Glass forming apparatuses and methods for making glass ribbons

What is claimed is: 1. A glass forming apparatus for forming a glass ribbon, the glass forming apparatus comprising: a forming body comprising a first outer forming surface and a second outer forming surface extending in a downward vertical direction; a muffle assembly comprising: at least one first cooling tube; at least one second cooling tube, the forming body positioned between the at least one first cooling tube and the at least one second cooling tube such that a long axis of the at least one first cooling tube and a long axis of the at least one second cooling tube are substantially parallel with the first outer forming surface and the second outer forming surface of the forming body, respectively; a first refractory material disposed between the at least one first cooling tube and the first outer forming surface of the forming body, the first refractory material in direct contact with the at least one first cooling tube thereby forming a first continuous heat conduction pathway between the first refractory material and the at least one first cooling tube in a substantially horizontal direction; and a second refractory material disposed between the at least one second cooling tube and the second outer forming surface of the forming body, the second refractory material in direct contact with the at least one second cooling tube thereby forming a second continuous heat conduction pathway between the second refractory material and the at least one second cooling tube in the substantially horizontal direction, the first continuous heat conduction pathway and the second continuous heat conduction pathway forming a vertical temperature gradient with respect to the forming body; wherein the first refractory material is spaced apart from the first outer forming surface of the forming body and at least one first heating element is disposed between the first refractory material and the first outer forming surface of the forming body; and wherein the second refractory material is spaced apart from the second outer forming surface of the forming body and at least one second heating element is disposed between the second refractory material and the second outer forming surface of the forming body. 2. The glass forming apparatus of claim 1 , wherein the at least one first cooling tube is bonded to the first refractory material and the at least one second cooling tube is bonded to the second refractory material. 3. The glass forming apparatus of claim 1 , wherein the at least one first cooling tube is removably engaged with the first refractory material and the at least one second cooling tube is removably engaged with the second refractory material. 4. The glass forming apparatus of claim 1 , wherein the forming body is an upper forming body of a laminate fusion forming apparatus. 5. The glass forming apparatus of claim 1 , wherein the forming body is a lower forming body of a laminate fusion forming apparatus. 6. The glass forming apparatus of claim 1 , further comprising a fluid circulation system fluidly coupled to the at least one first cooling tube and the at least one second cooling tube, the fluid circulation system comprising a fluid reservoir for containing a cooling fluid, the fluid reservoir fluidly coupled to a pump, a heat exchanger, and a distribution manifold. 7. The glass forming apparatus of claim 6 , wherein: the at least one first cooling tube comprises a first plurality of cooling tubes arranged in parallel with one another; and the distribution manifold is fluidly coupled to the first plurality of cooling tubes to flow cooling fluid through adjacent cooling tubes flows in opposite directions. 8. A muffle assembly for a fusion forming apparatus, the muffle assembly comprising: a muffle frame comprising a back wall, a front wall opposite the back wall, and a pair of sidewalls joining the front wall to the back wall in a closed-loop; at least one first cooling tube extending through the back wall and the front wall across the closed-loop; and at least one second cooling tube extending through the back wall and the front wall across the closed loop such that the at least one second cooling tube is spaced apart from and parallel with the at least one first cooling tube. 9. The muffle assembly of claim 8 , wherein: the at least one first cooling tube is embedded in refractory material positioned within the closed-loop such that the at least one first cooling tube is in direct contact with the refractory material; and the at least one second cooling tube is embedded in refractory material positioned within the closed loop such that the at least one second cooling tube is in direct contact with the refractory material. 10. The muffle assembly of claim 8 , further comprising a fluid circulation system fluidly coupled to the at least one first cooling tube and the at least one second cooling tube, the fluid circulation system comprising a fluid reservoir for containing a cooling fluid, the fluid reservoir fluidly coupled to a pump, a heat exchanger, and a distribution manifold. 11. The muffle assembly of claim 10 , wherein the fluid circulation system further comprises an electronic control unit communicatively coupled to the pump, the heat exchanger and the distribution manifold, the electronic control unit for regulating at least one of a temperature of the cooling fluid, a flow rat of the cooling fluid, and a distribution of the cooling fluid into the at least one first cooling tube and the at least one second cooling tube.