37000 Feet | Browse and search NASA's Aviation Safety Reporting System |
|
Attributes | |
ACN | 1126670 |
Time | |
Date | 201310 |
Local Time Of Day | 1201-1800 |
Place | |
Locale Reference | ZZZ.ARTCC |
State Reference | US |
Environment | |
Light | Daylight |
Aircraft 1 | |
Make Model Name | Citation Excel (C560XL) |
Operating Under FAR Part | Part 91 |
Flight Phase | Descent |
Route In Use | Direct |
Flight Plan | IFR |
Component | |
Aircraft Component | Air Conditioning Distribution Ducting Clamps Connectors |
Person 1 | |
Function | First Officer Pilot Not Flying |
Qualification | Flight Crew Instrument Flight Crew Flight Instructor Flight Crew Air Transport Pilot (ATP) Flight Crew Multiengine |
Experience | Flight Crew Last 90 Days 110 Flight Crew Total 3450 Flight Crew Type 125 |
Events | |
Anomaly | Aircraft Equipment Problem Critical Flight Deck / Cabin / Aircraft Event Other / Unknown |
Narrative:
On the afternoon of october 2013 at approximately xa:15 local time; our aircraft was cruising at 40;000 ft. The captain and I had completed our cruise checklist and approximately 30 minutes later; along with our passengers; we noticed that air had ceased to flow from the overhead vents. As with many jets; this air serves not only to control the air temperature in the aircraft; but also to pressurize the aircraft vessel. The captain and I immediately turned our attention to the cabin altitude indicator as well as the automatic pressure controller (apc) to see if there were any abnormalities. We initially noticed a climb in cabin rate of climb of between 200 and 300 ft per minute while the cabin altitude itself began a climb from its initial value of 6;000 ft. We scanned the face of the automatic pressure controller for any error indications thinking we may have had a failure of the apc. It was indicating normally. Within a matter of 10 or 15 seconds; we determined that the best course of action would be to begin a descent while we continue to troubleshoot the unexplained climb in cabin altitude. At this time; we both pulled our emergency oxygen masks from storage and put them in our laps in case a faster loss of pressure occurred. I also pulled the emergency checklist and opened it to the emergency descent tab and laid it open and ready. It is important to note that we had no other indications or annunciators during the duration of the flight. I immediately asked for a lower altitude from ATC and we were given 38;000 ft. ATC asked the nature of our situation and I told them it was a sudden drop in pressurization. The captain initiated an aggressive descent and I asked for lower altitudes repeatedly as the urgency of our descent increased. The cabin altitude continued to climb until the cabin outflow valve fully closed and momentarily slowed the loss of cabin pressure. Because we were descending aggressively; the cabin altitude never exceeded its upper limits; no annunciators illuminated; and the cabin oxygen masks never fell from their overhead containers. It is important to note that during the descent; we heard loud hums; and abnormal squeals coming from the aft bulkhead area. This confirmed our suspicion that it was not a computer issue; but rather a failure of an outflow valve or duct. In addition; during the descent; we decided to make a precautionary landing at ZZZ2. With no emergency indications in the cockpit; and because we were able to descend so quickly; we elected not to declare an emergency. The safe completion of the flight was never in question. However; as we were exchanged from the center controller to the ZZZ2 approach controller; we were asked of souls on board and fuel remaining and were notified that emergency personnel and fire trucks had been dispatched to the runway. We were asked if we had a hydraulic problem and we confirmed that it was a loss of cabin pressure. I also informed them at that time that emergency services were not required and that cabin pressure was stable and descending at this low altitude. In any event; the trucks and personnel followed us in to the local FBO. After inspection of the aircraft by mechanics; it was determined to be a cracked duct line bringing compressed air to the cabin.
Original NASA ASRS Text
Title: A First Officer reports that he and the Captain flying a C-560XLS aircraft noticed that pressurization air had ceased to flow from the overhead vents while in cruise flight. No Annunciator lights illuminated; indicating a loss of pressurization source. A non-emergency abbreviated descent was accomplished. Maintenance found a large composite cold air duct that had split open approximately 16' inches long; that looked like it had been cut with a razor blade.
Narrative: On the afternoon of October 2013 at approximately XA:15 local time; our aircraft was cruising at 40;000 FT. The Captain and I had completed our Cruise Checklist and approximately 30 minutes later; along with our passengers; we noticed that air had ceased to flow from the overhead vents. As with many jets; this air serves not only to control the air temperature in the aircraft; but also to pressurize the aircraft vessel. The Captain and I immediately turned our attention to the Cabin Altitude indicator as well as the Automatic Pressure Controller (APC) to see if there were any abnormalities. We initially noticed a climb in Cabin Rate of Climb of between 200 and 300 FT per minute while the cabin altitude itself began a climb from its initial value of 6;000 FT. We scanned the face of the Automatic Pressure Controller for any error indications thinking we may have had a failure of the APC. It was indicating normally. Within a matter of 10 or 15 seconds; we determined that the best course of action would be to begin a descent while we continue to troubleshoot the unexplained climb in cabin altitude. At this time; we both pulled our emergency oxygen masks from storage and put them in our laps in case a faster loss of pressure occurred. I also pulled the Emergency Checklist and opened it to the emergency descent tab and laid it open and ready. It is important to note that we had no other indications or annunciators during the duration of the flight. I immediately asked for a lower altitude from ATC and we were given 38;000 FT. ATC asked the nature of our situation and I told them it was a sudden drop in pressurization. The Captain initiated an aggressive descent and I asked for lower altitudes repeatedly as the urgency of our descent increased. The cabin altitude continued to climb until the cabin Outflow valve fully closed and momentarily slowed the loss of cabin pressure. Because we were descending aggressively; the cabin altitude never exceeded its upper limits; no annunciators illuminated; and the cabin oxygen masks never fell from their overhead containers. It is important to note that during the descent; we heard loud hums; and abnormal squeals coming from the aft bulkhead area. This confirmed our suspicion that it was not a computer issue; but rather a failure of an Outflow valve or duct. In addition; during the descent; we decided to make a precautionary landing at ZZZ2. With no emergency indications in the cockpit; and because we were able to descend so quickly; we elected not to declare an emergency. The safe completion of the flight was never in question. However; as we were exchanged from the Center Controller to the ZZZ2 Approach Controller; we were asked of souls on board and fuel remaining and were notified that emergency personnel and fire trucks had been dispatched to the runway. We were asked if we had a hydraulic problem and we confirmed that it was a loss of cabin pressure. I also informed them at that time that Emergency services were not required and that cabin pressure was stable and descending at this low altitude. In any event; the trucks and personnel followed us in to the local FBO. After inspection of the aircraft by mechanics; it was determined to be a cracked duct line bringing compressed air to the cabin.
Data retrieved from NASA's ASRS site as of July 2013 and automatically converted to unabbreviated mixed upper/lowercase text. This report is for informational purposes with no guarantee of accuracy. See NASA's ASRS site for official report.