You Won't Believe the Size of the QE2's Engines: Cunard's Fastest Queen.
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Creator's Key Takeaways
QE2 had two power plants during her 40-year career.
The new diesel power plant made KE2 even more powerful than before.
Each of these 9-cylinder engines was about the size of a London double-decker bus.
QE2's propeller shafts were 70 m long, and each connected to five bladed variable pitch propellers.
Questions This Creator Answers
Topics Covered
Scale: 0β5 strips in half-step increments. 0 = βmehβ, 5 = βbacon blissβ. Aggregated from creator-review sentiment, weighted by channel expertise.
About our Bacon Score methodologyYouTube Video Descriptionβ
Imagine a ship over 293 meters long, tearing through the ocean at 60 km/h! That was the legendary QE2. But how? What monstrous engines powered this 70,000-ton giant? We're taking you INSIDE the QE2's engine room to reveal the secrets behind its incredible speed. Prepare to be astounded by the sheer scale and power that made the QE2 one of the fastest passenger ships ever built. Click to witness the heart of a legend! β‘ Merch: https://chrisframeofficial.teemill.com/ β‘ QE2 Facts: https://www.chriscunard.com/qe2/ β‘ Podcast: https://www.thebigcruisepodcast.com/ Fact References: β‘ The QE2 Story ISBN: 9780752450940 (2009 / Chris Frame & Rachelle Cross) β‘ QE2 Technical Infirmatioin Sheet (2008 / Cunard) β‘ Rob Lightbody's Website: https://www.roblightbody.com/qe2-1987-rebirth.html β‘ Sam Warwick's QE2: http://www.qe2.org.uk/ Image References: All images used are βΈ Chris Frame and Rachelle Cross unless otherwise noted. Opening image of QE2 is βΈ Alex Lucas. Other image references: β‘ QE2 in Bremerhaven Refit: https://bit.ly/3uqIjy7 CC BY SA 3.0 "Dashers" / Paul Dashwood β‘ QE2 no Funnel: https://bit.ly/3Uz2RPN CC BY SA 3.0 "Dashers" / Paul Dashwood β‘ Steam Turbines: https://bit.ly/3uyVOvH CC BY SA 3.0 "Dashers" / Paul Dashwood β‘ QE2 Propeller: Pamela "Go Cats" McIntosh: https://bit.ly/3F8jI67 β‘ Southampton Aerial: https://bit.ly/3iAtSVH "Meznaric" CC BY SA 4.0 Chapters: 00:00 One of the fastest ships ever built 00:44 Steam turbine vs. diesels 01:18 Why Cruise Ships have smaller engines 01:37 Re-engineering an ocean liner 02:14 Engine room layout 02:22 How the engines drive the ship 03:15 World's Largest Propulsion Motors 03:54 How did QE2 slow down? 04:51 Advanced energy re-capture boilers 05:28 Last time the engines were used β Learn More: π’ My Cunard History Website: https://www.chriscunard.com/ π Buy my books: https://www.chrisframe.com.au/books π Buy cruise merch: https://chrisframeofficial.Teemill.com/ πΆ Listen to The Big Cruise Podcast: https://www.thebigcruisepodcast.com/ β Tags: #QE2 #Cunard #cruisenews #cruiseship #oceanliner #maritimehistory #deiselengines #engineroom #ship #cruise #engineroomtour About this video: QE2 had two powerplants during her 40-year career. The ship was built in the 1960s with a steam turbine plant. This was replaced in a massive refit during the 1980s with a diesel powerplant. QE2 was always a fast ship. But the steam turbines that she started her service career with, were unreliable. There just wasnβt enough redundancy. A new diesel powerplant made QE2 even more powerful than before. In fact, she achieved a maximum speed of 34 knots during her 1987 sea trials, which makes her the fastest modern merchant ship! QE2βs engine rooms had been designed for big, round, steam turbine engines. The new powerplant contained nine, medium speed MAN B&W diesel electric engines. Each one of these nine-cylinder engines was about the size of a London Double Decker bus. The new layout had four engines in the forward room and five in the aft. This allowed for an amazing view from above. In older ships, reciprocating or turbine engines directly drove the propellers. QE2βs diesels didnβt. Instead, they created electricity. Each engine could produce 10.5MW of power. Times that by 9 engines and you get 94.5MW β enough to power Southampton, well in 1987 at least. Around 9MW went to supply hotel services. This powered all the lights, lifts, kitchens, cabins and so on. When QE2 was docked, just one of the nine engines could supply the 9MW of hotel service power, though in reality theyβd keep more than one fired up for redundancy. Most of QE2βs power was used to drive the ship, using two giant propulsion motors. Built by GEC England, each propulsion motor was about the size of two double decker busses, and weighed 400 tons! They were rated at 44MW, making them the most powerful marine motors ever built at the time. There were two motors β one for each propeller shaft. QE2βs propeller shafts were 70m long, and each connected to five bladed variable pitch propellers. The propeller shafts ran at 72rpm when entering and exiting ports, and 144rpm the rest of the time, regardless of the speed required. The variable pitch propeller blades meant that speed was controlled by the angle set on the blades. This meant QE2 could quickly increase and decrease speed. The most interesting part was when they needed to go in reverse. This was achieved not by running the propeller shaft backwards, but by adjusting the propeller pitch, and gave QE2 a stopping distance of 3 minutes, 38 seconds when cruising at over 30 knots! QE2 also had two bow thrusters, used to help manoeuvre the ship in port. They had their own drive motors, and electricity for these was also provided by the diesels. β Other: #cunard #qe2 #cruisenews #cruiseline #cruiseship #QM2 #queenmary2