Method of recycling heat

The invention claimed is: 1. A method of recycling heat during operation of a plant in which equipment for processing at least two different materials is co-located, the method comprising: (a) a first process which processes a first material having a first melting point, wherein, during the first process, the first material is subjected to a first melting process and then subjected to a first cooling process that includes solidification of the first material; (b) a second process which processes a second material having a second melting point, wherein the second melting point is less than the first melting point and, during the second process, the second material is subjected to a second melting process and then subjected to a second cooling process that includes solidification of the second material; and, (c) recovering heat from the first cooling process and using at least some of the heat as a heat source for the second melting process wherein recovering heat from the first cooling process comprises using a first heat exchange fluid to recover heat from the first cooling process and the first heat exchange fluid conveys the heat recovered from the first cooling process to a reactor containing a second heat exchange fluid, using at least some of the heat as a heat source for the second melting process comprises using the second heat exchange fluid to convey at least some of the heat, which was recovered from the first cooling process, to the second melting process. 2. The method of claim 1 wherein the heat recovered from the first cooling process comprises heat recovered during the solidification of the first material. 3. The method of claim 1 , further comprising: (a) recovering heat from the second cooling process and using at least some of the heat recovered from the second cooling process as a heat source for a building, wherein the heat recovered from the second cooling process comprises heat recovered during the solidification of the second material. 4. The method of claim 1 , further comprising: (a) recovering heat from the second cooling process and using at least some of the heat recovered from the second cooling process as a heat source in the production of steam, wherein the heat recovered from the second cooling process comprises heat recovered during the solidification of the second material. 5. The method of claim 1 , wherein during the first cooling process, the first material is cooled to a first temperature and a second temperature that is less than the first temperature, wherein recovering heat from the first cooling process comprises recovering heat as the first material is cooled to the first temperature, the method further comprises: (a) a third process which processes a third material having a third melting point, wherein the third melting point is less than the second melting point and, during the third process, the third material is subjected to a third melting process and then subjected to a third cooling process that includes solidification of the third material; and, (b) recovering additional heat from the first cooling process as the first material is cooled to the second temperature and using at least some of the additional heat that is recovered as a heat source for the third melting process. 6. The method of claim 5 wherein the additional heat recovered from the first cooling process is recovered as the first material is cooled from the first temperature to the second temperature. 7. The method of claim 5 further comprising recovering heat from the second cooling process and using at least some of the heat recovered from the second cooling process as a heat source for the third melting process. 8. The method of claim 5 wherein, during the first cooling process, the first material is cooled to a third temperature that is less than the second temperature, the method further comprises recovering further additional heat from the first cooling process as the first material is cooled to the third temperature and using at least some of the further additional heat as a heat source for a building. 9. The method of claim 5 wherein, during the first cooling process, the first material is cooled to a third temperature that is less than the second temperature, the method further comprises recovering further additional heat from the first cooling process as the first material is cooled to the third temperature and using at least some of the further additional heat in the production of steam. 10. The method of claim 5 , wherein the third process uses at least some recycled third material. 11. The method of claim 5 , further comprising selecting a metal as the first material, selecting a first plastic as the second material and selecting a second plastic as the third material, wherein the second plastic has a lower melting point than the first plastic, and wherein the first plastic has a lower melting point than the metal. 12. The method of claim 5 , wherein during the first cooling process, the first material is cooled to a third temperature that is less than the second temperature, and the method further comprises: (a) a fourth process which processes a fourth material having a fourth melting point, wherein, the fourth melting point is less than the third melting point and, during the fourth process, the fourth material is subjected to a fourth melting process and then subjected to a fourth cooling process that includes solidification of the fourth material; and, (b) recovering further additional heat from the first cooling process as the first material is cooled to the third temperature and using at least some of the further heat that is recovered as a heat source for the fourth melting process. 13. The method of claim 12 wherein, during the second cooling process, the second material is cooled to a fourth temperature and a fifth temperature that is less than the fourth temperature, the method further comprises recovering heat from the second cooling process as the second material is cooled to the fourth temperature and using at least some of the heat recovered from the second cooling process as a heat source for the third melting process and recovering additional heat from the second cooling process as the second material is cooled to the fifth temperature and using at least some of the additional heat that is recovered from the second cooling process as a heat source for the fourth melting process. 14. The method of claim 12 , further comprising recovering heat from the third cooling process and using at least some of the heat recovered from the third cooling process as a heat source for the fourth melting process. 15. The method of claim 12 , further comprising selecting a first metal as the first material, selecting a second metal as the second material, selecting a first plastic as the third material and selecting a second plastic as the fourth material, wherein the second plastic has a lower melting point than the first plastic, wherein the first plastic has a lower melting point than the second metal, and wherein the second metal has a lower melting point than the first metal. 16. The method of claim 12 , wherein the fourth process uses at least some recycled fourth material. 17. The method of claim 1 , further comprising selecting a metal as the first material and selecting a plastic as the second material. 18. The method of claim 1 wherein the first heat exchange fluid comprises a liquid metal. 19. The method of claim 1 wherein the first process uses at least some recycled first material.