Heat of compression dryer system

What is claimed is: 1. A gas compressing system comprising: a compressor operable to provide a flow of compressed gas and water vapor; a first desiccant tower including a first quantity of desiccant; a second desiccant tower separate from the first desiccant tower and including a second quantity of desiccant; a first moisture separator; a second moisture separator separate from the first moisture separator; a dry gas outlet; a first set of no more than three valves each movable between an open position and a closed position; and a second set of no more than three valves each movable between an open position and a closed position, wherein the flow of compressed gas and water vapor flows along a flow path in order from the compressor to the first desiccant tower, to the first moisture separator, to the second desiccant tower and out the dry gas outlet when each of the valves of the first set of valves is open and each valve of the second set of valves is closed, and wherein the flow of compressed gas and water vapor flows in order from the compressor to the second desiccant tower, to the second moisture separator, to the first desiccant tower and out the dry gas outlet when each of the valves of the first set of valves is closed and each valve of the second set of valves is opened. 2. The gas compressing system of claim 1 , wherein the first desiccant tower includes a first inlet and a first outlet, and wherein the flow of compressed gas and water vapor flows through the first desiccant tower from the outlet to the inlet when the valves of the first set of valves are in the open position and the valves of the second set of valves are in the closed position. 3. The gas compressing system of claim 2 , wherein the flow of compressed gas and water vapor flows through the first desiccant tower from the inlet to the outlet when the valves of the first set of valves are in the closed position and the valves of the second set of valves are in the open position. 4. The gas compressing system of claim 1 , wherein each valve of the first set of valves moves substantially simultaneously between the open position and the closed position. 5. The gas compressing system of claim 4 , wherein each valve of the first set of valves are either simultaneously in the open position or the closed position. 6. The gas compressing system of claim 5 , wherein each valve of the second set of valves are either simultaneously in the open position or the closed position, and wherein when the first set of valves are in the open position, the second set of valves are in the closed position. 7. The gas compressing system of claim 1 , wherein the first set of valves includes three and only three valves and the second set of valves includes three and only three valves. 8. The gas compressing system of claim 1 , further comprising an additional valve and a heater positioned within the flow path between the compressor and the first desiccant tower, wherein the heater is operable to heat the flow of compressed gas and water vapor when the additional valve is open. 9. The gas compressing system of claim 1 , further comprising a first cooler positioned in the flow path between the first desiccant tower and the first moisture separator when each of the valves of the first set of valves is open and each valve of the second set of valves is closed. 10. The gas compressing system of claim 9 , further comprising a second cooler positioned in the flow path between the second desiccant tower and the second moisture separator when each of the valves of the first set of valves is closed and each valve of the second set of valves is opened. 11. The gas compressing system of claim 1 , wherein the compressor is a multi-stage compressor including a final stage and an intercooler upstream of the final stage and operable to cool the flow of compressed gas to an intercooler discharge temperature before it enters the final stage, and wherein a controller is operable to maintain the intercooler discharge temperature above a predetermined temperature. 12. A gas compressing system comprising: a compressor operable to provide a flow of compressed gas and water vapor; a first desiccant tower including a first inlet, a first outlet, and a first quantity of desiccant positioned in a first flow path between the first inlet and the first outlet; a second desiccant tower including a second inlet, a second outlet, and a second quantity of desiccant positioned in a second flow path between the second inlet and the second outlet; a first moisture separator; a second moisture separator; a dry gas outlet; a first set of three and only three valves each movable between an open position and a closed position; and a second set of three and only three valves each movable between an open position and a closed position, wherein in a first arrangement, each of the valves of the first set of valves is open and each of the valves of the second set of valves is closed and the flow of compressed gas and vapor flows along a flow path from the compressor, through the first desiccant tower to heat and regenerate the first quantity of desiccant, then through the first moisture separator to remove a portion of the water vapor, then through the second desiccant tower to remove additional water vapor, then through the dry gas outlet, and wherein in a second arrangement, each of the valves of the first set of valves is closed and each of the valves of the second set of valves is open and the flow of compressed gas and vapor flows from the compressor, through the second desiccant tower to heat and regenerate the second quantity of desiccant, then through the second moisture separator to remove a portion of the water vapor, then through the first desiccant tower to remove additional water vapor, then through the dry gas outlet. 13. The gas compressing system of claim 12 , wherein the flow of compressed gas and water vapor flows through the first desiccant tower from the outlet to the inlet when the valves of the first set of valves are in the open position and the valves of the second set of valves are in the closed position. 14. The gas compressing system of claim 13 , wherein the flow of compressed gas and water vapor flows through the first desiccant tower from the inlet to the outlet when the valves of the first set of valves are in the closed position and the valves of the second set of valves are in the open position. 15. The gas compressing system of claim 12 , wherein each valve of the first set of valves moves substantially simultaneously between the open position and the closed position. 16. The gas compressing system of claim 15 , wherein each valve of the first set of valves are either simultaneously in the open position or the closed position. 17. The gas compressing system of claim 16 , wherein each valve of the second set of valves are either simultaneously in the open position or the closed position, and wherein when the first set of valves are in the open position, the second set of valves are in the closed position. 18. The gas compressing system of claim 12 , further comprising a heater positioned within the flow path between the compressor and the first desiccant tower and is operable to heat the flow of compressed gas and water vapor. 19. The gas compressing system of claim 12 , further comprising a first cooler positioned in the flow path between the first desiccant tower and the first moisture separator when each of the valves of the first set of valves is open and each valve of the second set of valves