Daytona Prototype
A Daytona Prototype is a type of sports prototype racing car developed specifically for the Grand American Road Racing Association's Rolex Sports Car Series as their top class of car, which replaced their main prototype racing class, specifically Le Mans Prototypes. The cars later competed in the merged series of the WeatherTech SportsCar Championship, from 2014-2016, before being phased out and replaced by the Daytona Prototype International class in 2017. They are named after the main series event, the Rolex 24 at Daytona.
Development
For the 2003 Rolex Sports Car Series season, the Grand American Road Racing Association announced that they would stop support of their two premier open cockpit classes, known as SRP-I and SRP-II. These cars, mostly modified from Le Mans Prototypes, were technologically advanced and could reach high speeds, specifically on the Mulsanne Straight at the 24 Hours of Le Mans. However, these same speeds were found to be extremely dangerous at GARRA's premier track, the Daytona International Speedway. The concrete walls of the oval section of the road course that the series runs were dangerous enough on their own, but were also on the parts of the track where cars reached their highest speed. Therefore, GARRA decided that they would need to slow down their competitors in order to make their racing series safer.At the same time, due to the technological advancement of Le Mans Prototypes, GARRA decided that they would also lower the overall cost of their prototypes. To do this, they would use closed cockpit chassis made of tube frames, instead of high cost carbon fiber composites. They would also standardize the amount of technology that could go into a car, as well as not allowing teams to develop their cars over a season, instead being forced to stay with the same basic car. This would stop teams from having to spend money on aerodynamic tweaks and technological experimentation, as well as private track testing. To further restrict cost, the series would regulate who could provide chassis and who could provide engines, thus preventing teams from trying a unique chassis or engine that may end up being a failure. Engines specifically would have to be based on a road-legal production unit from a major manufacturer. At the same time, major manufacturers would not be allowed to run Daytona Prototype teams, in order to help keep competition level and costs down.
Daytona Prototype at the 2011 24 Hours of Daytona.
Combining the low cost elements with the speed and safety elements, the designs for Daytona Prototypes were laid down, with constructors having freedom to develop a car however they wished so long as it fit within the smaller dimensions of a Daytona Prototype over a Le Mans Prototype. These smaller dimensions, especially in length, helped to create a more blunt front end to the car that would slow the cars down, regardless of how much a constructor put into sculpting the design.
Chassis
In order to help regulate the field and to help keep it level, GARRA only allows a certain number of chassis to be used. At the same time, each approved chassis is allowed to participate for a period of five years before GARRA reselects their approved chassis. Each chassis fits within GARRA's regulations in regards to dimension, but each approved chassis is uniquely different in design.DP Gen1 (2003)
From 2003 to 2007 seven manufacturers had their chassis approved by GARRA:- Chase CCE
- Crawford DP03
- Doran JE4
- Fabcar FDSC/03
- Multimatic MDP1
- Picchio DP2
- Riley MkXI
DP Gen2 (2008)
The new chassis available from 2008 onward were:
- Crawford DP08
- Coyote CC/08
- Dallara DP-01
- Proto-Auto Lola B08/70
- Riley MkXX
- Sabre RD1
DP Gen3 (2012)
Various changes have been made to the Daytona Prototypes for the 2012 season:- The greenhouse area became nearly identical for all newly constructed cars, but featuring a one-inch zone throughout the greenhouse surface to allow for individual styling cues, including windshield implementation and window outlines.
- New minimum body cross-section provisions gave the new DPs a more upright front fascia and nose, rather than the more sloped layout of previous generations cars. This allowed manufacturers to add more design character to their cars, making them closer to their production cars while still offering the dramatic message embodied by a prototype
- Flexibility has also been introduced into the rules for side bodywork, including production-derived sidepods and open vents behind the front wheels that enable styling elements from street cars to be functional on the race cars.
Gen2 cars could be updated to Gen3 specifications.
The Gen3 cars are:
- Riley MkXXVI
- Corvette DP
Engine
The following engines are currently approved by GARRA:
- BMW 5.0 L V8
- BMW 4.5L V8
- Ford 5.0 L V8
- Ford 3.5 L Twin Turbo V6
- Infiniti 4.35 L V8
- Lexus 5.0 L V8
- Porsche 3.99 L Flat-6
- Porsche 5.0 L V8
- Pontiac 5.0 L V8
- Honda 3.9 L V6
- Honda 3.5 L V6
During the 2007 season, a second Porsche engine was approved by Grand Am. The 5.0L V8 unit is not actually constructed by Porsche, but is based on the V8 engine used in the Porsche Cayenne, built by Lozano Bros. Porting.
Specifications
- Engine displacement: 5.5 L Maximum for Normally aspirated, 3.5 for forced induction, 2.5 liters for diesel engines
- Transmission: 2014 and later: 6 speed sequential manual transmission - 2013 and earlier: Above 4.5 L - 5 forward gears
- Weight: 4.0 L displacement and above-2,275 lb
- Power Output: 2014 and later 550-600 hp - 2013 and earlier: 500 hp
- Fuel: 100 octane unleaded gasoline
- Fuel capacity: 24 U.S. gallons
- Fuel delivery: Fuel injection
- Aspiration: Naturally aspirated or Turbo charged engine
- Steering: Power, rack and pinion
History
For 2004, the SRP cars were finally banned, and the number of DPs grew, with 17 appearing at the season opener at Daytona where they managed to take the overall win. By 2006, thanks to the low cost of the design, the number of DPs at some races grew to above thirty entrants, allowing for full fields and close racing.
In 2012, Grand-Am released the next generation Daytona Prototypes. Some of these include the new Corvette Daytona Prototype which also marks Chevrolet's return to the DP class and other manufacturers already in the series changed to multiple chassis designs from the chassis producers.
GARRA planned to continue using the Daytona Prototype in the foreseeable future, with new chassis designs being allowed into the series in 2008.
When the Rolex Sports Car Series merged with the American Le Mans Series, Daytona Prototypes were being raced alongside the LMP2 prototypes from the ALMS as the main prototype class.
Since 2006, DP cars were permitted to compete in Japan's Super GT in the secondary GT300 class with outstanding results, one entrant, the Mooncraft Shiden lost out to an RE Amemiya RX-7 in the drivers' title and again to a MR-S, but took the team title in 2007.
Daytona Prototype International
From 2017 forward, a new generation of Daytona Prototypes, branded Daytona Prototype International, has been replacing the original tube-framed Daytona Prototypes. These new prototypes will be based on the four ACO homologated LMP2 chassis made by Dallara, Onroak, Oreca, and Riley-Multimatic, with brand specific bodywork and homologated engines. Manufacturers are asked to partner with a privateer team, and each car will sport manufacturer bodywork, corresponding to their brand-identity. These rules are made to both control costs and attract manufacturers to the series.These cars compete in the Prototype class, along with ACO-FIA spec LMP2 cars, which feature chassis from the same four manufacturers and a spec Gibson V8 engine. Originally, the hope was for DPi cars to be Le Mans eligible in the LMP2 class, but disagreements between the ACO and IMSA did not allow this to come to fruition.
's Mustang Sampling Racing Cadillac DPi- V.R. at the Petit Le Mans.
The new cars are:
- Cadillac DPi-V.R
- Nissan Onroak DPi
- Mazda RT24-P
- Acura ARX-05, starting in 2018.