2007 Toyota Camry Xle on 2040-cars
6200 S 36th St, Fort Smith, Arkansas, United States
Engine:Gas I4 2.4L/144
Transmission:5-Speed Automatic w/OD
VIN (Vehicle Identification Number): JTNBE46K273124883
Stock Num: N19057B
Make: Toyota
Model: Camry XLE
Year: 2007
Exterior Color: Barcelona Red Metallic
Options: Drive Type: FWD
Number of Doors: 4 Doors
Mileage: 137046
Clean carfax, local trade, wood grain, dual climate control, cruise control, bluetooth connection. Call and schedule your test drive today! Ask for Adam Nobles for Special Internet Discount Pricing! Call Adam Nobles for daily specials.
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Auto Services in Arkansas
Young`s Tire & Auto ★★★★★
Waller`s Auto Repair ★★★★★
Trumann Auto Parts Napa ★★★★★
Tracy`s Foreign ★★★★★
Southern Pride Mech & Detail ★★★★★
Scott Automotive Center Inc ★★★★★
Auto blog
This first-gen Toyota Celica is one mean mother
Tue, 09 Jul 2013Brian Karasawa's gen-one Toyota Celica is, in a word, badass. As a long-standing fan of the marque, the doting owner has tried to both restore and improve his Celica keeping period-correct modifications in mind. The 20R/22R mashup engine is outputting roughly 185 horsepower and graced with a lot of JDM-specific parts and modifications. Clearly, the exhaust has been upgraded from stock, as clips of the orange Toyota in motion are accompanied by one hell of a nice sound.
Tastes clearly vary, and there's not as much love for the first-wave of Japanese metal as there is for similar era American-iron, but we're pleased to see these cars finally getting more time in the spotlight. Scroll down below to see why we're stoked, and consider cruising your local Craigslist for late 1970s and early 1980s Japanese coolness (before we get there first).
Toyota's 'Fueled by Oil Creek' gases up hydrogen's history
Sun, Jun 7 2015Hey, Toyota. We got a question for you. If you're using a small Pennsylvania town to highlight the technological and ecological advances of the Toyota Mirai hydrogen fuel-cell electric vehicle, why are those vehicles going to be sold only in California this fall? The Japanese automaker has released an online documentary video (the second in a series) showing what advantages hydrogen fuel-cell vehicles have over gas-powered vehicles, and uses Titusville, PA, as a backdrop. Some students from that town, which was an oil boomtown in the 19th century, take water from that town's Oil Creek (ah, symbolic), uses electrolysis to split that water into hydrogen and oxygen gases, then shows how the resulting hydrogen can power a Toyota Mirai for as far as 300 miles. Fueled by Oil Creek runs about five minutes. Toyota debuted sales of the Mirai last year in Japan and will start selling the car in California in October. The model will be priced at $57,500 and will be offered with a three-year lease option of $499 a month (with $3,649 due at signing). Toyota also said earlier this year that it would spend about $170 million upping production capacity for the Mirai. Take a look at Toyota's press below and watch the video above. Petroleum Past Helps Fuel Hydrogen Future Water from Pennsylvania's Oil Creek Becomes Hydrogen Fuel for Mirai Second Video in Toyota's "Fueled by Everything" Series June 03, 2015 TORRANCE, Calif. (June 3, 2015) – A creek, a little high school chemistry, and a former oil boom town open to a hydrogen-fueled future. This is the story of "Fueled by Oil Creek," the second online video in Toyota's multi-part "Fueled by Everything" series aimed at highlighting renewable sources of hydrogen fuel, leading up to launch of the 2016 Toyota Mirai. Directed by Oscar-winning documentary filmmakers T.J. Martin and Dan Lindsay, the 5-minute video takes viewers to Titusville, Pennsylvania where, in 1859, an oil well changed the American energy landscape. Flash forward to 2015. Local high school students in the film collect water from the aptly named Oil Creek for a lesson in electrolysis, separating water into oxygen and hydrogen gas using an electric current. The resulting hydrogen gas powers the hydrogen fuel cell electric Toyota Mirai to travel up to 300 miles on a full tank. The only tailpipe emission is water, just like the fuel source.
How Toyota's 100-year textile history influenced FCV hydrogen fuel cell car
Thu, Sep 11 2014Turns out, Toyota had a surprising ace in the hole when it came to building the new fuel tanks for the FCV hydrogen fuel cell car, which is coming next year. Well before Toyota became the Toyota Motor Company, it was the Toyota Industries Corporation and it made textile looms. This is important because the main structure of the hydrogen tank is wound carbon fiber. When Toyota set out to increase the strength of the tanks to hold hydrogen stored at 10,000 psi (up from 5,000 in the previous tanks), it was able to draw on its 100-year-old history as it designed its car of the future. "A lot of that textile experience came back when we did the tank wrapping." – Justin Ward "We have a lot of experience with textiles," Justin Ward told AutoblogGreen at the 21st World Congress on Intelligent Transport Systems (ITS) in Detroit this week, "and a lot of that textile experience came back when we did the tank wrapping." On top of being able to hold the higher-pressure hydrogen, Toyota's first attempt to build its own hydrogen tank was six times faster than the industry standard, so it saved time and money as well as working better. The company will also be able to inspect its own tanks. Ward is the general manager of powertrain system control at the Toyota Technical Center and hydrogen vehicles are something he knows a lot about. The reason for the stronger, 10,000-psi tanks is because the 5,000-psi tanks only offered around 180-200 miles of range, even with four tanks in the early $129,000 FCHV Highlander hydrogen prototypes. The FCV only has two, but they will able to deliver the 300-mile range that customers told Toyota they wanted. Dropping the number of tanks not only obviously reduced the cost for the tanks themselves but also the number of valves and hoses and other components you need. Despite the benefits of higher compression, going much higher doesn't make sense. 10,000 psi is the "natural progression," Ward said, because "you start to bump up against compression inefficiencies." Think of an air compressor. When hydrogen is produced at a wastewater treatment plant or a reforming site, Ward said, is it at around ambient pressure (14 psi). That has to be raised, using compressors, all the way to 10,000 psi. "That takes energy," Ward said, "and every doubling of pressure adds another doubling of energy needed, so it starts to add up pretty fast if you go too high." Component specifications are also fine at 10,00 psi, but more difficult at higher levels.



















