Transport refrigeration system with engine exhaust cooling

I claim: 1. A transport refrigeration system for controlling a temperature associated with a mobile refrigerated cargo box comprising: a refrigeration unit having a refrigerant circuit through which a refrigerant is circulated, the refrigeration unit including a compression device, a refrigerant heat rejection heat exchanger, an expansion device and a refrigerant heat absorption heat exchanger wherein refrigerant is passed in heat exchange relationship with air drawn from the mobile refrigerated cargo box; a fuel fired engine for powering the refrigerant unit, the fuel fired engine having an exhaust system through which exhaust gases generated by the fuel fired engine are discharged; and an engine exhaust gas cooler including an exhaust gas pass, a refrigerant pass, and an air flow pass, the exhaust gas pass and the refrigerant pass disposed in heat exchange relationship and in the air flow pass; herein the refrigerant pass of the engine exhaust gas cooler has an inlet connected to the refrigerant circuit at a first location between the compression device and the refrigerant heat rejection heat exchanger and has an outlet connected to the refrigerant circuit at a second location between the expansion device and the refrigerant heat absorption heat exchanger; a valve positioned in the first location, the valve having a closed position to prevent the refrigerant from entering the inlet of the refrigerant pass of the engine exhaust gas cooler and an open position to allow the refrigerant to enter the inlet of the refrigerant pass of the engine exhaust gas cooler. 2. The transport refrigeration system as recited in claim 1 wherein the refrigerant pass of the engine exhaust gas cooler is disposed in flow communication with an air side pass of the refrigerant heat rejection heat exchanger. 3. The transport refrigeration system as recited in claim 1 further including: a refrigerant receiver disposed in the refrigerant circuit between an upstream segment of the refrigerant heat rejection heat exchanger and a downstream segment of the refrigerant heat rejection heat exchanger; and a bypass line in flow communication with the refrigerant pass of the engine exhaust gas cooler and in flow communication with the refrigerant receiver. 4. The transport refrigeration system as recited in claim 1 wherein the exhaust system includes a particulate filter disposed downstream with respect to exhaust gas flow of the exhaust gas pass of the engine exhaust gas cooler. 5. The transport refrigeration system as recited in claim 1 wherein the engine exhaust gas cooler comprises: an inner tube extending along a central axis of the engine exhaust gas cooler; an array of a plurality of heat transfer members mounted to the inner tube; and a plurality of outer tubes disposed in parallel relationship to the inner tube, the outer tubes spaced radially outward from the inner tube and extending longitudinally to pass through the array of the plurality of heat transfer members. 6. The transport refrigeration system as recited in claim 5 wherein: the inner tube defines an internal flow passage through which a first fluid may be passed; each outer tube of the plurality of outer tubes defines an internal flow passage through which a second fluid may be passed. 7. The transport refrigeration system as recited in claim 6 wherein the array of the plurality of heat transfer members are arrayed in longitudinally spaced relationship along the inner tube thereby establishing a plurality of flow passages between adjacent heat transfer members. 8. The transport refrigeration system as recited in claim 7 wherein the plurality of heat transfer members are mounted to the inner tube so as to extend orthogonal to and radially outward from the inner tube. 9. The transport refrigeration system as recited in claim 6 further comprising: an inlet manifold; an outlet manifold; the plurality of outer tubes connected in fluid flow communication with and between the inlet manifold and the outlet manifold. 10. The transport refrigeration system as recited in claim 5 wherein the heat exchanger is employed as an engine exhaust cooler in connection with a transport refrigeration unit, and wherein the inner tube defines an internal flow passage through which a flow of engine exhaust gas passes, each outer tube defines an internal flow passage through which a flow of refrigerant passes, and the plurality of flow passages between adjacent heat transfer members defines an air flow passage external of the heat transfer members. 11. The transport refrigeration system as recited in claim 5 wherein each heat transfer member of the plurality of heat transfer members comprises an annular disk having a radially outer circumferential wall defining an outer boundary of the annular disk and a pair of annular side walls, each side wall having a centrally disposed hole formed therein, the radially outer circumferential wall and the pair of annular side walls defining an internal chamber. 12. The transport refrigeration system as recited in claim 11 wherein the annular disk is affixed to the inner tube in a sealed relationship with the inner tube received in and passing through the central holes formed in the side walls of the annular disk, thereby defining a sealed internal chamber. 13. The transport refrigeration system as recited in claim 12 wherein the sealed internal chamber of the annular disk is filled with a heat transfer working fluid. 14. The transport refrigeration system as recited in claim 5 wherein each heat transfer member comprises a heat transfer fin.