Kiera Shaw BMW, 2017-11-04 19:54:23. Emission-free fun at the wheel: a more intense experience than ever, now with two power options. Located low in the vehicle floor, the lithium-ion high-voltage battery provides a range of 290 to 300 kilometres (180-186 miles) based on the NEDC cycle, 235 to 255 kilometres (146 to 158 miles) as per WLTP and up to 200 kilometres (124 miles) in everyday use. The combined electric power consumption of the new BMW i3 on the NEDC cycle varies between 13.6 and 13.1 kWh for every 100 kilometres. Bringing outstanding driving dynamics to the electric vehicle segment, with instantaneous torque, superb traction and precisely controllable drifts.
Paige Dodd Honda, 2017-10-18 23:59:20. The Odyssey new engine - from the Honda EarthDreams® Technology powertrain series - is rated at 280 peak horsepower and 262 lb.-ft. peak torque. Peak engine output is up 32 horsepower and 12 pound-feet of torque from the previous model, with increased torque over the engine entire operating (rpm) range. The new, more efficient engine and transmissions, along with as much as a 75-pound reduction in vehicle weight (EX-L trim) and improved aerodynamics, among other reductions to running resistance, result in enhanced performance and fuel efficiency. With its 60-degree V-angle, the Odyssey V6 engine is inherently smooth and has compact overall dimensions that allow efficient packaging within the vehicle. The engine has a high-pressure die-cast lightweight aluminum alloy block with cast-in-place iron cylinder liners. Made with a centrifugal spin-casting process, the thin-wall liners are high in strength and low in porosity. The block incorporates a deep-skirt design with four bolts per bearing cap for rigid crankshaft support and minimized noise and vibration. The engine also uses a high-tensile strength steel crankshaft is for minimum weight.
Libby Wade Toyota, 2017-10-18 07:14:21. Like the new Toyota Camry’s conventional gasoline powertrain, the new Toyota Hybrid System (THS II) has been engineered to provide spirited performance and driving enjoyment-including new Sequential Shiftmatic technology that allows the driver to "shift" the continuously-variable transmission (CVT), mimicking a quick-shifting six-speed automatic transmission via paddle shifters (on SE grade) or with the console-mounted shift lever-while simultaneously achieving an optimal balance between high power output and exemplary energy efficiency. The 2018 Camry Hybrid is available in three grades, LE, SE, and XLE. In addition to its enhanced handling and driving performance, the hybrid version of the new Camry achieves outstanding fuel efficiency with a best-in-class EPA-estimated mpg of 51 city/ 53 highway/52 combined on the LE grade, an impressive 30 percent increase for combined mpg, and 44 city/47 highway/46 combined on the SE and XLE, reflecting an increase of 21 percent for combined mpg.
Kiera Shaw Honda, 2017-10-18 23:58:17. The 2018 Odyssey receives the most thorough and intensive array of aerodynamic refinements of any Odyssey generation to date. This comprehensive approach boosts aerodynamic efficiency and reduces wind noise. Examples of the aero efforts found on the 2018 Odyssey include extensive under covers, the Active Shutter Grille system, hidden windshield wipers, wind-sculptured side mirrors (power folding on Elite), and many small but pertinent details such as under-body strakes, shark fin-type antenna, and a rear spoiler (black on LX, EX, EX-L and Touring trims, body-color on Elite).
Shannon Griffin Honda, 2017-10-18 23:59:37. New on the 2018 Honda Odyssey are center door rails hidden under the rear side glass that replace the visible rails located on the body sides behind the rear doors on the second- through 4th-generation Odyssey. The result is a clean, seamless appearance for the rear body side and no visible side door rails or components. A safety latch prevents the left-hand sliding door from opening when the fuel lid is open. Like the front doors and tailgate, the side doors feature full 360-degree seals to reduce wind and road noise, water and debris from entering the vehicle.
Paige Dodd Toyota, 2017-10-18 07:14:45. Through TNGA, the Camry now has an ideal driving position for the driver-allowing for better concentration on the road ahead while helping to reduce driver fatigue-along with improving the overall seating position for all the vehicle‘s occupants. Thanks to these changes, plus the reconfigured lower beltline height and the more integrated design of the instrument panel, the driver and front passenger will experience more expansive outward visibility. Lateral visibility for the driver is enhanced, thanks to a repositioning of the A-pillars and side view mirrors; this design reconfiguration further aids the sense of openness for both the driver and the front passenger. Providing high power output with smooth and highly refined operation, the Camry‘s new 2.5-liter four-cylinder Dynamic Force Engine has outstanding combustion efficiency. This new powerplant incorporates an array of Toyota‘s most advanced technologies including Dual VVT-i with VVT-iE (Variable Valve Timing intelligent system by Electric motor), D-4S (Direct injection 4-stroke gasoline engine Superior version) direct injection and laser-clad valve seats for optimal power production, emissions performance and fuel efficiency. With its long-stroke and high compression ratio, multi-hole direct fuel injectors, variable cooling system and VVT-iE, this high-output powerplant takes the gasoline-powered internal combustion engine to an increased level of thermal efficiency.
Caitlin Duncan Toyota, 2017-10-18 07:14:04. The fortified body includes additional gussets for the front/rear door frame (B-pillar) that have greatly increased the frame/joint strength. Also, the front suspension tower brace embedded within the cowl body now makes use of a closed cross-section construction, further advancing the vehicle’s dynamic handling prowess and stability in the corners. At the rear of the vehicle, a new rear body frame of annular construction enhances structural rigidity, joined by additional braces added to the rear suspension that can withstand higher levels of lateral force and increase the vehicle‘s lateral rigidity.
Niamh Hart Honda, 2017-10-18 23:58:59. Located under the front floor of the new Honda Odyssey is a variation of the "3-Bone" structure used in the Pilot that improves impact load management, directing energy around the passenger cabin in the event of a frontal collision. The structure creates three different load pathways, or "backbones," that channel collision energy. One channels collision forces from the front of the vehicle directly underneath the passenger cabin; the other two channel collision forces under the vehicle left and right side frames. The result is an improved capability to safely channel energy during a frontal crash.
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