Pulsation damper for compressors

The invention claimed is: 1. A damper for reducing pulsation from a compressor, the damper comprising: an outer chamber defining an outer cavity therein, the outer chamber being arranged to pass flow from an inlet to an outlet thereof, an inner chamber arranged within the outer cavity and defining an inner cavity therein, the inner chamber being arranged to pass flow from an inlet to an outlet thereof, and a number of partitions dividing the outer cavity of the outer chamber into sections, the number of partitions each extending between the outer chamber and the inner chamber, wherein at least some of the sections are connected with each other near the inlet of the inner chamber to form an inlet manifold and are connected with each other near the outlet of the inner chamber to form an outlet manifold and each extend between the respective inlet and outlet manifolds to define flow paths between the inlet and the outlet of the outer chamber, wherein a housing forms at least a portion of the outer chamber, the housing including a body and a cap removably fastened to the body, the body and cap interfacing with each other along the outlet of the inner chamber. 2. The damper of claim 1 , wherein the inlet of the inner chamber is connected with the inlet manifold and the outlet of the inner chamber is connected with the outlet manifold. 3. The damper of claim 1 , wherein the housing defines at least a portion of the outer cavity. 4. The damper of claim 3 , wherein the body foil is a base portion of the outer chamber and forms the inner chamber. 5. The damper of claim 4 , wherein the cap forms a head portion of the outer chamber. 6. The damper of claim 3 , wherein the body forms a base portion of each of the number of partitions. 7. The damper of claim 6 , wherein the cap forms a head portion of each of the number of partitions. 8. The damper of claim 7 , wherein each base portion includes a fastener hole defined therethrough for receiving a fastener to secure the body with the compressor. 9. The damper of claim 8 , wherein the head portion of each of the number of partitions is arranged to prevent removal of the fastener from the fastener hole of the corresponding base portion. 10. The damper of claim 7 , further comprising a damper plate arranged between the base portion and the head portion of each of the number of partitions. 11. The damper of claim 10 , wherein the damper plate is a perforated plate arranged to span across the outlet of the inner chamber to receive at least a portion of flow therethrough. 12. The damper of claim 10 , wherein the damper plate is attached to the head portion of the number of partitions with at least one fastener and at least one of the inner chamber and the base portions of the number of partitions are arranged to prevent removal of the at least one fastener when the cap is fastened to the body. 13. The damper of claim 12 , wherein the at least one of the inner chamber and the base portions of the number of partitions are arranged in close proximity to the at least one fastener to interrupt extraction by contact with a head of the at least one fastener to prevent removal when the cap is fastened to the body by arrangement. 14. A damper for reducing pulsation from a compressor, the damper comprising: an outer chamber defining an outer cavity therein, the outer chamber being arranged to pass flow from an inlet to an outlet thereof, an inner chamber arranged within the outer cavity and defining an inner cavity therein, the inner chamber being arranged to pass flow from an inlet to an outlet thereof, and a number of partitions dividing the outer cavity of the outer chamber into sections that are each connected with the inlet and outlet of the outer chamber to form parallel flow paths, wherein the inlet of the inner chamber comprises a number of inlet openings defined through an inlet wall of the inner chamber, wherein a first flow passage is defined from the inlet of the outer chamber, through at least one of the sections, to the outlet of the outer chamber; and a second flow passage is defined from the inlet of the inner chamber, through the inner chamber, through the outlet of the inner chamber; and wherein the first flow passage and the second flow passage are arranged in parallel with each other, wherein a housing forms at least a portion of the outer chamber, the housing including a body and a cap removably fastened to the body, wherein the body and cap interface with each other along the outlet of the inner chamber. 15. The damper of claim 14 , wherein the inlet wall has a conical shape that is convex on an outer side thereof to guide at least some flow through the sections. 16. The damper of claim 14 , further comprising a perforated plate arranged near the outlet of the inner chamber, wherein the second flow passage is further defined through the perforated plate. 17. A damper for reducing pulsation from a compressor, the damper comprising: an outer chamber defining an outer cavity therein, the outer chamber being arranged to pass flow from an inlet to an outlet thereof, an inner chamber arranged within the outer cavity and defining an inner cavity therein, the inner chamber being arranged to pass flow from an inlet to an outlet thereof, and a number of partitions dividing the outer cavity of the outer chamber into sections that are each connected with the inlet and outlet of the outer chamber to form parallel flow paths, wherein a housing forms at least a portion of the outer chamber, the housing includes a body and a cap removably attached to the body to define at least a portion of the outer cavity, the body and cap interfacing with each other along the outlet of the inner chamber. 18. The damper of claim 17 , wherein the housing further includes a base having an intake passage defined therethrough, the intake passage being connected with the inlet of the outer chamber to receive flow from the compressor. 19. The damper of claim 18 , wherein the intake passage forms an intake nozzle. 20. The damper of claim 18 , wherein the base is integrally formed with the body. 21. The damper of claim 17 , wherein the sections are connected to each other to form an outlet manifold and the outlet of the outer chamber is arranged within only one of the sections. 22. The damper of claim 21 , wherein the housing includes a discharge limb extending from the outer chamber and defining a discharge passage that extends from the outlet of the outer chamber through the discharge limb to expel flow. 23. A damper system for reducing pulsation from a compressor, the damper system comprising: a first stage damper, and a second stage damper, the first and second stage dampers each comprising: an outer chamber defining an outer cavity therein, the outer chamber being arranged to pass flow from an inlet to an outlet thereof, an inner chamber arranged within the outer cavity and defining an inner cavity therein, the inner chamber being arranged to pass flow from an inlet to an outlet thereof, wherein at least one of the first and second stage dampers include a number of partitions dividing the respective outer cavity of the outer chamber into sections that are each connected with the inlet and the outlet of the outer chamber to form flow paths, and at least one of the first and second stage dampers include a housing including a body and a cap removably attached to the body to define at least a portion of the outer cavity, the body and cap i