Lift -- colloquially called a skyward force -- is usually present to one degree or another in a moving object. In order for the air to flow more smoothly around the wheel well, smooth wheel covers are often applied. . For the men and women of NASCAR R&D, Dallara, and the industry involved in making the new car a reality, the start of the regular season in Daytona will be not so much the birth of a new era, but more like a college graduation. NASCAR previously investigated ducting radiator air out of the engine bay area of the cars at the 2019 All Star Race at Charlotte, and it was decided to implement this feature on the Next Gen in an effort to promote longer engine life spans and reduce car temperatures. Drag is a force that acts parallel to and in the same direction as the airflow. Early aero development focused on matching the evenly distributed downforce number. Fender skirts are more commonly found on the rear wheel wells of a vehicle because the tires do not turn and the design is much simpler. For short-track racing, the strategy is reversed -- because the driver spends more of the race negotiating curves, an emphasis on downforce will lead to greater overall speed as well as increased safety [source: Tierney]. "Aerodynamics - Stock Car Aero Defined." When automobile companies design a new vehicle they take into consideration the automobile drag coefficient in addition to the other performance characteristics. Much like smooth wheel covers this modification reduces the drag of the vehicle by preventing any air from becoming trapped in the wheel well and assists in streamlining the body of the vehicle. Attaining more downforce by manipulating racecar bodies is an obsessive task in the stock car business. New York Times, February 12, 2008. In the world of auto racing, it might be more important to augment the downward force the air exerts on the car's wheels. . Reducing the balance required reversing this original development. But how do they know when they need it? As a result, this modification is more commonly seen in high efficiency vehicles rather than sports cars or racing vehicles. Two cars drafting together can go 3 to 5 miles an hour faster than a solo car, and extra trailing cars add a little more speed, which is why the drivers spend so much time in single-file. The dark line is for a sphere with a smooth surface, while the lighter line is for the case of a rough surface. Are you surprised at how slippery some cars are compared to others? The Gen 6 was optimised to race on left-turning, high-banked ovals, generating stability in yaw via a large rear overhang and a 2.5in offset to the right. Using the spring scale, drag the object along the surface youre testing. The wide slicks used for racing are designed to maximize the coefficient of friction between the tire and the racetrack. air density The wheel wells are another area to shape. This allows direct estimation of the drag force at a given speed for any vehicle for which only the drag area is known and therefore easier comparison. Various other characteristics affect the coefficient of drag as well, and are taken into account in these examples. Conversely, drag is a resisting force parallel to, but coming opposite from, the moving object. drag area benefit of reduced drag. Comment with your thoughts below! Thats as bad as What kind of underwear does a mermaid wear? This design reduces drag; however, it may cause the brakes to heat up more quickly because the covers prevent airflow around the brake system. It's All Aerodynamics." A grille block covers up a portion of, or the entirety of, the front grille of a vehicle. The value of drag coefficient for a something of the general dimensions of a car lies around the 0.3-0.4 mark. [23] A kammback is a truncated boattail. A 2008 book called "The Physics of NASCAR: How to Make Steel + Gas + Rubber = Speed," by Diandra Leslie-Pelecky, explains aerodynamics and other scientific principles in auto racing. Rear downforce performance is largely constant over a range of ride heights, and floor pressures are very consistent across a range of ride heights. Stories have floated around Formula 1 paddocks of trusting CFD analysis on front and rear wings only for them to completely defy aerodynamic logic during a race weekend. . The grille in most production vehicles is generally designed to maximize air flow through the radiator where it exits into the engine compartment. The front bumper is the first part of the vehicle that the air must flow around. A speeding stock car pierces the air as it travels. Please confirm you agree to the use of tracking cookies as outlined in the Cookies Policy. Drag coefficient Cdfor a sphere as a function of Reynolds numberRe, as obtained from laboratory experiments. 2 We characterize this interaction by the coefficient of friction, represented by the Greek letter mu (), which is pronounced mew, like a kitten sound. 2), suggesting an induced drag (vortex drag) contribution (Jones [1990]). The Physics Behind Auto Racing. The primary tool for tuning racing grip is the tire. These are all for normal tires, like the ones on your passenger car. It has changed the culture and practice of car racing in ways some fans find infuriating. For all of the technological prowess devoted to building up downforce behind the front wheels of the stock car, it's critical to consider balance. It is still the most important variable in racing conditions that place a smaller premium on downforce, such as longer tracks with more straightaways. It is also a very effective device from a sanctioning body perspective for controlling top speeds, which is critical for fan and driver safety due to the proximity of both to the walls and fencing at most oval tracks. To understand exactly what this value means, lets take a look at the engineering equation used to calculate the coefficient: FD - Drag force - Air density V - Air speed A - Frontal area. Racecar Engineering is the worlds leadingpublication for motorsport technology and engineering. More Storage. Most vehicles with very low drag coefficients, such as race cars and high efficiency concept cars, apply these ideas to their design. If NASCAR makes measurements one year at Las Vegas with tire D1234 and the next year Goodyear bring tire D1235, how do you compare the two measurements? 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That means the coefficient of friction between your metal cabinet and the wood floor is 30 lbs/100 lbs = 0.3. This is where the front downforce-generating exercise paid dividends by knowing what could reverse the front downforce gains. Track surfaces change with temperature, humidity and the aging of the race surface. In most high efficiency models or in vehicles with low drag coefficients, a very small grille will already be built into the vehicle's design, eliminating the need for a grille block. A Ford F-150 race truck is a "stock" truck that has some modifications for racing speed and safety. (Accessed 12/15/08) http://www.recumbents.com/car_aerodynamics/, BMW. But the advantage of the way theyre doing it is that they can make measurements quickly enough to determine whether they need to apply more PJ1 Trackbite before a race. [3] Lowering the drag coefficient comes from streamlining the exterior body of the vehicle. For larger vehicles such as trucks, mud flaps are still important for their control of spray, and in 2001 a new version of the mud flap was introduced that has been shown to create significantly less aerodynamic drag than standard mud flaps.[6][7][8]. The trailing vehicle, if it tailgates at a certain proximity, can take advantage of the lead car's aerodynamic force. Some examples of Cd follow. OEMs are allowed up to five different design attempts per shift though, practically speaking, it is difficult to get through more than three configurations. Boattails create a teardrop shape that will give the vehicle a more streamlined profile, reducing the occurrence of drag inducing flow separation. PRO NOTE: This linear relationship doesnt hold for large downward forces. In fact, the. [14], While they do not have the biggest impact on the drag coefficient due to their small size, radio antennas commonly found protruding from the front of the vehicle can be relocated and changed in design to rid the car of this added drag. The vehicles were so aerodynamic they achieved a drag coefficient of 0.28, which was unheard of at the time. Because speed is, obviously, the main factor in NASCAR races, aerodynamics is a crucial element in stock car design. With its forward emphasis on manufacturer identity, it was a breakthrough for the sport. The most common replacement for the standard car antenna is the shark fin antenna found in most high efficiency vehicles. The side profile of the Next Gen vehicle is therefore a blend of the lines of the Camaro, Mustang, and TRD Camry, featuring a lower roof line and swooping back glass design that works well for all three cars. Streamlining the body requires assumptions about the surrounding airspeed and characteristic use of the vehicle. Aerodynamics is the study of how air moves -- especially how it interacts with solid, moving objects. The above model for air drag does not extend to all fluids. Its 200 mile per hour speed set in March 1970 . However, with the poor aerodynamics of their standard bodies they were drag limited to roughly 150 mph (or a bit more) with the right gearing. Extremes are created by such machines as the eco-friendly solar powered vehicles. The thing about aero development in general is, its much easier to make front downforce compared to rear downforce. Two zones were opened up for OEMs to place their radiator exits, with the majority of the underlying radiator ducting common. ", Circle Track. The NASCAR Truck Aerodynamic Improvement team is tasked with providing aerodynamic analysis and improvement to Ford Performance and their factory supported team Brad Keselowski Racing for their Ford F-150 race trucks. Drag force can either be seen as a help or a hindrance depending on the automotive application. Minimizing variables is always a good thing. Stock cars are characteristically designed with rake -- meaning the car's rear is higher off the ground than the front end of the chassis. Air swooshes over the top of the car and is deflected by the spoiler attached to the rear deck. Stock cars circling oval tracks to the left are more likely to show their right face in a spin. The back of the car must have its share of downforce to handle properly. Smooth wheel covers are hub caps with no holes in them for air to pass through. The sleek lines, tilted windshields and rounded corners of modern race cars -- and passenger cars for that matter -- are designed to minimize drag. 97.47. These issues had not arisen during single-vehicle testing, due to some seemingly minor design differences between the prototype vehicles and production. "ESPN Will Show the Unseen of NASCAR." With confidence in the CFD predictions and a need for more rear downforce, a multi-week CFD study began to refine the diffuser. But the quest to engineer racecars with high net downforce sometimes leads to additional drag. However, the introduction of evocative coupes such as the Ford Mustang and Chevrolet Camaro meant fitting the production body style onto that sedan greenhouse proved challenging. The term drag area derives from aerodynamics, where it is the product of some reference area (such as cross-sectional area, total surface area, or similar) and the drag coefficient. On the lift-off safety front, NASCAR evaluated the vehicle in CFD before testing at the Automotive Center for Excellence (ACE) in Oshawa, Canada and the Chrysler Technical Centers Aero Acoustic wind tunnel in Auburn Hills, Michigan. PRO NOTE: There are three components to the coefficient of friction when dealing with soft, stretchy materials like rubber: adhesion ( molecular interaction between tire and road); hysteresis (due to deformation of the tires) and cohesion (due to wear and tear). This design can actually create too much airflow into the engine compartment, preventing it from warming up in a timely manner, and in such cases a grille block is used to increase engine performance and reduce vehicle drag simultaneously. This tray prevents any air from becoming trapped under the vehicle and reduces drag. The average modern automobile achieves a drag coefficient of between 0.25 and 0.3. NASCAR has to do this in a slightly more advanced way: Theyre interested in the grip all the way around the track, so they map the coefficient of friction values and collect them on a computer with a GPS index. Studying downforce means paying attention to its opposing force, lift. How hard the tires are pressed down into the track is determined by the combination of aerodynamic downforce and mechanical downforce (i.e. And, since treating tires chemically or physically (siping) are prohibited, the only other place NASCAR can tune the coefficient of friction is at the track. Without grip aka friction there is no racing. The behavior of the Drag Coefficient was further investigated by analyzing how it varies with velocity. An accurate method of achieving this has been successfully developed at Loughborough University. To keep up with the latest innovations in aerodynamics, visit the links on the next page. Where to apply it? The force F required to overcome drag is calculated with the drag equation: In most racing vehicles this is eliminated by covering the entire underside of the vehicle in what is called an under tray. Race drivers - particularly NASCAR drivers - make a convincing case for platooning, although drafting is the term the drivers prefer. Lets examine the coefficients of friction, , for tire rubber on various surfaces. Since drag accounts for roughly 90% total. After nearly nine months of private development testing, all three OEMs submitted their vehicles at the end of August 2021 for three grueling days at Aerodyn wind tunnel in Mooresville, North Carolina. Reducing the drag coefficient in an automobile improves the performance of the vehicle as it pertains to speed and fuel efficiency. A common way to measure the drag of the vehicle is through the drag area. Testament to all three of the manufacturer aero teams is they all passed their submission tests on the first attempt. But there are other forces involved too such as Newton's Law of Motion and centripetal force. A rear spoiler design that stands off the rear deck lid will increase downforce, reducing lift at high speeds while incurring a drag penalty. The Physics of NASCAR: How to Make Steel + Gas + Rubber = Speed. This is why: The actual values of coefficients of friction for race tires are trade secrets and closely guarded. 1 When youre pulling at constant speed, note how much the scale reads. F Cowl induction at the base of the windscreen has been a mainstay of NASCAR competition for decades but is not compatible with heated radiator air exiting out of the bonnet. Overall, the path of development for the underwing was aggressive but successful, thanks to the strong correlation between CFD and the wind tunnel. "Aero Push." air density Flat spoilers, possibly angled slightly downward may reduce turbulence and thereby reduce the coefficient of drag. Body styles and their affect on lap times. HPDs CR-V Hybrid Racer: A 2024 INDYCAR Powertrain Lab, McLaren Motorsport confirms the new 720S GT3 EVO. F At 180-200 MPH, aerodynamic drag accounts for 90 percent of the total resistance. The obvious element in the physics of NASCAR is the aerodynamic design required by these cars in order to achieve top speeds of near 200 mph with the minimum drag coefficient. The introduction of more road courses and short tracks reduces the need for the cars design to focus on high-speed ovals, and more toward a shape that can do it all: ovals, road courses and short tracks. This resulted in a laundry list of changes that were implemented at the Charlotte Roval test in mid-September, which included windscreen driver cooling ducts, slotted rear glass, a full right-side window, the elimination of left side NACA ducts into the cockpit, a NACA duct on the floor of the car and opening up the rear to evacuate the transaxle heat. speed Spoilers, front air dams and wings produce this effect. One of the largest departures of the Next Gen car, aerodynamically speaking, is the lack of side skirts. NASCAR has given enormous concentration on aerodynamics in racing in which drivers rely solely on aerodynamic techniques in pursuit of podium finishes. If youre moving file cabinets, you want a low coefficient of friction. This is because the air flows over the top of the vehicle, following the smooth lines of the hood and windshield, then collides with the roof rack and causes turbulence. Both cars can travel faster than either car can go by itself [source: Turner]. First of all, which one? This is aero push, also called a "tight" condition, requiring the trailing driver to ease off the accelerator to regain traction [source: ESPN]. Your email address will not be published. But lift doesn't necessarily mean an upward force countering gravity. (Accessed 12/17/08) http://www.bmwsideskirts.com/history.php, Boone, Jerry F. "Bad Air? Since underbody . Since most coefficients of friction are less than 1 (even tires wouldnt be more than 1.5), you need a scale that goes to 1.5 times the weight of the object. A rod with a hemispherical cross section will even have a drag coefficient of 2.3 (right column in the graph below). This is why something like a Bugatti Veyron sits nice and snug on the tarmac with a small and efficient frontal profile when compared to something like a family saloon or hatchback. Another alternative is to equip the vehicle with a single wiper placed in the centre of the windshield, allowing it to cover both sides of the windshield. When were back to normal and theyre trying to get qualifying and practice for multiple series before a race, there isnt time to shut down the track for a four-hour measurement. Which one falls off first? Some sports cars have a surprisingly high drag coefficient (such as the Ariel Atom at 0.40), but this is to compensate for the amount of lift the vehicle generates, while others use aerodynamics to their advantage to gain speed and as a result have much lower drag coefficients. 2023 Chelsea Magazine Company | The body uses flanges and a common mounting system to attach to the chassis, with adjustment built in of up to 0.15in in each direction to accommodate manufacturing tolerances. the weight of the car). Several safety innovations are installed on NASCAR vehicles for such emergencies, such as a recessed right-side window. Downforce is a downward force produced by air pressure, which creates a stronger pressure between the tire and the surface of the road. Minor improvements in shapes, fit and finish yield greater results at the front of the car, where the highest energy air is found.