The Flying Dinosaur

The Flying Dinosaur is a steel flying roller coaster at Universal Studios Japan. Designed by Swiss firm Bolliger & Mabillard, Flying Dinosaur restrains riders in the prone position. This attraction opened on March 18, 2016, and is currently the world's second longest flying roller coaster, as the track length has been surpassed by F.L.Y. in Phantasialand, which opened in September 17, 2020.

The Flying Dinosaur
Two massive inversions that soar high above the park.
Universal Studios Japan
LocationUniversal Studios Japan
Park sectionJurassic Park
Coordinates34.6634°N 135.4305°E / 34.6634; 135.4305
StatusOperating
Opening dateMarch 18, 2016 (March 18, 2016)
General statistics
TypeSteel Flying
ManufacturerBolliger & Mabillard
ModelFlying Coaster - Custom
Lift/launch systemChain lift hill
Height151 ft (46 m)
Drop124 ft (38 m)
Length3,687.7 ft (1,124.0 m)
Speed62 mph (100 km/h)
Inversions5
Height restriction52–78 in (132–198 cm)
Trains4 trains with 8 cars. Riders are arranged 4 across in a single row for a total of 32 riders per train.
SponcorJCB
The Flying Dinosaur at RCDB

History

In June 2015, Universal Studios Japan confirmed that they would be adding a new Jurassic Park-themed attraction. Later in July, vertical construction began, when the park finished building the first supports and track. Later in August, the park released teasers around the park saying "The Greatest DINOSAUR RIDE IN THE WORLD! Coming in 2016...". Construction was going on for a while. Finally on October 2, 2015, the park officially announced that they were adding Flying Dinosaur.[1]

Ride experience

The coaster starts in a dual station and leads into the lift hill. After it reaches the top, it drops 124 feet towards the ground and enters a zero-g roll, the first inversion, and then enters into a fly to lie element which makes riders face the sky. It then goes into a half pretzel loop and makes riders turn into a flying position again. Quickly, it turns into another pretzel loop, then enters a small tunnel at the bottom of the loop. It enters a small air-time element, then enters into the corkscrew. After the inversion, the train will enter a helix and comes to the final inversion, an inline twist which is just before the final brake run.

References

This article is issued from Wikipedia. The text is licensed under Creative Commons - Attribution - Sharealike. Additional terms may apply for the media files.