Melting system including flow guide members

What is claimed is: 1. A melt unit, comprising: a reservoir for receiving molten material; a hopper for receiving solid material; and a melt grid disposed between the hopper and the reservoir, wherein the melt grid heats the solid material into the molten material, the melt grid comprising: a plurality of elongated melting rails that extend along a longitudinal direction, wherein each of the plurality of elongated melting rails is spaced apart along a lateral direction that is perpendicular to the longitudinal direction; a plurality of flow channels, wherein each of the plurality of flow channels extends between a respective two melting rails of the plurality of elongated melting rails; and a plurality of guide members, wherein each of the plurality of guide members are positioned below the plurality of flow channels and the plurality of elongated melting rails with a vertical gap therebetween along a vertical direction that is perpendicular to the lateral and longitudinal directions, such that the molten material flows through the plurality of flow channels, across the vertical gap, and along respective flow surfaces of the plurality of guide members as the molten material flows from the hopper to the reservoir. 2. The melt unit of claim 1 , wherein each of the plurality of guide members defines a curved guide wall having a semi-circular shape that extends between a first guide wall and a second guide wall wherein 1) each of the first and second guide walls extends downward from the curved guide wall along the vertical direction and 2) the first and second guide walls are spaced apart along the lateral direction. 3. The melt unit of claim 2 , wherein the curved guide wall defines an inner curved surface and an outer curved surface opposite the inner curved surface, the first guide wall defines an inner surface and an outer surface opposite the inner surface, and the second guide wall defines an inner surface and an outer surface opposite the inner surface, wherein the inner surfaces of the first and second guide walls face each other, and each of the respective flow surfaces includes the outer curved surface of the curved guide wall and the outer surfaces of the first and second guide walls. 4. The melt unit of claim 2 , wherein each of the plurality of guide members includes a first attachment wall and a second attachment wall opposite the first attachment wall along the longitudinal direction, wherein the first attachment wall and the second attachment wall secure the plurality of guide members to an inner wall of the melt grid, and wherein the vertical gap separates the plurality of guide members from the plurality of flow channels along the vertical direction. 5. The melt unit of claim 1 , wherein each of the plurality of guide members defines an attachment wall, a lateral wall extending from the attachment wall, and a guide wall extending from the lateral wall, such that the attachment wall and the guide wall are spaced apart along the lateral and vertical directions. 6. The melt unit of claim 5 , wherein the lateral wall extends along a direction that is angularly offset from the lateral direction by an angle that is about 25 degrees, and the guide wall extends substantially along the vertical direction. 7. The melt unit of claim 5 , wherein the lateral wall and the guide wall meet at an intersection that is substantially curved. 8. The melt unit of claim 5 , the attachment wall of each of the plurality of guide members is attached to a respective one of the plurality of elongated melting rails. 9. The melt unit of claim 5 , wherein the guide wall is substantially rectangular. 10. The melt unit of claim 5 , wherein the guide wall defines a plurality of guide tabs, wherein each of the plurality of guide tabs of a respective one of the plurality of guide members is spaced apart along the longitudinal direction, such that two adjacent guide tabs of the plurality of guide tabs define a gap therebetween. 11. The melt unit of claim 10 , wherein each of the plurality of guide tabs is substantially triangular. 12. The melt unit of claim 5 , wherein the lateral wall defines a top surface and a bottom surface and the guide wall defines an inner surface and an outer surface, wherein respective flow surfaces of the plurality of guide members includes the top surface of the lateral wall and the inner surface of the guide wall. 13. The melt unit of claim 1 , wherein each of the plurality of guide members is a guide rod that defines an attachment section, a lateral section extending from the attachment section, and a guide section extending from the attachment section, such that the attachment section and the guide section are spaced apart along the lateral and vertical directions. 14. The melt unit of claim 13 , wherein the lateral section extends along a direction that is angularly offset from the lateral direction by an angle that is about 45 degrees, and the guide section extends substantially along the vertical direction. 15. The melt unit of claim 13 , wherein the plurality of guide members includes a first group of guide members, wherein the attachment section of each of the first group of guide members is attached to one of the plurality of elongated melting rails such that the first group of guide members is spaced apart along the longitudinal direction. 16. The melt unit of claim 13 , wherein the lateral section and the guide section of each of the plurality of guide members each defines a respective circular outer surface, wherein the respective flow surfaces of the plurality of guide members includes the circular outer surfaces of the lateral section and the guide section. 17. A melt unit, comprising: a reservoir for receiving molten material, the reservoir including a base and a top opposite the base along a vertical direction, the top defining an outer wall that defines an inner surface, the reservoir further including a plurality of support bars attached to the inner surface of the outer wall and a plurality of guide members extending upward from the plurality of support bars along the vertical direction, wherein the plurality of guide members are spaced apart along a lateral direction that is perpendicular to the vertical direction and the plurality of support bars are spaced apart along a longitudinal direction that is perpendicular to the vertical and lateral directions; a hopper for receiving solid material; and a melt grid disposed between the hopper and the reservoir, wherein the melt grid heats the solid material into the molten material, the melt grid comprising: a plurality of elongated melting rails that extend along the longitudinal direction and are spaced apart along the lateral direction; and a plurality of flow channels, wherein each of the plurality of flow channels extends between two melting rails of the plurality of elongated melting rails, wherein the plurality of guide members are positioned vertically below the plurality of flow channels with a vertical gap therebetween such that the molten material flows through the plurality of flow channels, across the vertical gap, and along the plurality of guide members as the molten material flows to the reservoir. 18. The melt unit of claim 17 , wherein the plurality of guide members are spaced from and positioned below the melt grid along the vertical direction with the vertical gap therebetween. 19. The melt unit of claim 17 , wherein the base of the reservoir defines an inner surface, and the plurality of guide members and the plurality of support bars are spaced f