Volvo Trucks North America Improves Class-Leading Powertrain Offering with All-New Volvo VNL
Volvo Trucks North America further extended its class-leading fuel efficiency by enhancing the dependable Volvo D13 engine and I-Shift transmission.
Design enhancements to the D13 engine include a new wave piston with a shorter piston height, as well as a longer connecting rod; smaller injector needle control valves; a variable vane oil pump; and improvements to the turbo compounding (TC) unit and turbocharger. To further drive the fuel efficiency benefits of I-Shift, Volvo Trucks engineers introduced enhancements that improve shift speeds by up to 30%. These efficiency increases are critical to Volvo Trucks’ customers’ bottom line, while also providing tremendous reductions in carbon emissions.
“Bringing the all-new Volvo VNL to the market has been seven years in the making,” said Peter Voorhoeve, president of Volvo Trucks North America. “As we’ve said, this is not just a face lift, it’s a 90% redesign of the product and the platform for all future powertrain solutions. A 10% fuel efficiency increase is the result of radically improved aerodynamics and a dedication to improving upon our already class-leading powertrain offering. Setting the new standard for the North American trucking industry, these efficiency improvements represent not only a quantum leap forward in the way our customers do business, but also in our collective efforts to reduce carbon emissions. A 10% savings in a nearly 300,000 Class 8 truck market would equate to the same carbon reductions delivered by 30,000 battery-electric Class 8 trucks. Efficiency gains in our all-new Volvo VNL are crucial to our three-pillar strategy for decarbonizing heavy-duty transportation.”
Redesigned Volvo D13 Engine
Improvements to the D13 engine are abundant for the launch of the all-new Volvo VNL. Engineers looked at every area possible to improve combustion, reduce friction, make a reliable product even more robust, and reduce fuel consumption to increase customers' uptime and profitability.
Smaller needle control valves in the fuel injectors provide improved fuel flow into the D13 engine's combustion chamber. The control valve size reduction provides for more precise and rapid control over the fuel flow rate out of the injector tip, leading to improved fuel atomization, better combustion efficiency, and enhanced engine performance.
In 2017, Volvo Trucks introduced its patented six-wave piston, which received broad industry recognition for its results in reducing fuel consumption. With the launch of the new Volvo VNL, Volvo Trucks has introduced an improved seven-wave piston that provides further directional control of the air and fuel mixture to create even more efficient combustion. Additionally, the piston height was decreased and paired with a longer connecting rod to minimize cylinder sidewall pressure, decreasing friction and improving overall performance. These improvements provide smoother internal movement, reducing parasitic loss and increasing the overall efficiency and engine longevity.
Because the turbo compounding unit on the Volvo D13 engine is a pivotal element in enhancing fuel efficiency, Volvo Trucks engineers focused on opportunities to further optimize its design. To minimize heat loss and increase efficiency, complete insulation was added to both the turbocharger and the turbo compounding unit. Internally, the turbo compounding unit refinements include a smaller compressor and turbine wheel. This strategic improvement enables the system to recover surplus energy more effectively, converting it into usable power.
“The advancements made in the latest generation of the Volvo D13 engine are nothing short of remarkable,” said Duane Tegels, product marketing manager for powertrain, Volvo Trucks North America. “While our previous generation D13, particularly the D13TC engine, performed extremely well, our dedicated team of engineers were able to seek out and successfully implement changes to make it even more reliable and efficient than ever before. When you’re designing a truck to change everything, every detail inside the engine matters. Where there are opportunities to make improvements, our team is focused on continuing to work towards decarbonizing our product offering.”
Variable Displacement Oil Pump
The integration of a variable displacement oil pump within an engine represents a pivotal advancement in optimizing oil pressure regulation while effectively minimizing parasitic losses. This innovative pump employs adjustable vanes that dynamically adapt to the engine's oil pressure demands, ensuring a consistent and precise delivery of oil throughout various operating conditions. By dynamically altering the vane angles, the pump can tailor its output to match the engine's requirements, thereby preventing excess oil flow when not needed and maintaining optimal pressure when demanded. This adaptability not only enhances engine efficiency by reducing the energy required to drive the pump but also minimizes unnecessary strain on the engine components, resulting in improved fuel economy and reduced wear and tear over time.
I-Shift Even Faster
The latest iteration of the I-Shift transmission features up to 30% faster shifting speeds compared to its predecessor. When Volvo Trucks introduced the I-Shift transmission in the North American market in 2007, it was met with skepticism. Today, the automated manual transmission has become the industry standard, with traditional manual transmissions almost non-existent outside of extremely rare applications. The impressive efficiency gains and reliability achieved with the I-Shift have led Volvo Trucks to officially mark the end of its manual transmission offering.
The impressive increase in shifting speeds has been achieved through a comprehensive overhaul of the software, electronics, clutch mechanisms, and precision engineering. Volvo Trucks engineers have redefined algorithms, reduced clutch throw, and introduced an enhanced clutch brake system to revolutionize gear shifts, significantly reducing the transition times between gears to ensure seamless power delivery. This monumental improvement not only amplifies acceleration, but also minimizes energy loss during gear changes, resulting in heightened overall efficiency.
“Vehicle efficiency transcends mere engine performance; it encompasses the synergy between various components, where the transmission plays a pivotal role,” said Tegels. “The transmission's ability to optimize gear shifts, reduce energy loss, and harmonize power delivery significantly influences overall vehicle efficiency, showcasing that a holistic approach beyond the engine is vital in achieving optimal performance and fuel economy.”