe is a part of a sanitation system. 7. The solar heating system of claim 2 , wherein the enclosed pipe is a part of a food processing system. 8. The solar heating system of claim 1 , wherein the container comprises an enclosed vessel. 9. The solar heating system of claim 1 , wherein the container comprises a furnace. 10. The solar heating system of claim 1 , wherein the one or more reflectors are arranged partially beneath the container and reflect the portion of the refracted solar energy to an underside of the container. 11. The solar heating system of claim 1 , wherein the portion of the refracted solar energy includes a first portion and a second portion of the refracted solar energy, and wherein the one or more reflectors are configured to reflect the first portion of the refracted solar energy toward the container at a first focal point to heat the container at a first location, and are configured to reflect the second portion of the refracted solar energy toward the container at a second focal point to heat the container at a second location. 12. The solar heating system of claim 1 , wherein no additional reflector or refractor is positioned in between the one or more reflectors and the container. 13. The solar heating system of claim 1 , wherein the one or more reflectors have a flat planar reflective surface. 14. A solar heating system, comprising: an enclosed pipe enclosing contents therein in a closed configuration; and a solar refraction device comprising a lens array assembly having a plurality of lens array sub-assemblies, the lens array assembly configured to refract solar energy impinging on the lens array assembly to focus refracted solar energy at a plurality of focal points to heat a fluid enclosed in the pipe, each focal point of the plurality of focal points corresponding to a corresponding lens array sub-assembly of the plurality of lens array sub-assemblies, and wherein the solar refraction device forms a canopy having a curved shape; the solar heating system further comprising one or more reflectors positioned to reflect at least a portion of the refracted solar energy toward the enclosed pipe; wherein the solar heating system is configured to heat or melt materials inside the enclosed pipe; wherein the container includes an elongated pipe segment with a round cross section; wherein the lens array assembly is contoured to a shape of the elongated pipe segment such that the plurality of focal points are positioned within the elongated pipe segment along a length of the elongated pipe segment; and wherein a plurality of support structures connect and support the lens array assembly relative to the elongated pipe segment along the length of the elongated pipe segment. 15. The system of claim 14 , wherein the enclosed pipe is in fluid communication with a turbine. 16. The system of claim 15 , wherein the contents comprise a fluid. 17. The system of claim 14 , wherein the enclosed pipe is a part of a chemical processing plant. 18. The solar heating system of claim 14 , wherein the one or more reflectors are arranged partially beneath the enclosed pipe and reflect the portion of the refracted solar energy to an underside of the enclosed pipe. 19. The solar heating system of claim 14 , wherein the portion of the refracted solar energy includes a first portion and a second portion of the refracted solar energy, and wherein the one or more reflectors are configured to reflect the first portion of the refracted solar energy toward the enclosed pipe at a first focal point to heat the enclosed pipe at a first location, and are configured to reflect the second portion of the refracted solar energy toward the enclosed pipe at a second focal point to heat the enclosed pipe at a second location. 20. The solar heating system of claim 14 , wherein no additional reflector or refractor is positioned in between the one or more reflectors and the enclosed pipe.