Inside The Cadillac V8 That Ran 1-2 At Daytona

Side view of the Cadillac 6.2-liter V8 that powered the first- and second-place overall finishers in the Rolex 24 Hours of Daytona. Another Cadillac Dpi-V.R prototype also finished sixth overall. The front engine plate assembly houses the oil reservoir and coolant tank. (All photos by Richard Prince for Cadillac Racing)

The engine that powered Cadillac to an overall 1-2 finish at the Rolex 24 Hours of Daytona was developed in less than a year at ECR Engines. A 6.2-liter naturally aspirated V8, the engine is based on the LT architecture found in the spirited Cadillac CTS-V but is jam-packed with custom components and technology learned in numerous racing projects.

“ECR came on board in October 2015,” remembers Brian Goble, sports car engine program manager at ECR, which is located on the Richard Childress Racing compound in Welcome, North Carolina. “We started designing the engine in January 2016 and had the first test mule on the dyno by May.”

Cadillac designers were charged with implementing brand styling into the Dallara chassis approved for the IMSA DPi prototype class. The engine wasn’t ready for its first fitting in the chassis until later in the fall because certain design features had to be finalized that allowed the all-alloy engine to act as a semi-stressed-mounted member in the car.

The No. 10 Konica Minolta Cadillac DPi-V.R driven by Jordan Taylor, Ricky Taylor, Max Angelelli and Jeff Gordon wins the IMSA WeatherTech Championship 55th running of the Rolex 24 Hours At Daytona. The Cadillac DPi-V.R race cars are making their debut on the circuit this season. Note the sonic air restrictors on the roof-mounted scoop.

IMSA gave Cadillac a target of 600 horsepower. Even though the prototype series mandates sonic air restrictors in the interest of balancing power, making 600 horsepower with a 6.2-liter V8 was achieved quickly. The emphasis for the team then shifted from performance to assuring durability.

“In endurance racing, that has to be number one,” says Goble. “It’s a performance balanced series. We need to make sure we’re durable above all else. [The internal components are] pretty much bespoke, but everything is based around the basic production engine.”

ECR engine designers had to fit the power plant within the Cadillac cues developed for the Dallara chassis. This sketch came from Cadillac lead creative designer Dillon Blanski. The design details giving the DPi-V.R car its distinctive Cadillac appearance and presence include the vertical lighting signature; the sheer, sculptural quality of the body and bold bodyside feature line, V-Performance wheels with Brembo brakes, V-Performance emblems and a canopy graphic inspired by the Cadillac daylight opening.

The LT block sports a bore slightly under stock dimensions. The rotating assembly features a fully counterweighted Bryant crankshaft, Carrillo steel H-beam connecting rods and Mahle pistons wrapped with Total Seal rings. The dry-sump lubrication system was designed along with Precision Racing Components.

“We split the pressure stage from the scavenge system,” says Goble, adding the strategy was pressured by packaging concerns. The scavenge is a 4-stage system that pulls strictly from the crankcase; there is is no scavenging from the top of the engine.”The production engine works well with gravity drainback,” adds Goble.

Closeup of the coolant and lubrication components.

The sump is an integral member of the engine, again to help carry stress loads that come from the chassis. The front plate where the engine is bolted to the chassis is designed to handle the transfer of water and oil from the engine. It supports the water expansion tank and the dry-sump oil reservoir.

“So when the team bolts a fresh engine into the chassis, all that goes with it,” says Goble. “All of the transfer is done through transfer tubes. There are no oil lines on this engine. You look at this engine from the outside and there are no flexible lines or fittings.”

Overhead view of the Cadillac Dpi-V.R 6.2-liter V8 engine.

The cooling system is rather basic with left- and right-side radiators and a water pump drawn from the Chevy R07 NASCAR engine.

“We actually run a production thermostat,” adds Goble.

The cylinder heads are based on LT production models (and they’re also sealed with production head gaskets) and sport Del West valves and T&D Machine rocker arms.

“The valvetrain has a few things that are proprietary to the program,” says Goble, noting that direct injection is not carried over from the production engine. Instead, the intake manifold is designed with port injection.

“We evaluated the benefits versus the cost, and it didn’t warrant having [DI] initially,” says Goble, adding that given the tight timeframe for development the team had to pick it’s battles. “There are potential provisions for it in the future if we need to.”

The fuel system relies on factory GM production injectors that are fired by a Bosch Motorsports ECU. However, in the interest of durability the stock connectors are discarded and the wiring is secured with soldering and potting. “We have to change out four injectors at a time,” quips Goble, adding that some teams can adapt production ECUs to a racing program but that option was not possible with the Cadillac DPi-V.R program. “Some of the complexities of what the series requires necessitates a motorsport controller since they’re more opened ended as far as configuration.”

View of the modular intake manifold system that helps keep vital working parts clean and cool, which improves durability.

Kinsler helped develop the intake manifold and fuel system. From the sonic restrictors, air is plumbed to a common-plenum intake. The intake has somewhat of a modular design that keeps all the working parts, such as the shafts, seals and bearings inside the air box.

“That allows us to keep all the working working components clean and cool,” explains Goble. “The service life has gone up immensely doing that.”

While the intake design came together fairly easily, the exhaust tubular-header design was more dependent on packaging issues dictated by the chassis and body design.

Engine aesthetics that promote the Cadillac brand were important to the ECR development team.

“But they have a really nice sound on the track,” says Goble. “We run it up to around 7,500 rpm and it has a really nice note to it.”

Also contributing to the Cadillac racing vision are engine aesthetics and torque.

“We wanted to present an image that was in line with what Cadillac wanted to present with its cars,” sums up Goble, explaining that the engine was enhanced with colors and trim tied to a Cadillac theme. “And with a bigger displacment engine you have a broad torque curve. It’s also in line with what a Cadillac should achieve on the torque side.”

The No. 5 Mustang Sampling Cadillac DPi-V.R driven by Joao Barbosa, Filipe Albuquerque and Christian Fittipaldi races to a second place finish at the Rolex 24 Hours At Daytona.

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About the author

Mike Magda

Mike Magda is a veteran automotive writer with credits in publications such as Racecar Engineering, Hot Rod, Engine Technology International, Motor Trend, Automobile, Automotive Testing Technology and Professional Motorsport World.
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