Air dryer assembly

What is claimed is: 1. A dryer operable to separate a portion of an entrained liquid from a flow of gas, the dryer comprising: a pressure vessel operable to contain the flow of gas and entrained liquid within the pressure vessel at a full operating pressure, the pressure vessel including a gas inlet, a gas outlet, and a drain positioned at a bottom of the pressure vessel; a precooler/reheater positioned within the pressure vessel to receive and cool the flow of gas and the entrained liquid from the inlet, the precooler/reheater including a plurality of corrugated plates positioned between an upper surface and a lower surface thereof; a divider defined by a housing having an internal region extending from the upper surface of the precooler/reheater to sealingly engage with an extension of the gas outlet, the housing configured to divide an upper space defined between the pressure vessel and the divider into an inlet space in fluid communication with the gas inlet external to the housing and an outlet space in fluid communication with the gas outlet defined within the internal region of the housing; an evaporator positioned within the pressure vessel to receive and cool the flow of gas and the entrained liquid from the precooler/reheater; a separator positioned to receive the flow of gas and the entrained liquid from the evaporator, the separator operable to separate the flow of gas and the entrained liquid into a flow of substantially dry gas and a liquid, the liquid collecting in the bottom of the pressure vessel, the flow of substantially dry gas flowing upward through the precooler/reheater to heat the flow of substantially dry gas and out the gas outlet; and a drain valve movable between an open position and a closed position in response to the quantity of liquid within the bottom of the pressure vessel, wherein the liquid in the bottom of the pressure vessel exits via the drain when the drain valve is in the open position. 2. The dryer of claim 1 , wherein the precooler/reheater is sized to abut the pressure vessel wall to inhibit flow around the precooler/reheater. 3. The dryer of claim 1 , wherein the upper surface and a lower surface are substantially parallel, and the plurality of corrugated plates includes corrugations that are arranged at an oblique angle with respect to the upper surface and the lower surface. 4. The dryer of claim 3 , wherein the corrugated plates cooperate to define a first plurality of flow paths and a separate second plurality of flow paths, the flow of gas and the entrained liquid passing downward through the first plurality of flow paths to cool, and the flow of substantially dry gas flows upward through the second plurality of flow paths to heat the flow of substantially dry gas. 5. The dryer of claim 1 , wherein the precooler/reheater includes an elastomeric seal formed between adjacent corrugated plates. 6. The dryer of claim 1 , wherein the evaporator includes a first corrugated plate, a second corrugated plate, and a middle plate, the first corrugated plate and the middle plate cooperating to define a first side and the second corrugated plate and the middle plate cooperating to define a second side, the first side adapted to receive a flow of refrigerant and the second side adapted to receive the flow of second heat sink fluid. 7. The dryer of claim 6 , wherein the heat sink fluid includes glycol. 8. The dryer of claim 6 , wherein the heat sink fluid includes water that transitions between a liquid and a solid. 9. The dryer of claim 1 , wherein the drain valve includes a float that moves to an open position to open the drain in response to the liquid exceeding a predetermined liquid level. 10. The dryer of claim 1 , further comprising a plastic liner disposed within the pressure vessel to inhibit direct contact between the liquid and the pressure vessel. 11. A gas compression system comprising: a compressor operable to produce a flow of compressed gas, the compressed gas including a quantity of moisture; a refrigeration system operable to produce a flow of chilled refrigerant; a pressure vessel including an outlet, a drain, and an inlet in fluid communication with the compressor to receive the flow of compressed gas and the quantity of moisture; a precooler/reheater positioned within the pressure vessel to receive and cool flow of compressed gas and the quantity of moisture from the inlet, the precooler/reheater including a plurality of corrugated plates positioned between an upper surface and a lower surface thereof; a divider including a housing enclosing an internal region, the divider extending from the upper surface of the precooler/reheater configured to divide an upper space defined between the pressure vessel and the divider into an inlet space defined by an external region formed around the housing in fluid communication with the inlet and an outlet space defined within the internal region of the housing in fluid communication with the outlet; a dual layer evaporator positioned within the pressure vessel to receive and cool the flow of gas and the entrained liquid from the precooler/reheater, the dual layer evaporator including a first layer formed to pass the flow of chilled refrigerant and a second layer formed to hold a heat sink fluid, the flow of chilled refrigerant operable to cool the flow of compressed gas and the heat sink fluid; and a separator positioned to receive the flow of compressed gas and the quantity of moisture and operable to separate the flow of compressed gas and the quantity of moisture into a flow of substantially dry gas and a quantity of liquid. 12. The dryer of claim 11 , wherein the precooler/reheater is sized to abut the pressure vessel wall to inhibit flow around the precooler/reheater. 13. The dryer of claim 11 , wherein the upper surface and lower surface are substantially parallel, and the plurality of corrugated plates includes corrugations that are arranged at an oblique angle with respect to the upper surface and the lower surface. 14. The dryer of claim 13 , wherein the corrugated plates cooperate to define a first plurality of flow paths and a separate second plurality of flow paths, the flow of compressed gas and the quantity of moisture passing downward through the first plurality of flow paths to cool, and the flow of substantially dry gas flows upward through the second plurality of flow paths to heat the flow of substantially dry gas. 15. The dryer of claim 11 , wherein the precooler/reheater includes an elastomeric seal formed between adjacent corrugated plates. 16. The dryer of claim 11 , wherein the evaporator includes a first corrugated plate, a second corrugated plate, and a middle plate, the first corrugated plate and the middle plate cooperating to define a first side and the second corrugated plate and the middle plate cooperating to define a second side, the first side adapted to receive the flow of chilled refrigerant and the second side adapted to receive the heat sink fluid. 17. The dryer of claim 16 , wherein the heat sink fluid includes a flow of fluid. 18. The dryer of claim 16 , wherein the heat sink fluid includes a trapped quantity of water. 19. The dryer of claim 11 , further comprising a drain valve movable between an open position and a closed position in response to the quantity of liquid within the bottom of the pressure vessel, wherein the liquid in the bottom of the pressure vessel exits via the drain when the drain valve is in the open position. 20. A gas compression system comprising: a compressor ope