System and method for forming a glass sheet

The invention claimed is: 1. A glass forming system, comprising: a structure including a top surface, a bottom surface and a containing wall all of which are attached to one another to form a space within which there is located a bath of molten metal that covers the bottom surface and contacts a lower portion of the containing wall; a delivery device for delivering a free falling molten glass having a liquidus viscosity less than 1000 poises onto a portion of the molten metal located in a delivery area within the structure; and at least one device for eliminating dead zones in the delivery area to reduce a residence time of the molten glass in the delivery area to enable a substantially continuous flow of the molten glass in a downstream direction away from the delivery area when forming a glass sheet, wherein the at least one device includes the containing wall having a substantially semi-circular channel around the delivery area and a substantially diverging channel extending in the downstream direction, the containing wall being shaped to limit contact between the molten glass and the semi-circular channel. 2. The glass forming system of claim 1 , wherein the at least one device includes a gas supply that provides a gas which passes through a plurality of pores extending through at least a portion of the containing wall associated with the delivery area so as to form a gas cushion which repels the molten glass away from at least that portion of the containing wall. 3. The glass forming system according to claim 1 , wherein the at least one device includes the delivery device being chosen from a tube, rod or needle through which or around the molten glass flows before free falling from a height that is less than 100 mm into the delivery area. 4. The glass forming system according to claim 1 , wherein the at least one device includes the delivery device being bent to orient the flow of the free falling molten glass that is received in the delivery area in a downstream direction away from the delivery area. 5. The glass forming system according to claim 1 , wherein the at least one device includes the delivery device having a heater that heats the molten glass to control a viscosity of the molten glass that is free falling onto the portion of the molten metal. 6. The glass forming system according to claim 1 , wherein the structure further includes one or more cooling elements that cool the molten glass that is located therein on the molten metal. 7. The glass forming system according to claim 1 , wherein the structure includes: the delivery area where the free falling molten glass is delivered to the molten metal; a diverging area where the delivered molten glass flowing on the molten metal spreads until reaching an equilibrium thickness; a thermal conditioning area where the spread molten glass flowing on the molten metal is cooled; and a float drawing area where the cooled molten glass flowing on the molten metal is drawn to from the glass sheet.