Glass manufacturing apparatus and methods

What is claimed is: 1. A glass manufacturing apparatus comprising: a conduit connected to a delivery vessel and an inlet of a forming vessel, the conduit comprising a closed sidewall surrounding a channel extending in a flow direction of the conduit, the closed sidewall continuous from the delivery vessel to the inlet of the forming vessel to define a closed atmosphere from the delivery vessel, through the conduit, and through the inlet of the forming vessel; and a heating enclosure comprising a first heating element and a plurality of walls surrounding a chamber within which the conduit extends, the first heating element positioned within the chamber between a heating wall of the plurality of walls and the conduit to increase a temperature within the channel, the heating wall and the first heating element configured to be removable to expose the chamber to an exterior of the heating enclosure. 2. The glass manufacturing apparatus of claim 1 , wherein the flow direction is in a direction of gravity. 3. The glass manufacturing apparatus of claim 1 , wherein the heating wall comprises a thermally insulating material, and wherein the heating enclosure comprises a top wall and a bottom wall spaced apart from the top wall with the chamber between the top wall and the bottom wall, the top wall positioned adjacent to a bottom surface of a first heater and the bottom wall positioned adjacent to a top surface of a second heater. 4. The glass manufacturing apparatus of claim 1 , wherein the heating enclosure comprises a perimeter wall surrounding the chamber, the perimeter wall comprising an opening. 5. The glass manufacturing apparatus of claim 4 , wherein the heating enclosure comprises a plurality of heating elements positioned within the chamber, and wherein the plurality of heating elements are operable independently of one another. 6. The glass manufacturing apparatus of claim 1 , wherein the channel comprises a non-constant cross-sectional size that is orthogonal to the flow direction between the delivery vessel and the inlet of the forming vessel. 7. The glass manufacturing apparatus of claim 1 , wherein the first heating element is spaced a distance apart from the heating wall and the conduit, and wherein the first heating element comprises a U-shaped portion that extends substantially parallel to an axis along which the conduit extends. 8. The glass manufacturing apparatus of claim 1 , further comprising one or more temperature sensors positioned within the chamber. 9. A glass manufacturing apparatus comprising: a conduit positioned between a delivery vessel and an inlet of a forming vessel, the conduit comprising a channel extending in a flow direction of the conduit, the conduit comprising a first portion, in which the channel comprises a first cross-sectional size, and a second portion, downstream from the first portion relative to the flow direction, in which the channel comprises a second cross-sectional size that is less than the first cross-sectional size; and a heating enclosure comprising a heating wall and a first heating element, the heating wall surrounding a chamber within which the second portion of the conduit extends, the first heating element positioned within the chamber between the heating wall and the second portion of the conduit to increase a temperature within the channel, wherein the heating enclosure comprises a perimeter wall surrounding the chamber, the perimeter wall comprising an opening, and wherein the heating wall and the first heating element comprise a first heating apparatus removably received within the opening of the perimeter wall. 10. The glass manufacturing apparatus of claim 9 , wherein the flow direction is in a direction of gravity. 11. The glass manufacturing apparatus of claim 9 , wherein the heating wall comprises a thermally insulating material. 12. The glass manufacturing apparatus of claim 9 , further comprising one or more temperature sensors positioned within the chamber. 13. A glass manufacturing apparatus comprising: a conduit connected to a delivery vessel and an inlet of a forming vessel, the conduit comprising a closed sidewall surrounding a channel extending in a flow direction of the conduit, the closed sidewall continuous from the delivery vessel to the inlet of the forming vessel to define a closed atmosphere from the delivery vessel, through the conduit, and through the inlet of the forming vessel; and a heating enclosure comprising a heating wall and a first heating element, the heating wall surrounding a chamber within which the conduit extends, the first heating element positioned within the chamber between the heating wall and the conduit to increase a temperature within the channel; wherein the heating enclosure comprises a perimeter wall surrounding the chamber, the perimeter wall comprising an opening, the heating enclosure comprising a first heating apparatus comprising the heating wall and the first heating element, the first heating apparatus removably received within the opening of the perimeter wall. 14. The glass manufacturing apparatus of claim 13 , wherein the flow direction is in a direction of gravity. 15. The glass manufacturing apparatus of claim 13 , wherein the heating wall comprises a thermally insulating material. 16. The glass manufacturing apparatus of claim 13 , wherein the heating enclosure comprises a plurality of heating apparatuses.