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After a one-year hiatus in Ridgeline production, the second-generation went on sale in June 2016 as a 2017 model year vehicle. [13] The second-generation Ridgeline took a different approach in design from the first generation Ridgeline by sharing Honda's new "global light truck platform," [14] used for the third-generation Honda Pilot as well as other large Honda vehicles.
The Honda Ridgeline (YK2/YK3) is the second generation of pickup truck manufactured by Honda under the Ridgeline nameplate. The second generation Ridgeline took a different approach in design from the first generation Ridgeline by using Honda's new "global light truck platform," [3] found in the third generation Honda Pilot as well as other large Honda vehicles, [4] [5] [6] and made ...
The J-series engine was designed in the United States by Honda engineers. It is built at Honda's Anna, Ohio, and Lincoln, Alabama, engine plants. The J-series is a 60° V6 unlike Honda's existing 90° C-series engines. Also unlike the C series, the J-series was specifically and only designed for transverse mounting.
Superchargers are sometimes installed as original equipment on some vehicles manufactured today. Centrifugal supercharging creates an efficient, compact and intercooler friendly means to boost horsepower in both gasoline and diesel engines for a wide variety of watercraft, land craft and aircraft.
Mugen-built engines were also used for the RC101B/RC-F1 2.0X, a car built by the Honda R&D Center without direct support from Honda headquarters (previous cars built by the R&D Center used older Honda engines when they supplied engines for McLaren) and for the Honda RA099, an official Honda test car to prepare for Honda's factory engine supply ...
Honda is paying homage to its 1980s days of racing with a new prototype: a motorcycle with a 3-cylinder, 4-stroke, electrically supercharged engine.
An Eaton M62 Roots-type supercharger is visible at the front of this Ecotec LSJ engine in a 2006 Saturn Ion Red Line.. The Roots-type blower is simple and widely used. It can be more effective than alternative superchargers at developing positive intake manifold pressure (i.e., above atmospheric pressure) at low engine speeds, making it a popular choice for passenger automobile applications.
Positive displacement superchargers deliver an almost constant level of boost pressure increase at all engine speeds, while dynamic superchargers cause the boost pressure to rise exponentially with engine speed (above a certain threshold). [4] Another family of supercharger, albeit rarely used, is the pressure wave supercharger.