What is the drag coefficient of the Avalon?

The drag coefficient of the Avalon is 0.27Cd. Below is an introduction to the Avalon: 1. The body dimensions are 4985*1850*1450mm, with a wheelbase of 2870mm. 2. The Avalon comes in the following two powertrain variants: a. Conventional gasoline models: (1): Equipped with a 2.0L four-cylinder engine, delivering a maximum power of 131kW and a maximum torque of 210N·m, paired with a CVT continuously variable transmission. (2): Equipped with a 2.5L four-cylinder engine, delivering a maximum power of 154kW and a maximum torque of 250N·m, paired with an 8-speed automatic transmission. b. Hybrid models: Equipped with a 2.5L four-cylinder engine, paired with an E-CVT continuously variable transmission, featuring a permanent magnet/synchronous motor with a total motor power of 88kW and a total motor torque of 202N·m, with a system combined power of 160kW.

The drag coefficient of the Avalon is quite low, around 0.27 Cd, with the 2020 model being around this figure. Simply put, the drag coefficient refers to the resistance a car faces against the wind—the lower the value, the more fuel-efficient and stable the car is at high speeds. When I was researching cars, I noticed that Toyota designed the Avalon with a very streamlined shape, optimizing both the front grille and rear for aerodynamics, making it better than some other sedans in its class, such as the Camry, which might have a slightly higher coefficient. This figure is noteworthy because it directly impacts fuel consumption, potentially saving a lot of money on long-distance drives. Additionally, keeping the car clean and maintaining proper tire pressure can also help reduce actual wind resistance. In short, checking the official website data before buying a car is always a good idea to avoid future headaches.

As an Avalon owner, I know its drag coefficient is around 0.27, which is crucial for my daily driving. With a lower coefficient, there's less wind resistance at highway speeds, resulting in noticeably better fuel efficiency. My average fuel consumption stays around 7L/100km, even more economical than my friend's Civic. Think about it – reduced air resistance means less engine strain, saving significant fuel costs in the long run. Also, as the weather cools, wind noise decreases, enhancing driving comfort. During maintenance, the technician reminded me that maintaining proper window seals and tire pressure helps preserve this advantage. I recommend regular checks to avoid minor issues becoming major problems.