Methods and apparatus for producing a glass ribbon

What is claimed is: 1. A method of producing a glass ribbon including the steps of: (I) drawing a glass ribbon along a draw direction into a viscous zone, wherein the glass ribbon includes opposed edges and a lateral portion extending between the opposed edges along a lateral direction transverse to the draw direction; (II) drawing the glass ribbon into a setting zone downstream from the viscous zone, wherein the glass ribbon is set from a viscous state to an elastic state; (III) drawing the glass ribbon into an elastic zone downstream from the setting zone; (IV) creating a vacuum to promote convection cooling of the glass ribbon by forcing a cooling fluid to flow along the glass ribbon and contact the glass ribbon, wherein the vacuum is created with a plurality of vacuum ports including a first set of vacuum ports facing a first major surface of the glass ribbon, the first set of vacuum ports including an unobstructed view of the first major surface and spaced apart along the lateral direction of the lateral portion of the glass ribbon, and a second set of vacuum ports facing a second major surface of the glass ribbon, the second set of vacuum ports including an unobstructed view of the second major surface and spaced apart along the lateral direction of the lateral portion of the glass ribbon; and (V) independently adjusting fluid flow through at least one vacuum port of the plurality of vacuum ports to control a cooling profile of the cooling fluid along the lateral portion of the glass ribbon. 2. The method of claim 1 , wherein the vacuum of step (IV) forces the cooling fluid to flow in a flow direction that is substantially opposite to the draw direction. 3. The method of claim 1 , wherein the vacuum of step (IV) forces the cooling fluid to flow in a flow direction that has a vector component that is opposite to the direction of gravity. 4. The method of claim 1 , wherein step (IV) operates a first vacuum source to draw cooling fluid through the first set of vacuum ports and operates a second vacuum source to draw cooling fluid through the second set of vacuum ports, wherein the first vacuum source is operated independently from the second vacuum source. 5. The method of claim 1 , wherein step (IV) only promotes convection cooling in the elastic zone. 6. The method of claim 1 , wherein step (IV) only promotes convection cooling in the elastic zone and the setting zone. 7. The method of claim 1 , wherein step (I) comprises fusion drawing the glass ribbon from a root of a forming wedge into the viscous zone. 8. The method of claim 1 , wherein step (V) includes independently adjusting an adjustable flow control device to adjust the fluid flow through the at least one vacuum port. 9. The method of claim 8 , wherein step (IV) operates a first vacuum source to draw cooling fluid through the first set of vacuum ports and operates a second vacuum source to draw cooling fluid through the second set of vacuum ports, wherein the first vacuum source is operated independently from the second vacuum source. 10. An apparatus for producing a glass ribbon comprising: a drawing device configured to draw molten glass into a glass ribbon in a draw direction along a draw plane of the apparatus; and a convection cooling device including at least one vacuum source configured to promote convection cooling of the glass ribbon by forcing a cooling fluid to flow along and contact the glass ribbon, the convection cooling device including a plurality of vacuum ports including a first set of vacuum ports for facing a first major surface of the glass ribbon, the first set of vacuum ports configured for an unobstructed view of the first major surface of the glass ribbon and spaced apart along a lateral direction transverse to the draw direction, and a second set of vacuum ports for facing a second major surface of the glass ribbon, the second set of vacuum ports configured for an unobstructed view of the second major surface of the glass ribbon and spaced apart along the lateral direction, wherein at least one vacuum port of the plurality of vacuum ports includes an adjustable flow control device to independently adjust fluid flow through the at least one vacuum port and control a cooling profile of the cooling fluid along the lateral direction. 11. The apparatus of claim 10 , wherein the convection cooling device is configured to force the cooling fluid to flow in a flow direction that is substantially opposite to the draw direction. 12. The apparatus of claim 10 , wherein the at least one vacuum source comprises a first vacuum source to draw cooling fluid through the first set of vacuum ports and a second vacuum source to draw cooling fluid through the second set of vacuum ports, wherein the convection cooling device is configured to operate the first vacuum source independently from the second vacuum source. 13. The apparatus of claim 10 , wherein each of the plurality of vacuum ports includes an adjustable flow control device to independently adjust fluid flow through each of the corresponding vacuum ports. 14. The apparatus of claim 13 , wherein the at least one vacuum source comprises a first vacuum source to draw cooling fluid through the first set of vacuum ports and a second vacuum source to draw cooling fluid through the second set of vacuum ports, wherein the convection cooling device is configured to operate the first vacuum source independently from the second vacuum source. 15. The apparatus of claim 10 , wherein the drawing device is configured to draw the molten glass from a viscous zone into a setting zone downstream from the viscous zone, wherein the glass ribbon is set from a viscous state to an elastic state, and then from the setting zone to an elastic zone downstream from the setting zone, wherein the convection cooling device includes at least one vacuum port positioned downstream from the viscous zone. 16. The apparatus of claim 10 , wherein the drawing device includes a forming wedge with a root, wherein the drawing device is configured to draw a glass ribbon off the root of the forming wedge.