Domain: bloodhoundssc.com
Stories and comments across the archive that link to bloodhoundssc.com.
Stories · 5
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Cockpit Revealed For Bloodhound Supersonic Car
Zothecula writes: Unveiled at a special event in Bristol, U.K., the Bloodhound land speed team showed off the cockpit that will be driver Andy Green's "office" for his record attempt run in 2015 and 2016. Although Green holds the current world land speed record of 763 mph (1,227 km/h), the challenges in attempting to break the 1,000 mph (1,600 km/h) barrier will be significant for both pilot and the design team. -
Record-Seeking Bloodhound SSC Goes Partially Open Source
jd writes "I've been monitoring the progress of Bloodhound SSC (the car aiming for the 1,000 MPH record) and it looks like they're opting for some interesting tactics. In April, the car itself went partially open source, with a complete set of schematics and specifications and an invite for engineering bugfixes. According to them, it's the first time a racing team has done this. Sounds likely enough. The latest patches to be released were a tripling in fin size and a switch to steel brakes because carbon fibre would explode." -
Record-Seeking Bloodhound SSC Goes Partially Open Source
jd writes "I've been monitoring the progress of Bloodhound SSC (the car aiming for the 1,000 MPH record) and it looks like they're opting for some interesting tactics. In April, the car itself went partially open source, with a complete set of schematics and specifications and an invite for engineering bugfixes. According to them, it's the first time a racing team has done this. Sounds likely enough. The latest patches to be released were a tripling in fin size and a switch to steel brakes because carbon fibre would explode." -
The Bloodhound Will Stay On the Ground At 1,000 mph
Hugh Pickens writes "BBC reports that engineers designing the world's fastest car, the Bloodhound SSC, built to smash the world land speed record of 763 mph set by the Thrust SuperSonic Car in 1997, believe they have a solution to keep the vehicle flat on the ground at 1,000 mph after initial iterations of the car's aerodynamic shape produced dangerous amounts of lift at the vehicle's rear. John Piper, Bloodhound's technical director, said: 'We've had lift as high as 12 tonnes, and when you consider the car is six-and-a-half tonnes at its heaviest — that amount of lift is enough to make the car fly.' The design effort has been aided by project sponsor Intel, who brought immense computing power to bear on the lift problem. Before Intel's intervention, the design team had worked through 11 different 'architectures' in 18 months. The latest modelling work run on Intel's network investigated 55 configurations in eight weeks. By playing with the position and shape of key elements of the car's rear end, the design team found the best way to manage the shockwave passing around and under the vehicle as it goes supersonic. 'At Mach 1.3, we've close to zero lift, which is where we wanted to be,' says Piper. In late 2011, the Bloodhound, powered by a rocket bolted to a Eurofighter-Typhoon jet engine, will mount an assault on the land speed record, driving across a dried up lakebed known as Hakskeen Pan, in the Northern Cape of South Africa." -
The Bloodhound Will Stay On the Ground At 1,000 mph
Hugh Pickens writes "BBC reports that engineers designing the world's fastest car, the Bloodhound SSC, built to smash the world land speed record of 763 mph set by the Thrust SuperSonic Car in 1997, believe they have a solution to keep the vehicle flat on the ground at 1,000 mph after initial iterations of the car's aerodynamic shape produced dangerous amounts of lift at the vehicle's rear. John Piper, Bloodhound's technical director, said: 'We've had lift as high as 12 tonnes, and when you consider the car is six-and-a-half tonnes at its heaviest — that amount of lift is enough to make the car fly.' The design effort has been aided by project sponsor Intel, who brought immense computing power to bear on the lift problem. Before Intel's intervention, the design team had worked through 11 different 'architectures' in 18 months. The latest modelling work run on Intel's network investigated 55 configurations in eight weeks. By playing with the position and shape of key elements of the car's rear end, the design team found the best way to manage the shockwave passing around and under the vehicle as it goes supersonic. 'At Mach 1.3, we've close to zero lift, which is where we wanted to be,' says Piper. In late 2011, the Bloodhound, powered by a rocket bolted to a Eurofighter-Typhoon jet engine, will mount an assault on the land speed record, driving across a dried up lakebed known as Hakskeen Pan, in the Northern Cape of South Africa."