8 Gallon/30.5l Red Coat Aluminum Racing Gas Fuel Cell Tank/2"sump+level Sender on 2040-parts.com
Rowland Heights, California, United States
Fuel Cells for Sale
8 gallon lightweight red coat aluminum gas fuel cell tank/2"sump+level sender(US $133.99)
8 gallon/30.5l black coat aluminum racing gas fuel cell tank/2"sump+level sender(US $138.99)
2.5 gallon/9.5l blue coat aluminum race gas fuel cell tank/2"sump+level sender(US $103.99)
8 gallon/30.5l blue coat aluminum racing gas fuel cell tank/2"sump+level sender(US $138.99)
8 gallon lightweight blue coat aluminum gas fuel cell tank/2"sump+level sender(US $133.99)
Rci circle track fuel cell 12-gallon red/steel can foam cap -8an pickup #1122c
Aston Martin Coupé Zagato Centennial and Spyder Zagato Centennial
Mon, 22 Jul 2013American car collector Peter Read has commissioned a pair of Zagato-bodied Aston Martins that coincide with the British marque's centenary. The DBS Coupé Zagato Centennial and DB9 Spyder Zagato Centennial are the hard- and soft-top siblings are the latest in a long line of collaborations between the two companies. But while many have been – an admittedly more exuberant – expression of contemporary Aston design language, the Centennials have a stronger individual identity with an almost sedan-like aesthetic with forward-leaning noses and long Kamm tails.
CAR tech: Britain's £1bn auto-industry revolution
Mon, 21 Oct 2013By Damion Smy Motor Industry 21 October 2013 09:30 BMW, Jaguar-Land Rover and Nissan are just a handul of the car companies to have seen the potential in British design and engineering. Read on to find out just how they're actually helping Britian fight Germany as the car world's most pivotal auto-industry R&D hub. More than £1billion will be invested in the UK over the next decade to build a hub of design, engineering and manufacturing nous in the automotive equivalent of California’s Silicon Valley.
PACE's global Portable Assisted Mobility Device project gets underway
Thu, 11 Apr 2013The Partners for the Advancement of Collaborative Engineering Education (PACE) has challenged selected global college teams to design a Portable Assisted Mobility Device (PAMD) that will help solve mobility and sustainability problems within megacities in 2030. Each team of selected global colleges will consist of one Industrial Design Institution and several Engineering and Manufacturing Institutions, with students working alongside their professors and industry mentors to help develop their designs for a small power-assisted vehicle that can be taken on public transport, stowed or carried indoors. The PAMD concepts are designed to carry one passenger and their personal items such as a briefcase or backpack. The PAMD must address the transportation issues as the population grows within a target market that the teams specify.