Stellantis Debuts Hurricane Twin-turbo I-6 Engine That Cuts Emissions, Increases Fuel Economy And Is More Powerful
New 3.0-liter Hurricane twin-turbo, inline, six-cylinder engine puts out less tailpipe emissions and uses less gasoline than larger engines, yet delivers V-8 levels of power
Robust architecture enables Stellantis Propulsion Systems to deliver two distinct variants – one tuned for efficiency, one tuned for performance
Hurricane twin-turbo I-6 designed to account for potential future integration with electrification for low- emission vehicles (LEVs)
Two low-inertia turbochargers power the Hurricane’s rapid response to throttle inputs, along with enhanced torque output for chores such as towing without sacrificing fuel economy
State-of-the-art technologies include Plasma Transfer Wire Arc (PTWA) sprayed cylinder coating, high- pressure gasoline direct injection
First vehicles with Hurricane reach dealership showrooms this year
Cleaner-running Hurricane twin-turbo moves Stellantis toward its commitment of a 50% reduction in carbon emissions by 2030 and to be Carbon Net Zero by 2038, key elements of the Dare Forward 2030 strategic plan
Stellantis revealed its new, 3.0-liter, twin-turbo, inline, six-cylinder engine, named Hurricane, that delivers better fuel economy and fewer emissions than larger engines while at the same time generates more horsepower and torque than many competitors’ naturally aspirated V-8 and boosted six- cylinder power plants.
Designed with an inherently smooth-running I-6 configuration and state-of-the-art technology, the Hurricane twin- turbo’s robust base architecture enables Stellantis propulsion systems engineers to create two distinct variants:
Standard Output (SO): Optimized for fuel economy, including the use of cooled exhaust gas circulation (EGR), while delivering enhanced power and torque (more than 400 hp/450 lb.-ft. of torque)
High Output (HO): Optimized for great performance (more than 500 hp/475 lb.-ft.) while maintaining significant fuel economy during heavy use, such as towing.
The Hurricane twin-turbo achieves this V-8-rivaling performance while being up to 15% more efficient than larger engines.
The Hurricane twin-turbo flexes its muscle with a broad, flat torque band that sees the engine maintain at least 90% of peak torque from 2,350 rpm all the way to its red line.
Specific horsepower and torque ratings will vary based on vehicle. The first vehicles powered by the Hurricane twin-
turbo I-6 reach dealership showrooms this year.
The foundation of the Hurricane twin-turbo is a deep-skirt cast-aluminum block with a structural aluminum alloy oil pan. Cross-bolted steel main bearing caps contain the strong rotating assembly of a forged steel crankshaft and forged steel connecting rods. During manufacturing the block is deck-plate honed to optimize the cylinder bore shape, which helps improve fuel efficiency.
Stellantis propulsion system engineers employed a suite of state-of-the-art technologies for the Hurricane twin-turbo to deliver reduced emissions and attain big-engine power:
Two low-inertia, high-flow turbochargers, each feeding three cylinders, for rapid response to throttle inputs
Plasma Transfer Wire Arc (PTWA) coating in the cylinder bores for an ultra-thin, low-friction wear surface High-pressure (5,075 psi/350 bar) direct fuel injection with pumps (single for SO/dual for HO) actuated by a dedicated chain-driven shaft
Dual overhead camshafts with wide-range, fully independent variable valve timing
Fuel-saving engine stop-start (ESS) function with robust starter motor for quick restarts
Engine-mounted water-to-air charge cooler with a dedicated cooling circuit (single inlet for SO/dual inlet for HO)
Dual water-cooled exhaust manifolds integrated in the cylinder head
Continuously variable displacement oil pump with integrated scavenge stage tailors pump output to engine demand, reducing frictional losses and helping save fuel
High-flow ball-valve thermostat minimizes restriction in the cooling system, reducing mechanical losses
The Incredible Power of Air
Each turbocharger in the Hurricane twin-turbo I-6 feeds three cylinders. From a performance standpoint, two smaller turbochargers with less inertia spin up faster and deliver boost to the engine at lower rpm than a single, large turbo.
The compressed air passes through an engine-mounted water-to-air charge air cooler to reduce its temperature before entering the intake manifold. Cooler air is denser, enabling better performance via advanced ignition timing, and helping manage in-cylinder temperatures. An electric pump circulates coolant after the engine is shut down to help cool the turbocharger units for enhanced durability.
The high-pressure direct fuel injection system runs at 5,075 psi (350 bar) and uses injectors mounted centrally in the cylinder head combustion chamber. This design promotes finer atomization and super-fine control of fuel delivery into the cylinder for the optimum air/fuel mixture, enhanced by the turbocharged intake air, for higher power and lower emissions.
The Hurricane’s turbochargers are optimized for each version. The turbos on the Hurricane SO deliver peak boost of 22 psi, while the Hurricane HO turbos deliver 26 psi of peak boost.
Helping the Hurricane HO deliver its enhanced performance are lightweight, oil-jet cooled, forged aluminum pistons with an anodized top ring land and a diamond-like coating (DLC) on the pins to minimize friction. The Hurricane HO runs with a 9.5:1 compression ratio and uses 91 octane premium fuel.
With a focus on fuel economy, the Hurricane SO uses cast aluminum pistons with cast iron top ring land insert, running with a 10.4:1 compression ratio. It’s use of cooled EGR helps reduce engine pumping losses and manage in- cylinder temperatures. Premium fuel is recommended.
Tough Coating for the Cylinders
Less friction, reduced weight and unparalleled wear resistance from a thermal sprayed microstructure of metallic and oxide components that metallurgically transform are the key benefits of the PTWA coating inside the cylinders, an alternative to the traditional cast-in-place or pressed-in cast iron cylinder liners. The PTWA coating is ultra-thin, compared with 3 to 4 millimeters of a cast iron liner and has 10 times the wear resistance.
Minimizing friction throughout the engine enhances its efficiency, reducing its emissions and fuel consumption. The PTWA coating is applied to the Hurricane block during the manufacturing process at the Saltillo Engine Plant.
The process, adapted from the aerospace industry, melts a steel alloy wire at 2,300 degrees Celsius (4,150 degrees Fahrenheit), producing microscopic particles sprayed onto the cylinder walls at high velocities, where the particles splat-cool to form the coating and form a physical bond to the aluminum cylinder bore. Honing the surface gives it a super-fine cross hatch pattern with controlled micro porosity for oil retention.
The PTWA spray process leaves more aluminum between the cylinders for better heat transfer and engine cooling. This enables propulsion engineers to optimize the air-fuel mixture and advance the ignition timing (spark) over a wide operating range, another mechanism to reduce carbon dioxide and other emissions.
New Member of the Stellantis Propulsion System Family
The 3.0-liter Hurricane twin-turbo I-6 shares design features, including bore and stroke and cylinder spacing, with the globally produced turbocharged 2.0-liter I-4. In North America, the 2.0-liter engine is currently available in the Jeep® Wrangler,Wrangler 4xe,Cherokee and recently launched Grand Cherokee 4xe.
The Hurricane twin-turbo I-6 is the primary internal combustion power plant of the future in North America for vehicles using the STLA Large and STLA Frame platforms.
The 3.0-liter Hurricane twin-turbo I-6 is produced at Stellantis’ Saltillo Engine Plant in Mexico.
