Chip dryer with integrated exhaust gas treatment

The invention claimed is: 1. A dryer for removing hydrocarbons and/or moisture from metal chips, the dryer comprising a top portion and a base portion, the top portion comprised of an elongated chamber containing a scrap conveyor; the base portion comprising a burner, a heat exchanger and a high temperature VOC elimination chamber, said dryer configured to receive the metal chips at an inlet and transport the metal chips to an outlet while receiving heated air from the base portion. 2. The dryer of claim 1 wherein the base portion includes a port receiving external air. 3. The dryer of claim 1 wherein the scrap conveyor comprises a screw conveyor. 4. The dryer of claim 2 wherein said external air is introduced into a plenum forming an outer region of a lower unit. 5. A dryer for removing at least one of hydrocarbons and moisture from metal chips, the dryer including a top portion and base portion, the top portion comprising an elongated chamber having an inlet end and an outlet end and a screw conveyor extending between the inlet end and the outlet end, the base portion comprising an inlet portion comprising an inlet for top portion exhaust gas, a plenum for transporting said top portion exhaust gas adjacent to an external surface of a lower unit, a heater for increasing temperature of the exhaust gas to obtain super-heated exhaust gas and remove VOCs, a heat exchanger for receiving said super-heated exhaust gas and transferring heat to the top portion exhaust gas. 6. The dryer of claim 5 wherein said dryer comprises a closed loop system. 7. A dryer for removing hydrocarbons and/or moisture from metal chips, the dryer comprising a top portion and a base portion, the top portion comprised of an elongated tubular chamber containing a scrap conveyor; the base portion comprising a burner, a heat exchanger and a high temperature VOC elimination chamber, wherein exhaust gas from said top portion is received in said base portion and heated by said burner within said VOC elimination chamber to obtain a super-heated gas, said super-heated gas being introduced to a first side of said heat exchanger and external air being introduced to a second side of said heat exchanger to provide heated external air, said dryer configured to receive the metal chips at an inlet and transport the metal chips to an outlet while receiving heated external air from the base portion. 8. The dryer of claim 1 wherein said scrap conveyor is disposed asymmetrically within said chamber. 9. The dryer of claim 8 wherein said scrap conveyor is oriented closer to a bottom surface of said chamber than a top surface. 10. The dryer of claim 1 wherein the scrap conveyor includes an elongated cylindrical trough including a plurality of jet passages receiving the heated external air. 11. The dryer of claim 10 including at least two troughs. 12. The dryer of claim 10 wherein an air knife is disposed adjacent each jet passage. 13. The dryer of claim 1 wherein a by-pass is provided intermediate a fan introducing air to the second side of the heat exchanger. 14. The dryer of claim 3 wherein the screw conveyor includes a quadralobal interconnection with a drive coupling. 15. The dryer of claim 1 further including a cyclone dust collector. 16. The dryer of claim 15 wherein said cyclone dust collector includes a filter. 17. The dryer of claim 1 wherein a waste heat is received. 18. The dryer of claim 1 further including a ceramic foam filter. 19. The dryer of claim 1 wherein said burner and heat exchanger are mounted on rollers and slidably removable from a lower unit. 20. The dryer of claim 1 further comprising an expansion joint between a housing and VOC elimination chamber. 21. A method of recycling metal scrap including drying of scrap within the dryer of claim 1 .