Abstract: The present invention provides an environmental control system for an aircraft attendant or crew rest ventilation system. The system provides primary and secondary sources of air to the crew or attendant rest. A pressure sensor within the supply duct determines whether air from the primary duct is within desired pressure limits and controls operation of the ducts accordingly. Additional features related to temperature control and ventilation are also provided.

Abstract: The present invention provides an environmental control system for an aircraft attendant or crew rest ventilation system. The system provides primary and secondary sources of air to the crew or attendant rest. A pressure sensor within the supply duct determines whether air from the primary duct is within desired pressure limits and controls operation of the ducts accordingly. Additional features related to temperature control and ventilation are also provided.

Abstract: The present invention provides a temperature control system for an aircraft ventilation system that couples with existing aircraft upstream ventilation system architecture and downstream ventilation system architecture. The temperature control system includes an air duct arranged to receive a volume of ventilation air from the upstream ventilation system architecture and transfer the volume of air to the downstream ventilation system architecture. A heater is arranged to heat the ventilation air. A controller is arranged to control the heater responsive to a comparison of the actual temperature of the ventilation air to a desired range of temperatures. The controller maintains the actual ventilation air temperature within the predetermined range of temperatures such that formation of ice is minimized in the aircraft ventilation system. An exhaust shutoff valve between the air distribution system and the lavatory/galley ventilation system provides for ventilation in the event smoke is detected.

Abstract: The present invention provides a temperature control system for an aircraft ventilation system that couples with existing aircraft upstream ventilation system architecture and downstream ventilation system architectureb. The temperature control system includes an air duct arranged to receive a volume of ventilation air from the upstream ventilation system architecture and transfer the volume of air to the downstream ventilation system architecture. A heater is arranged to heat the ventilation air. A controller is arranged to control the heater responsive to a comparison of the actual temperature of the ventilation air to a desired range of temperatures. The controller maintains the actual ventilation air temperature within the predetermined range of temperatures such that formation of ice is minimized in the aircraft ventilation system. An exhaust shutoff valve between the air distribution system and the lavatory/galley ventilation system provides for ventilation in the event smoke is detected.