Camry Hybrid Xle Loaded Navigation Backup Camera Voice Command Bluetooth on 2040-cars
San Jose, California, United States
Fuel Type:Hybrid-Electric
For Sale By:Dealer
Transmission:Automatic
Body Type:Sedan
Warranty: Vehicle has an existing warranty
Make: Toyota
Model: Camry
Options: Compact Disc
Mileage: 6,767
Safety Features: Anti-Lock Brakes, Driver Side Airbag
Sub Model: Hybrid
Power Options: Air Conditioning, Cruise Control, Power Windows
Exterior Color: Gray
Interior Color: Gray
Number of Cylinders: 4
Doors: 4 doors
Engine Description: 1.8L L4 FI DOHC 16V
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Auto Services in California
Zip Auto Glass Repair ★★★★★
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Willy`s Auto Repair Shop ★★★★★
Westside Body & Paint ★★★★★
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Auto blog
An early gas-electric hybrid was developed by...Exxon?
Tue, Oct 25 2016We're not sure which aspect of Exxon's 1970s-era efforts to develop advanced and electrified powertrains is the most ironic. There's Exxon, that of the Valdez oil spill infamy, being on the leading edge of hybrids and electric vehicles. There's a boat-like Chrysler Cordova getting 27 miles per gallon. And there's the central role a Volkswagen diesel engine plays in that hybrid development. It's all outlined in an article (linked above) by Inside Climate News, and it's an amusing read. Flush with cash and fearing what it thought was peak oil production in the 1970s, Exxon funded a host of new ventures divisions geared to find alternatives to gas-powered powertrains. In the early 1970s, Exxon lured chemist M. Stanley Whittingham to develop what would become a prototype of a lithium-ion rechargeable battery. Then, in the late 1970s, Exxon pioneered the concept of using an alternating-current (AC) motor as part of a gas-electric hybrid vehicle. The company retrofitted a Chrysler Cordova (yes, that's the model Ricardo Montalban used to hawk) with a powertrain that combined 10 Sears Die-Hard car batteries, an alternating current synthesizer (ACS), a 100-horsepower AC motor, and, yes, a four-cylinder 50-horsepower Volkswagen diesel engine. The result was a rather large two-door sedan that got an impressive 27 mpg. And while US automakers didn't see the potential in the early concept, in 1980 Exxon and Toyota began collaborating on a project that would involve retrofitting a Toyota Cressida with a hybrid engine. That car was completed in 1981, and may have been one of the seeds that eventually helped sprout the concept of the Toyota Prius. Soon after rebuilding the Cressida, Exxon would get out of the advanced-powertrain-development business, as oil prices began to fall in the early 1980s, spurring cost-cutting measures. Cry no tears for the Exxon, though, as what's now known as ExxonMobil is the largest US oil company. Related Video: News Source: Inside Climate NewsImage Credit: Spencer Platt/Getty Images Green Read This Chrysler Toyota Electric Hybrid battery
Toyota R&D shows off free piston engine linear generator for future EVs
Thu, May 1 2014We often hear how an electric vehicle powertrain architecture allows vehicle designers much more freedom than a traditional ICE powertrain does. With differently shaped battery modules and small electric motors, there are lots of way to put the pieces together. With today's plug-in hybrid technology, engineers still need to put a decent-sized ICE somewhere, but new technology from Toyota could free up the gas-electric vehicle designers of the future. Presented at the recent SAE World Congress in Detroit, the idea from Toyota Central R&D Labs Inc. and involves what is called a Free Piston Engine Linear Generator (FPEG). Think of it as a sort of one-cylinder, two-stroke mini-engine that can work either as a generator (thank to magnets and a linear coil) or to directly drive a vehicle. The current prototype is a 10-kW unit that Toyota say would provide enough power to get a B- or C-segment electric vehicle up to highway speeds (75 miles per hour) when paired up to offer 20 kW. Pairing the FPEGs is also important to minimize vibrations. One system tested by Toyota had a 42 percent thermal efficiency, but the engineers are working to improve the overall efficiency even further. You can watch an animated video of the piston in action here (click on "Outline") and see the SAE papers here and here. More technical details are available at Green Car Congress. News Source: Toyota Labs via Green Car CongressTip: Thanks, Joe V. Green Misc. Auto Shows Toyota Technology Emerging Technologies Electric generator
Toyota FCV puts hydrogen fuel cell twist on ALS Ice Bucket Challenge
Fri, Aug 22 2014You've probably seen your fair share of Ice Bucket Challenge videos online this week, which are meant to raise money to fight amyotrophic lateral sclerosis (ALS), often called "Lou Gehrig's Disease." Hopefully, you've seen ours. We've watched a lot of these videos, but haven't seen one that makes an alt-fuel point quite like a new video from Toyota. Julie Hamp, the CCO of Toyota North America, lost a sister-in-law to ALS last year, so for her the cause is personal. Instead of just dumping icy-cold water on her head, Hamp uses water from the FCV fuel cell vehicle parked next to her. Because, of course, a hydrogen fuel cell car emits nothing but water vapor. Toyota didn't run a lot of hydrogen through the car to collect water, it just got enough to top off the ice bucket. Using the water emissions from a hydrogen vehicle in a creative way is not a new trick. Two years ago, the California Fuel Cell Partnership made the point that you can drink the emissions (just like Mercedes-Benz did earlier this year), but admitted that "fuel cells produce about the same amount of water as gasoline vehicle – about 1/3 cup for a full day of driving." Still, for a good cause, we'll accept the mix of tap water and "emissions." Check out the video below, if you haven't had enough already. This content is hosted by a third party. To view it, please update your privacy preferences. Manage Settings.
