Iran Aseman Airlines Flight 3704

Coordinates: 30°49′25″N 51°36′56″E / 30.82361°N 51.61556°E / 30.82361; 51.61556
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Iran Aseman Airlines Flight 3704
EP-ATS, the aircraft involved, photographed in 2010
Accident
Date18 February 2018
SummaryStalled and crashed in adverse weather conditions
SiteDena Massif, Zagros Mountains, near Yasuj Airport, Yasuj, Iran
30°49′25″N 51°36′56″E / 30.82361°N 51.61556°E / 30.82361; 51.61556
Aircraft
Aircraft typeATR 72-212
OperatorIran Aseman Airlines
IATA flight No.EP3704
ICAO flight No.IRC3704
Call signASEMAN 3704
RegistrationEP-ATS
Flight originMehrabad International Airport, Tehran, Iran
DestinationYasuj Airport, Yasuj, Iran
Occupants66
Passengers60
Crew6
Fatalities66
Survivors0
800km
500miles
none
Crash site
Crash site
Yasuj Airport
Yasuj Airport
Mehrabad Airport
Mehrabad Airport
Map
Aseman Airlines Flight 3704's flight route[1]

Iran Aseman Airlines Flight 3704 was a scheduled Iranian domestic passenger flight from Iranian capital Tehran Mehrabad International Airport to Yasuj in southwest Iran. On 18 February 2018, during its approach to Yasuj, the aircraft serving the flight, an ATR 72-212 operated by Iran Aseman Airlines, crashed into Mount Dena in the Zagros Mountains near Noqol village in Semirom county, Isfahan Province. All 66 people on board, including 60 passengers and 6 crew members, were killed.

According to the interim report, which was published on 18 February 2019 by the Iranian Civil Aviation Organization (CAO), the accident was caused by multiple factors, with pilot error considered as the main cause. The investigation showed that the crew decided to continue to Yasuj despite deteriorating weather conditions in the area. During its approach, the crew elected to descend below the minimum altitude. The resulting bad weather caused the aircraft to stall. The crew failed to recover the aircraft from the stall and the aircraft crashed onto the mountain.[2]

The crash highlighted the danger of mountain wave and the aviation industry's lack of awareness of the issue. The Iranian CAO published several recommendations to ICAO and the European Aviation Safety Agency to address the hazard that a mountain wave may pose to the safety of a flight. Subsequently, the crash also led to changes of the weather training programs for airliners in Iran.[2]

Accident[edit]

The aircraft was operating a domestic scheduled passenger flight from Iranian capital Tehran Mehrabad International Airport to Yasuj Airport in Yasuj, the capital of Kohgiluyeh and Boyer-Ahmad Province in southwest Iran.[3] The flight was supposed to take about 50 minutes. It took off from Tehran with 60 passengers and 6 crew members on 18 February 2018 at about 04:35 UTC.[4][2]

At 05:49 UTC, as Flight 3704 approached Yasuj, the flight crew asked the meteorological information in Yasuj. Yasuj Tower later informed Flight 3704 about the weather condition and mentioned that the final approach path was clear. The flight later was cleared to descent to FL170 by Tehran and was handed over to Yasuj on 05:53 UTC.[2]

The crew stated that they would continue the approach with FL150. At 05:55, the crew reported that they were 25 miles from the destination airport. Yasuj Tower then told the pilot about the updated condition in Yasuj, stating that clouds were slowly moving to the south. Four minutes later, Yasuj asked the flight again and the crew responded that they failed to receive the signal of Distance Measuring Equipment (DME) from their navigational device. The crew then checked about the weather condition in the area again.[2]

At 06:04 UTC, Yasuj Tower lost communication contact with Flight 3704. Attempts had been made to re-establish communication with the aircraft but failed.[2]

According to flight tracking website Flightradar24, the last signal from the aircraft was received just before 05:56 UTC, descending from an altitude of 16,975 feet (5,174 m).[5]

Aircraft[edit]

The aircraft involved was an ATR 72-212 with MSN 391. It was registered EP-ATS and was delivered to Iran Aseman Airlines in 1993. No serious incidents were reported during the aircraft's service with the airline.[6][7]

At the time of the accident, Iran Aseman had six ATR aircraft in its fleet, three of which were in operation.[8]

Passengers and crew[edit]

It was initially reported that 59 passengers and six crew members were presumed to be on board.[8][9][10][6] It was later revealed that there were 60 passengers and six crew members aboard. The flight manifest was consisted of 65 adults and 1 child. There were 60 passengers, 2 security guards, 2 flight attendants and 2 flight crew members.[11]

The captain of the flight was identified as 62-year old Hojatollah Foladi. He had accumulated a total flying hours of more than 17,000 hours, of which 12,000 hours were on the type. The pilot also had experience of flying in India from 2002 to 2007, before returning to Iran Aseman Airlines. At least 2 flights to Yasuj had been performed 3 months prior to the accident. His flying certificate was deemed as valid.[2][12]

The pilot not flying was identified as 36-year old First Officer Khevah Khalili with a total flying hours of approximately 1,800 flying hours, including 197 hours on the type.[2]

Search[edit]

Helicopters were deployed to search for the missing aircraft

Locals reported that they had heard the aircraft hit the mountain.[13] Iranian authorities in neighboring Shiraz and Isfahan province had deployed two of their helicopters to the crash site. A total of 12 search and rescue teams had been dispatched to Mount Dena, but due to foggy conditions, rescue helicopters could not reach the crash site in the Zagros Mountains.[6][14][15][failed verification] Mount Dena, the location of the crash site, is actually a mountain range within the Zagros Mountains; it is 80 kilometres (50 mi; 40 nmi) long with several peaks, the highest of which is 4,409 metres (14,465 ft) above sea level.

Spokesman from Iran Aseman Airlines initially stated that all 66 passengers and crews on board had been killed in the accident. However, this statement was later retracted by the airline and the airline later issued a statement saying that it could not "accurately and definitely confirm" that everyone had died in the crash.[16]

In response to the crash, crisis centres were set up in Tehran, Isfahan, Fars and Yasuj.[8] Weather conditions at the crash site, including snow and strong winds, were hampering search and rescue services.[6] The Red Crescent Society announced that a drone would be flown to the area due to the severe weather condition which prevented helicopters to reach the crash site. Search and rescue team announced on 19 February that at least 5 helicopters had been prepared for the search operation.[17] Troops with search dogs were deployed to hike the mountain and to search the area on foot. Search and rescue operation via air was stopped for the second time due to bad weather conditions.[18] Reports that the wreckage had been found at an elevation of 11,482 feet were refuted by officials from the Iranian Red Crescent and Iranian investigators.[19][20]

On 20 February, two helicopters from Islamic Revolutionary Guard Corps Air Force sighted the wreckage of the aircraft,[21][1] 30 metres (100 ft) below the peak of the mountains south of Noqol at an elevation of approximately 4,000 metres (13,000 ft).[1] Another military helicopter sighted the wreckage and pinpointed the crash site. The aircraft was obliterated, with large portion of the tail cone, the vertical stabilizer, the rudder and the empennage were found. Scattered bodies could be seen around the wreckage. No survivors were seen at the crash site. All 60 passengers and 6 crew members on board died.[2]

As helicopters were unable to land on the crash site, the recovery of the victims had to be done on foot. Officials stated that the bodies had to be carried on the rescuers' backs to the mountain foot.[22][23] The head of the country's emergency services said that the recovery of the victims would be challenging due to the adverse weather. As of 21 February, at least 32 bodies had been recovered from the crash site.[24][25]

On 3 March, Iranian officials announced they had found the flight recorders.[26]

Investigation[edit]

President of Iran Hassan Rouhani ordered Iranian Minister of Roads and Urban Development Abbas Ahmad Akhoundi to lead the investigation.[27] Iran's Civil Aviation Organization (CAO) investigated the cause of the crash. The French Bureau of Enquiry and Analysis for Civil Aviation Safety (BEA) also sent 7 delegations to investigate the crash. The aircraft's manufacturer, ATR, sent 4 people to Iran to assist with the investigation.[28]

Initial assessment didn't find any abnormalities on the aircraft's structure. Flight control failure and power system malfunctions were also not reported by the crew. The assessment did, however, reveal that the flight had entered cloud with icing condition prior to its landing. The flight crew tried to fly in an unallowable altitude to get out from the cloud and reached an unsafe altitude. As the aircraft was flying at the altitude, it encountered a series of updraft and downdraft, its airspeed decayed and it then entered a dangerous stall condition.[2]

Weather[edit]

Data on the weather condition in the area were collected from the Iranian Meteorological Agency and from the airport dispatcher. Data were also provided from interviews of numerous individuals including pilots who had flown from and to Yasuj. Additionally, the Iranian counterpart was also assisted by the French METEO-SAT.[2]

METAR report retrieved by Iranian investigators showed that, during the dispatch of Flight 3704, the weather didn't meet the minimum criteria for a flight to Yasuj. Yasuj Airport is listed in the airline's operation manual as an airport with a minimum ceiling for an approach and landing at 11,000 ft. The ceiling at the time was broken (clouds cover at least 5/8 – 7/8 of the sky) with clouds reported at 9,000 ft. The report further stated that the condition in Yasuj would later deteriorate as cumulonimbus clouds were observed in the area, with thunderstorm, rain and hail would also occur. As the weather condition didn't meet the criteria, the crews of Flight 3704 should have diverted the aircraft to Isfahan in the north or Shiraz in the south.[2]

As the flight path included mountainous terrain in the route, Flight 3704 would counter a mountain wave phenomena in the area. A mountain wave is a form of a Lee wave that is resulted by a disturbance on the horizontal air flow. Mountain wave may poses threat to the safety of a flight as it can lead to severe turbulence, icing, strong windshear, and updraft and downdraft motion to the aircraft. The high elevation of the mountain at the flight path indicated that the mountain wave was a hazard for the safety of the flight. To counter the phenomenon safely, the flight crews should’ve flown the aircraft at a minimum airspeed while monitoring the airspeed closely to prevent a stall condition.[2]

An illustration of a mountain wave
A lenticularis cloud (right) which was formed by a mountain wave, seen here over the Alps

Analysis on Flight 3704's FDR confirmed that the aircraft indeed had encountered mountain wave. The data revealed that the flight encountered an updraft and a downdraft motion created by the phenomenon.[2]

Further analysis by Iran Meteorological Report stated that an unstable layer, turbulence and freezing level at an altitude of 11,000 ft were predicted. French Meteorological Agency stated that the weather condition in the area of the accident at the time was favorable for severe icing condition. However, even though severe icing condition was present at the time, the Aircraft Performance Monitoring (APM) simulation of the flight conducted by investigators suggested that the aircraft's decrease of performance was more likely caused by external gradient such as wind. The mountain wave in the area caused a vertical wind with speed as high as 3,000 ft/min. The simulation revealed that as the aircraft flew over the mountain, a downdraft struck the aircraft and the nose pitch increased to maintain the flight altitude.[2]

As it entered a stall condition, the crew then made a nose down pitch to counter it. The EGPWS was later activated until the end of the flight.[2]

Crew performance[edit]

The assessment of both pilots' behavior prior to their flights didn't indicate any abnormalities. Investigators, however, did find that the crews had never been trained on how to execute an appropriate response when a mountain wave struck the aircraft. The crew was not familiar with mountain wave and the manual also didn't provide information regarding the phenomenon. The ATR simulation also did not provide the crews with simulation on handling a mountain wave.[2]

Prior to its approach to Mount Dena, the First Officer of Flight 3704 had made several recommendations to the Captain on several instances. The Captain didn't respond at any of the given recommendations and decided to ignore it. The lack of communication between the Captain and the First Officer indicated a steep authority gradient phenomenon in aviation, which may be caused due to difference in flying experience.[2]

It was evident that the crew of Flight 3704 had deviated from its operating manual. During Flight 3704's approach to Mount Dena, the ATC had given clearance for the flight to fly at FL170. ATC later informed the crew that the ceiling was at 15,000 ft. The CVR recording revealed that the crew decided to descent further to an elevation of 15,000 ft so that the aircraft would get out of clouds. The minimum altitude for the airport however was 15,500 ft, so the crew was going to fly under the approved minimum altitude.[2]

During its descent, the aircraft encountered an updraft and later a downdraft. The downdraft was strong enough to cause the nose pitch to rise. As the pitch was increased by the force of the downdraft, the airspeed decreased and the drag force increased accordingly, risking a stall condition to occur. As the power lever was increased to counter the low speed of the aircraft, the pitch kept increasing and the airspeed kept decreasing, at one point reaching 118 knots. The nose pitch reached +15 degree. While the crew tried to counter the stall condition by bringing the nose down, the crew didn't execute the recovery properly. The engine was not in full power and the flaps were not set to 15 degree. It was presumed that the crew didn't expect to encounter a mountain wave phenomenon in the area and thus this might have decreased their situational awareness. As the pilots tried to save the aircraft by bringing the nose down, there was no more altitude left for a safe recovery.[2]

Conclusion[edit]

The Iranian Civil Aviation Organization published the interim report, with the following:[2][failed verification]

The accident was happened due to many chains of considered causes but the human factor had main roll for the conclusion of the scenario. The cockpit crew action which has caused dangerous conditions for the flight is considered as main cause. Based on provided evidences, the errors of cockpit crew were as follows:[failed verification]

  • Continuing to the Yasuj airport for landing against Operation manual of the Company, due to low altitude ceiling of the cloud and related cloud mass. They should divert to alternate airport.
  • Descending to unauthorized altitude below minimum of the route and MSA
  • Lack of enough CRM during flight
  • Failure to complete the stall recovery
  • Inappropriate use of autopilot after stall condition
  • Inadequate anticipation for bad weather based on Operating Manual
  • Quick action to switch off anti-ice system and Angle of Attack
  • Failure to follow the Check lists and standard call out by both pilots

The investigation also noted that, while mountain wave phenomenon rarely cause an aircraft to crash, the phenomenon is rarely, if not ever, addressed to pilots. Many pilots are unaware of the phenomenon and flight manuals did not educate pilots enough on the matter.[2]

The Iranian CAO issued 28 recommendations in response to the crash. Among the recommendations were:

  • ICAO should include the hazard of mountain wave in every flight manual and also should make sure that the retrieval of essential aircraft parts are not affected by an economic embargo
  • EASA should revise the stall recovery procedure of an ATR 72-212
  • Iran CAO should develop an Aviation Search and Rescue program to ensure a better coordination with the search and rescue operation
  • Every airliners in Iran should include a training program which address the hazards of mountain wave.


On May 24th 2021 the final report was noticed on Iran's CAO Website, which in essence is identical to the previous interim report of Feb 18th 2019 except for an addition by BEA comments and slightly reworded findings[29]

Aftermath and reactions[edit]

Iranian Minister of Roads and Urban Development Abbas Akhoundi observed the search and rescue operation

On 23 February 2018, the Iran Civil Aviation Organization temporarily suspended the operation of Iran Aseman Airlines' ATR 72 aircraft.[30]

The search and rescue operation was viewed as too long by some family members, some were angered due to the incompetent handling of the disaster. On 19 February, more than 100 people reportedly protested outside a government building in Dena Kooh, demanding Iranian officials to step down due to the response on the disaster.[31]

Journalists have speculated that the economic sanctions against Iran which have prevented Iranian airlines from obtaining new planes and spare parts and forced them to operate aging aircraft may have contributed to the cause of the crash.[32] Iranian judicial authorities and the special committee of the Islamic Consultative Assembly believed that the flight should not have been allowed in the first place, and blamed the Iran Aseman Airlines for the accident.[33] Iranian Parliament investigation report on the incident, released on 18/5/2020, blamed Iranian Civil Aviation Organization and Aseman Airlines on the incident. The parliament report also accuses the manufacturer of the aircraft for not providing spare parts for the maintenance of the aircraft.[34]

References[edit]

  1. ^ a b c Hradecky, Simon (22 February 2018). "Crash: Iran Aseman AT72 near Semirom on Feb 18th 2018, impacted terrain". The Aviation Herald. Retrieved 23 February 2018.
  2. ^ a b c d e f g h i j k l m n o p q r s t u v "Final Report: Accident Investigation Report Aircraft ATR72-212 registered EP-ATS Operated by Iran Aseman Airline Enroute Tehran to Yasouj 18 Feb, 2018" (PDF). Civil Aviation Organization. 15 June 2020. A961129EPATS.
  3. ^ Steinmetz, Juergen T (18 February 2018). "Iran Aseman Flight 3704 crashed in Semirom, Isfahan Province Iran – eTurboNews (eTN)". eTurboNews (eTN). Retrieved 24 February 2018.
  4. ^ Karimi, Nasser; Gambrell, John (18 February 2018). "Commercial plane crashes in mountainous region of southern Iran, killing 66 people". National Post. Associated Press. Retrieved 17 November 2019.
  5. ^ "Crash of Iran Aseman Airlines Flight 3704 – Flightradar24 Blog". blog.flightradar24.com. 18 February 2018. Retrieved 18 February 2018.
  6. ^ a b c d Ranter, Harro. "Aircraft accident ATR 72–212 EP-ATS Yasuj Airport (YES)". aviation-safety.net. Flight Safety Foundation which owns the Aviation Safety Network. Retrieved 18 February 2018.
  7. ^ "EP-ATS Iran Aseman Airlines ATR 72". planespotters.net. Retrieved 18 February 2018.
  8. ^ a b c Dehghan, Saeed Kamali (18 February 2018). "Iran plane crash in south of country 'kills all 65 onboard'". The Guardian. Retrieved 18 February 2018.
  9. ^ "Iran passenger plane crashes near Samirom with 66 on board". Mehr News Agency. 18 February 2018. Retrieved 18 February 2018.
  10. ^ "Passenger plane crashes in Iran mountains". BBC News. 18 February 2018. Retrieved 18 February 2018.
  11. ^ "Preliminary Accident Investigation Report" (PDF) (in Persian). Iran Civil Aviation Organization. 20 March 2018. Archived from the original (PDF) on 18 April 2018. Retrieved 17 April 2018.
  12. ^ "Passenger plane crashes in the mountains of southern Iran, killing all 65 aboard". Los Angeles Times. 18 February 2018. Retrieved 29 November 2019.
  13. ^ "Plane crashes in southern Iran, killing all 66 people on board". abc.net.au/news. Australian Broadcasting Corporation. 18 February 2018. Retrieved 18 February 2018.
  14. ^ Karimi, Nasser (18 February 2018). "Commercial plane crashes in southern Iran, killing 66 people". The Washington Post. Retrieved 18 February 2018.[dead link]
  15. ^ Selk, Avi (18 February 2018). "Iran says fog caused a plane crash that may have killed 65. That might not be the whole story". Washington Post.
  16. ^ "66 Feared Dead After Iran Plane Crash". The New York Times. 18 February 2018. ISSN 0362-4331. Retrieved 17 November 2019.
  17. ^ "Iran plane crash: Agonising wait continues for relatives". BBC. 19 February 2018. Retrieved 29 November 2019.
  18. ^ "Iran plane crash: Search continues for missing Aseman Airlines plane". BBC. 19 February 2018. Retrieved 29 November 2019.
  19. ^ "Crews reportedly reach wreckage of Iran plane crash". CBS News. 19 February 2018. Retrieved 29 November 2019.
  20. ^ "Rescue Teams Search Wrecked Iranian Plane". Voice of America. 19 February 2018. Retrieved 29 November 2019.
  21. ^ "سخنگوی سپاه: بالگردهای سپاه لاشه هواپیمای تهران ــ یاسوج را پیدا کردند" [Corps spokesman: Corps helicopters found Tehran-Yasuj carcass]. Tasnim (in Persian). Retrieved 20 February 2018.
  22. ^ "Iran plane crash: Rescuers carry dead bodies on their backs to Zagros mountain foot". New Straits Times. 21 February 2018. Retrieved 29 November 2019.
  23. ^ "Iran struggles to recover bodies from plane crash on top of mountain". Daily Sabah. 20 February 2018. Retrieved 29 November 2019.
  24. ^ "Iran plane crash wreckage found on mountainside". BBC. 20 February 2018. Retrieved 29 November 2019.
  25. ^ "Bodies recovered from Iran plane crash site". Reuters. 21 February 2018. Retrieved 29 November 2019.
  26. ^ "Black box from Tehran-Yasuj crashed plane retrieved". Mehr News Agency. 3 March 2018. Retrieved 4 March 2018.
  27. ^ "All 65 passengers, crew feared dead in Iranian plane crash". Reuters. 28 February 2018. Retrieved 29 November 2019.
  28. ^ Vahdat, Amir (19 February 2018). "Iranian rescuers find wreckage from plane crash". Associated Press. Retrieved 29 November 2019.
  29. ^ "Crash: Iran Aseman AT72 near Semirom on Feb 18th 2018, impacted terrain". avherald. 15 June 2020. Retrieved 24 May 2021.
  30. ^ "Iran aviation org. temporarily stops operating ATR 72 planes". 23 February 2018. Retrieved 24 February 2018.
  31. ^ "Iran plane crash wreckage found". Deutsche Welle. Retrieved 29 November 2019.
  32. ^ Calder, Simon (18 February 2018). "Iran Aseman Airlines crash: Years of sanctions have left passengers with one of oldest air fleets in the world". The Independent. Retrieved 26 February 2018.
  33. ^ "علت سقوط پرواز تهران- یاسوج زنجیره‌ای از حوادث است/ فرانسه با سازمان هواپیمایی کشوری هم‌نظر است" [Cause of Tehran-Yasuj flight crash causes chain of incidents/France agrees with State Airlines]. yjc.ir (in Persian). Retrieved 11 June 2019.
  34. ^ "سقوط هواپیمای تهران-یاسوج؛ مجلس سازمان هواپیمایی کشوری و شرکت آسمان را مقصر دانست" [Tehran-Yasuj plane crash; The parliament blamed the Civil Aviation Authority and Aseman Company]. BBC News Persian (in Persian). 18 May 2020.

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