3D spiral heat exchanger

What is claimed is: 1. A spiral heat exchanger comprising: a spiral wall having a spiral curvature so as to form a spiral pathway; and a matrix arranged in the spiral pathway of the spiral wall, the matrix having alternating hot and cold spiral fluid channels being formed by first spiral channels configured to form rows and columns of coiled hot fluid pathways to receive a hot fluid, and second spiral channels configured to form corresponding rows and columns of coiled cold fluid pathways to receive a cold fluid having a temperature less than the hot fluid; the first spiral channels and the second spiral channels being configured to alternate every other row and column of the first spiral channels and the second spiral channels so as to form alternating rows and columns of coiled hot and cold fluid pathways separated by alternating coiled walls that act as both fluid separators and conduits through which heat is transferred between the hot fluid and cold fluid. 2. A spiral heat exchanger according to claim 1 , wherein the first spiral channels and the second spiral channels are configured to form multiple rows and columns of parallel and interlaced fluid pathways. 3. A spiral heat exchanger according to claim 1 , wherein the first spiral channels and the second spiral channels are configured to alternate every other row and column so as to form alternating rows and columns of coiled hot and cold fluid pathways having cross-sections separated by upper and lower angled coiled walls. 4. A spiral heat exchanger according to claim 1 , wherein the first spiral channels and the second of spiral channels are manufactured using an additive manufacturing process so as to make a 3D spiral heat exchanger. 5. A spiral heat exchanger according to claim 4 , wherein the additive manufacturing process includes using a Powder Bed Fusion additive manufacturing process. 6. A spiral heat exchanger according to claim 1 , wherein the first spiral channels and the second spiral channels are configured so that the alternating rows and columns of coiled hot and cold fluid pathways are coiled parallel to one another. 7. A spiral heat exchanger according to claim 1 , wherein the spiral curvature is swept along an Archimedean spiral defined by the following equation: r=a+bθ, where a and b are constants that define the tightness and width of the spiral, and r and θ are polar coordinates in a coordinate system that is coplanar with a bottom face of the spiral heat exchanger and whose origin lies at its geometrical center. 8. A spiral heat exchanger according to claim 1 , wherein the spiral curvature is defined using an involute of a circle, having the following equation: r=a √{square root over (1+θ 2 )}, where a is constants that define the tightness of the spiral and width, and r and θ are polar coordinates in a coordinate system that is coplanar with a bottom face of the spiral heat exchanger and whose origin lies at its geometrical center. 9. A spiral heat exchanger according to claim 1 , wherein the spiral wall is substantially the same height as the alternating hot and cold spiral fluid channels arranged therein. 10. A 3-dimensional spiral heat exchanger comprising: a spiral wall having a spiral curvature so as to form a spiral pathway; and a matrix arranged in the spiral pathway of the spiral wall, the matrix having alternating hot and cold spiral channels formed by first spiral channels configured to form rows and columns of coiled hot fluid pathways to receive a hot fluid, and second spiral channels configured to form corresponding rows and columns of coiled cold fluid pathways to receive a cold fluid having a temperature less than the hot fluid; the first spiral channels and the second spiral channels being configured to alternate every other row and column of the first spiral channels and the second spiral channels so as to form alternating rows and columns of coiled hot and cold fluid pathways separated by alternating coiled walls that act as both fluid separators and conduits through which heat is transferred between the hot fluid and cold fluid, the first spiral channels and the second of spiral channels being manufactured using an additive manufacturing process so as to make the 3D spiral heat exchanger. 11. A 3-dimensional spiral heat exchanger according to claim 10 , wherein the first spiral channels and the second spiral channels are configured to form multiple rows and columns of parallel and interlaced fluid pathways. 12. A 3-dimensional spiral heat exchanger according to claim 10 , wherein the first spiral channels and the second spiral channels are configured to alternate every other row and column so as to form alternating rows and columns of coiled hot and cold fluid pathways having cross-sections separated by upper and lower angled coiled walls. 13. A spiral heat exchanger according to claim 10 , wherein the additive manufacturing process includes using a Powder Bed Fusion additive manufacturing process. 14. A 3-dimensional spiral heat exchanger according to claim 10 , wherein the first spiral channels and the second spiral channels are configured so that the alternating rows and columns of coiled hot and cold fluid pathways are coiled parallel to one another. 15. A 3-dimensional spiral heat exchanger according to claim 10 , wherein the spiral curvature is swept along an Archimedean spiral defined by the following equation: r=a+bθ, where a and b are constants that define the tightness and width of the spiral, and r and θ are polar coordinates in a coordinate system that is coplanar with a bottom face of the spiral heat exchanger and whose origin lies at its geometrical center. 16. A 3-dimensional spiral heat exchanger according to claim 10 , wherein the spiral curvature is defined using an involute of a circle, having the following equation: r=a √{square root over (1+θ 2 )}, where a is constants that define the tightness of the spiral and width, and r and 6 are polar coordinates in a coordinate system that is coplanar with a bottom face of the spiral heat exchanger and whose origin lies at its geometrical center. 17. A 3-dimensional spiral heat exchanger according to claim 10 , wherein the spiral wall is substantially the same height as the alternating hot and cold spiral fluid channels arranged therein.