Spool of a three-dimensional substrate

What is claimed is: 1. A spool comprising a three-dimensional substrate and a core, the three-dimensional substrate having a plane and comprising a plurality of projections extending outwardly from the plane of the three-dimensional substrate; wherein the three-dimensional substrate is made from the group consisting of a nonwoven web, a film and combinations thereof; the core having a longitudinal axis and a length along the longitudinal axis; the core comprising first and second transversal side edges; wherein the spool comprises a first plurality of spirally wound portions and a first plurality of helically wound portions; wherein the three-dimensional substrate is spirally wound around the core to form each spirally wound portion of the first plurality of spirally wound portions; and wherein the spirally wound portions of the first plurality of spirally wound portions are located next to each other along the longitudinal axis of the core between the first transversal side edge of the core and the second transversal side edge of the core; wherein the three-dimensional substrate is helically wound around the core along the longitudinal axis of the core to form each helically wound portion of the first plurality of helically wound portions; and wherein each helically wound portion of the first plurality of helically wound portions extends between two adjacent spirally wound portions of the first plurality of spirally wound portions; wherein the three-dimensional substrate in each spirally wound portion of the first plurality of spirally wound portions is repeatedly and spirally wound around the core to form a plurality of layers overlaying each other; and wherein in each spirally wound portion, a majority of the projections of the three-dimensional substrate in at least some of the layers are at least partially nested with a majority of the projections of the three-dimensional substrate of an adjacent overlaying layer of the spirally wound portion; wherein the three-dimensional substrate comprises a longitudinal axis; wherein each projection comprises a base; wherein the base of each projection comprises a circumference where each projection starts to protrude outwardly from the plane; and wherein a notional circle is drawn around the base of each projection which is as small as possible without intersecting the circumference of the base of each projection; wherein each notional circle of each projection comprises a center; wherein two neighboring projections are aligned in a direction substantially parallel to a machine direction; wherein the distance between the centers of the notional circles of the respective neighboring projections has a length, L; wherein the diameter of the circle of one of the neighboring projections has a length, L 1 ; wherein the minimum distance between the circumferences of the notional circles of the respective neighboring projections has a length, L 2 ; such that the ratio of L 1 :L is at least 0.3 and the ratio of 0 L 2 :L 0.7. 2. The spool according to claim 1 , wherein the spool only comprises the first plurality of spirally wound portions and the first plurality of helically wound portions, wherein each spirally wound portion has a diameter from 0.5 m to 2.0 m. 3. The spool according to claim 1 , wherein the spool comprises a second plurality of spirally wound portions and a second plurality of helically wound portions; wherein the three-dimensional substrate is spirally wound around the first plurality of spirally wound portions to form each spirally wound portion of the second plurality of spirally wound portions; and wherein the spirally wound portions of the second plurality of spirally wound portions are located next to each other along the longitudinal axis of the core between the second transversal side edge of the core and the first transversal side edge of the core; wherein the three-dimensional substrate in each spirally wound portion of the second plurality of spirally wound portions is repeatedly and spirally wound around the core along the longitudinal axis of the core in a direction opposite of the first plurality of spirally wound portions; wherein the three-dimensional substrate is helically wound around the first plurality of spirally wound portions to form each helically wound portion of the second plurality of helically wound portions; wherein the first helically wound portion of the second plurality of helically wound portions extends between the last spirally wound portion of the first plurality of spirally wound portions and the first spirally wound portion of the second plurality of spirally wound portions; and the other helically wound portions of the second plurality of helically wound portions extend between two adjacent spirally wound portions of the second plurality of spirally wound portions. 4. The spool according to claim 3 , wherein a majority of the projections of the three-dimensional substrate of a uppermost layer of a spirally wound portion of the first plurality of spirally wound portions are at least partially nested with a majority of the projections of the three-dimensional substrate of a lowermost layer of a directly above spirally wound portion of another plurality of spirally wound portions wound on the respective spirally wound portion of the first plurality of spirally wound portions. 5. The spool according to claim 3 , wherein each spirally wound portions of each plurality of spirally wound portions positioned adjacent to the first or second transversal side edge of the core have higher number of layers than the other spirally wound portions of each plurality of spirally wound portions of the spool. 6. The spool according to claim 1 , wherein each of the helically wound portions of the spool includes from 0.25 to 5 layers of the three-dimensional substrate wound around the core or the first plurality of spirally wound portions. 7. The spool according to claim 1 , wherein the side edges of the layers of the plurality of layers of the three-dimensional substrate in each spirally wound portion are substantially aligned with each other. 8. The spool according to claim 1 , wherein each plurality of spirally wound portions comprises from 3 to 30 spirally wound portions. 9. The spool according to claim 1 , wherein the projections extending outwardly from the plane of the three-dimensional substrate represent from 30% to 70% of the total area of the three-dimensional substrate. 10. The spool according to claim 1 , wherein the distance between the centers of the notional circles of the respective neighboring projections is from 2 mm to 15 mm. 11. The spool according to claim 1 , wherein the length L 1 , is from 2 mm to 15 mm. 12. The spool according to claim 1 , wherein the projections of the three-dimensional substrate have a z-directional height from 500 μm to 4000 μm according to the Projection Height Test. 13. The spool according to claim 1 , wherein each spirally wound portion has a longitudinal axis substantially parallel to the longitudinal axis of the core and a transversal axis perpendicular to the longitudinal axis of the spirally wound portion, wherein each helically wound portion forms an angle from 0.3 degrees to 60 degrees relative to the transversal axis of an adjacent spirally wound portion. 14. The spool according to claim 13 , wherein the three-dimensional substrate comprises a plurality of recesses, wherein each projection of the plurality of projections is next to at least one recess of the plurality of recesses, wherein the plurality of projections and the plurality of recesses of the three-dimensional substrate form a repetitive unit compris