Scrubber apparatus for a refrigerated transport container

1 . A scrubber apparatus for a refrigerated transport container having a cargo space, the scrubber apparatus comprising: a regenerating adsorber configured to permit flow therethrough for adsorption or desorption of a controlled gas; a manifold in fluid communication with a first side of the adsorber, comprising: an interior gas port for fluid communication with interior gas in the cargo space; an exterior gas port for fluid communication with exterior gas outside of the cargo space; an adsorption control damper at the interior gas port for controlling selective fluid communication between the adsorber and interior gas; and a regeneration control damper at the exterior gas port for controlling selective fluid communication between the adsorber and exterior gas; and a common actuator configured to actuate both the adsorption control damper and the regeneration control damper to move between an adsorption configuration, in which the adsorption control damper is open to permit an interior gas flow through the adsorber and the regeneration control damper is closed, and a regeneration configuration, in which the regeneration control damper is open to permit an exterior gas flow through the adsorber and the adsorption control damper is closed. 2 . A scrubber apparatus according to claim 1 , wherein each one of the adsorption control damper and the regeneration control damper is biased to a bias position which is either an open position or a closed position of the respective damper. 3 . A scrubber apparatus according to claim 2 , wherein the common actuator comprises a rotatable common actuation element configured to rotate in a first direction to move the adsorption control damper away from its bias position and to rotate in an opposing second direction to move the regeneration control damper away from its bias position. 4 . A scrubber apparatus according to claim 1 , wherein the manifold and the adsorber are provided in a housing. 5 . A scrubber apparatus according to claim 4 , wherein the air dampers are provided within the housing. 6 . A scrubber apparatus according to claim 4 , further comprising an air mover between the manifold and the adsorber. 7 . A scrubber apparatus according to claim 4 , wherein the housing has a layered structure such that the adsorber is provided in an adsorber layer and the manifold is provided in air control layer superposed on the adsorber layer for switching between the adsorption configuration and the regeneration configuration. 8 . A scrubber apparatus according to claim 1 , further comprising a heater disposed upstream of the adsorber and downstream of the manifold. 9 . A scrubber apparatus according to claim 8 , further comprising a heater controller, wherein the heater controller is configured to heat interior gas upstream of the adsorber in the adsorption configuration. 10 . A scrubber apparatus according to claim 9 , wherein the heater controller is configured to control the heater to raise the temperature of the interior gas by a threshold increase. 11 . A scrubber apparatus according to claim 1 , wherein the manifold is one of two such manifolds at opposing sides of the adsorber. 12 . A scrubber apparatus according to claim 11 , wherein the common actuator is configured to actuate the adsorption control dampers and the regeneration control dampers at each manifold to move between the adsorption configuration and the regeneration configuration. 13 . A scrubber apparatus for a refrigerated transport container having a cargo space, the scrubber apparatus comprising: a regenerating adsorber configured to permit flow therethrough for adsorption or desorption of a controlled gas; an air damper module configured to switch the apparatus between an adsorption configuration in which the adsorber is to receive interior gas from the cargo space and discharge treated interior gas to the cargo space; and a regeneration configuration in which the adsorber is to receive exterior gas from outside of the cargo space and discharge exterior gas enriched with the controlled gas; a heater configured to heat gas provided to the adsorber; and a heater controller configured to operate the heater to heat interior gas provided to the adsorber when the air damper module is in the adsorption configuration. 14 . A scrubber apparatus according to claim 13 , wherein the heater controller is configured to operate the heater in a first mode to heat interior gas when the apparatus is in the adsorption configuration, and to operate the heater in a second mode to heat exterior gas when the apparatus is in the regeneration configuration. 15 . A refrigerated transport container or a refrigeration system for a refrigerated transport container, comprising: an evaporator heat exchanger for receiving a return flow of interior gas from a cargo space for cooling; a scrubber apparatus, the scrubber apparatus including: a regenerating adsorber configured to permit flow therethrough for adsorption or desorption of a controlled gas; a manifold in fluid communication with a first side of the adsorber, comprising: an interior gas port for fluid communication with interior gas in the cargo space; an exterior gas port for fluid communication with exterior gas outside of the cargo space; an adsorption control damper at the interior gas port for controlling selective fluid communication between the adsorber and interior gas; and a regeneration control damper at the exterior gas port for controlling selective fluid communication between the adsorber and exterior gas; and a common actuator configured to actuate both the adsorption control damper and the regeneration control damper to move between an adsorption configuration, in which the adsorption control damper is open to permit an interior gas flow through the adsorber and the regeneration control damper is closed, and a regeneration configuration, in which the regeneration control damper is open to permit an exterior gas flow through the adsorber and the adsorption control damper is closed; wherein the scrubber apparatus is configured to receive a portion of a return flow of interior gas for removal of a controlled gas from upstream of the evaporator heat exchanger with respect to the direction of return flow, and is configured to discharge treated interior gas having passed through the adsorber at a position downstream of the evaporator.