Furnace system

What is claimed is: 1. A furnace system, comprising: a furnace; and, a mixing chamber defining an inlet end configured to receive separate streams of raw material and preheated cullet mix and an outlet end spaced from the inlet end and configured to discharge a combined stream of the raw material and the preheated cullet mix, the mixing chamber tapering from the inlet end to the outlet end and defining first and second opposed sidewalls that approach one another moving from the inlet end to the outlet end, the mixing chamber defining a first inlet in the inlet end configured to receive one of the raw material or the preheated cullet mix, the first inlet aligned with an outlet in the outlet end along a vertical axis, the mixing chamber further defining a second inlet in the inlet end configured to receive the other of the raw material or the preheated cullet mix, the second inlet offset from the outlet relative to the vertical axis such that the other of the raw material and the preheated cullet mix is deposited on the first sidewall before reaching the outlet; and, a charger including a hopper and a feeder, the hopper having an inlet end coupled to the outlet end of the mixing chamber and configured to receive the combined stream of the raw material and the preheated cullet mix, and the feeder having an outlet end through which a mixture of the raw material and the preheated cullet mix is discharged from the charger into a molten bath in a furnace. 2. The furnace system of claim 1 wherein the charger is configured to rotate about the vertical axis. 3. The furnace system of claim 2 wherein the charger is configured to oscillate about the vertical axis. 4. The furnace system of claim 1 , further comprising a duct system including an exhaust duct in fluid communication with an exhaust fluid outlet of the furnace and configured to vent fluid exhausted from the furnace, and, a charger intake duct in fluid communication with the charger and the exhaust duct and configured to deliver a portion of the fluid exhausted from the furnace to the charger. 5. The furnace system of claim 4 wherein the charger intake duct comprises a flexible hose having an inlet end coupled to the exhaust duct and an outlet end coupled to the charger, the outlet end configured for movement relative to the inlet end upon rotation of the charger. 6. The furnace system of claim 1 , further comprising a duct system including an exhaust duct in fluid communication with an exhaust fluid outlet of the furnace and configured to vent fluid exhausted from the furnace, and, a charger exhaust duct in fluid communication with the charger and configured to vent fluid exhausted from the charger, the charger exhaust duct also in fluid communication with the exhaust duct wherein the fluid exhausted from the charger is mixed with a portion of the fluid exhausted from the furnace. 7. The furnace system of claim 6 wherein the charger exhaust duct comprises a flexible hose having an inlet end coupled to the charger and an outlet end, the inlet end configured for movement relative to the outlet end upon rotation of the charger. 8. The furnace system of claim 6 wherein the duct system further includes a return duct having an inlet end coupled to the exhaust duct and the charger exhaust duct and configured to receive the fluid exhausted from the charger and another portion of the fluid exhausted from the furnace and an outlet end coupled to the exhaust duct and configured to return a mixture of the fluid exhausted from the charger and the another potion of the fluid exhausted from the furnace to the exhaust duct. 9. The furnace system of claim 1 , further comprising a duct system including a charger exhaust duct in fluid communication with the charger and configured to vent fluid exhausted from the charger; and, a heat tracing device disposed against a portion of the charger exhaust duct and configured to maintain a temperature of the fluid exhausted from the charger above a predetermined temperature. 10. The furnace system of claim 9 wherein the heat tracing device is wound about the charger exhaust duct. 11. The furnace system of claim 1 , further comprising a duct system including an exhaust duct in fluid communication with an exhaust fluid outlet of the furnace and configured to vent fluid exhausted from the furnace, and, a mixing chamber exhaust duct in fluid communication with the mixing chamber and configured to vent fluid exhausted from the mixing chamber, the mixing chamber exhaust duct also in fluid communication with the exhaust duct wherein the fluid exhausted from the mixing chamber is mixed with a portion of the fluid exhausted from the furnace. 12. The furnace system of claim 11 wherein the duct system further includes a return duct having an inlet end coupled to the exhaust duct and the mixing chamber exhaust duct and configured to receive the fluid exhausted from the mixing chamber and another portion of the fluid exhausted from the furnace and an outlet end coupled to the exhaust duct and configured to return a mixture of the fluid exhausted from the mixing chamber and the another potion of the fluid exhausted from the furnace to the exhaust duct. 13. The furnace system of claim 1 , further comprising a duct system including a mixing chamber exhaust duct in fluid communication with the mixing chamber and configured to vent fluid exhausted from the mixing chamber; and, a heat tracing device disposed against a portion of the mixing chamber exhaust duct and configured to maintain a temperature of the fluid exhausted from the mixing chamber above a predetermined temperature. 14. The furnace system of claim 13 wherein the heat tracing device is wound about the mixing chamber exhaust duct. 15. The furnace system of claim 1 , further comprising: a screw feeder to direct raw material into the mixing chamber, at the inlet end of the mixing chamber; and a preheater to preheat cullet and configured to deposit cullet on the first sidewall of the mixing chamber; wherein the charger is located below the mixing chamber. 16. A furnace system, comprising: a furnace; a mixing chamber defining an inlet end configured to receive separate streams of raw material and preheated cullet mix and an outlet end spaced from the inlet end and configured to discharge a combined stream of the raw material and the preheated cullet mix, the mixing chamber tapering from the inlet end to the outlet end, the mixing chamber defining a first inlet in the inlet end configured to receive one of the raw material or the preheated cullet mix, the mixing chamber further defining a second inlet in the inlet end configured to receive the other of the raw material or the preheated cullet mix; a charger having an inlet end coupled to the outlet end of the mixing chamber and configured to receive the combined stream of the raw material and the preheated cullet mix and an outlet end through which a mixture of the raw material and the preheated cullet mix is discharged from the charger into a molten bath in a furnace; and, a duct system comprising an exhaust duct in fluid communication with an exhaust fluid outlet of the furnace and configured to vent fluid exhausted from the furnace, at least one of a mixing chamber exhaust duct in fluid communication with the mixing chamber and configured to vent fluid exhausted from the mixing chamber or a charger exhaust duct in fluid communication with the charger and configured to vent fluid exhausted from the charger, wherein a charger intake duct is in fluid communication with the exhaust duct and configured to deliv