Air-cooled heat exchanger cleaning and temperature control apparatus

The invention claimed is: 1. An apparatus for cleaning and/or cooling or heating an air-cooled heat exchanger (ACHE), the ACHE including an array of finned air-cooled tubes extending in fluid communication between opposing headers, the plurality of finned tubes being arranged horizontally into a plurality of vertically spaced rows, the finned tubes thereby defining parallel open regions in the array, the cleaning and/or cooling or heating apparatus characterized by: a. a common manifold configured to receive and transmit a pressurized fluid from an external source, the common manifold positioned proximate a header at one end of the ACHE and extending above and transverse to the top row of finned tubes; b. a plurality of spray tubes, each of the spray tubes extending parallel to, and substantially coterminous in length with the finned tubes, the ends of the spray tubes opposite the common manifold being sealed, one of each of the spray tubes being individually positioned in one of the open regions defined by the spaced-apart rows of finned tubes, the spray tubes being provided with spaced-apart nozzles for discharging a pressurized fluid to contact the adjacent surfaces of the fins and the tubes; and c. a plurality of intermediate fluid conduits extending between, and in fluid communication with the common manifold and with the open end of at least one of the spray tubes proximate the header for delivering a pressurized fluid from the common manifold to the nozzles of each of the spray tubes. 2. The apparatus of claim 1 in which the plurality of intermediate fluid conduits comprise a plurality of array manifolds, each array manifold depending from the common manifold and passing between the ends of the finned tubes proximate the header, each array manifold configured to receive the ends of a plurality of vertically aligned spray tubes in spaced-apart relation along the longitudinal axis of the array manifold. 3. The apparatus of claim 1 in which the plurality of intermediate fluid conduits comprises a plurality of downwardly depending connecting conduits each in fluid communication with the common manifold and an end of one of the spray tubes. 4. The apparatus of claim 3 in which the spray tube and connecting conduit are joined by a fitting. 5. The apparatus of claim 3 in which each spray tube and connecting conduit is integrally formed from a continuous length of tubing. 6. The apparatus of claim 1 in which a row of spray tubes extends below the bottom row of finned tubes in the ACHE. 7. The apparatus of claim 1 in which a row of spray tubes extends above the top row of finned tubes in the ACHE. 8. The apparatus of claim 1 in which each of the spray tubes terminates in a free end that is positioned proximate the header. 9. The apparatus of claim 8 in which the free end of each of the spray tubes is supported. 10. The apparatus of claim 1 in which each of the spray tubes is supported at at least one location along its length. 11. The apparatus of claim 1 in which each of the nozzles comprise an orifice of a predetermined size and configuration extending through the wall of the spray tube. 12. The apparatus of claim 1 in which each of the spray tubes is provided with nozzles positioned on the exterior surface of the spray tube and in fluid communication with the interior of the tube, each of the nozzles emitting a spray in a predetermined controlled pattern. 13. An apparatus for cleaning and/or cooling or heating an air-cooled heat exchanger (ACHE), the ACHE including an array of finned air-cooled tubes extending in fluid communication between opposing headers, the plurality of finned tubes being arranged horizontally into a plurality of vertically spaced rows, the finned tubes thereby defining parallel open regions in the array, the cleaning and/or cooling or heating apparatus characterized by: a. a common manifold configured to receive and contain a pressurized fluid from an external source, the common manifold positioned proximate a header at one end of the ACHE and extending above and transverse to the top row of finned tubes; b. a plurality of array manifolds depending from the common manifold and in fluid communication with the interior of the common manifold, each of the plurality of array manifolds extending between the ends of the finned tubes proximate the header and aligned with adjacent open regions, the end of the array manifold opposite the common manifold being sealed; and c. a plurality of spray tubes, each of the spray tubes extending parallel to, and substantially coterminous in length with the finned tubes, one spray tube being positioned in one of the open regions defined by the spaced-apart rows of finned tubes, the spray tubes being in fluid communication at one end with one of the array manifolds and sealed at the end opposite the array manifold, each of the spray tubes having spaced-apart nozzles for discharging a pressurized fluid to contact the adjacent surfaces of the fins and the tubes. 14. The apparatus of claim 13 in which each of the array manifolds intersect the common manifold at a right angle. 15. The apparatus of claim 13 in which each of the array manifolds intersects the common manifold at an acute angle and extends diagonally between the ends of the finned tubes proximate the header. 16. An apparatus for cleaning and/or cooling or heating an air-cooled heat exchanger (ACHE), the ACHE including an array of finned air-cooled tubes extending in fluid communication between opposing headers, the plurality of finned tubes being arranged horizontally into a plurality of vertically spaced rows, the finned tubes thereby defining parallel open regions in the array, the cleaning and/or cooling or heating apparatus characterized by: a. a common manifold adapted to receive and contain a pressurized fluid from an external source, the common manifold positioned proximate a header at one end of the ACHE, and extending above and transverse to the top row of finned tubes; and b. a plurality of downwardly depending intermediate conduits in fluid communication with the interior of the common manifold, the plurality of depending intermediate conduits being configured in spaced-apart groups that are positioned between the finned tubes proximate the header below the common manifold, each of the depending intermediate conduits being joined in fluid communication with a spray tube, each spray tube being positioned in one of the open regions between the finned tubes, and being parallel to, and substantially coterminous in length with the finned tubes, the spray tubes being provided with spaced-apart nozzles for discharging a pressurized fluid to contact the adjacent surfaces of the fins and the tubes.