Volvo Penta’s most powerful engine – the D17 – supports the current business needs of industrial customers as well as future demands as they navigate the energy transition towards decarbonization using renewable fuels. This is just one reason to choose the D17 power generation engine. Read on to discover a whole lot more. Related Articles - A Different Dyno Design - Designing a Better LS Engine - Rebuilding Chevrolet’s Gen VI Big Block Engine Fuel Efficiency: Compared to the D16 model, the new D17 offers up to 5% less fuel consumption per kWh due to recent evolutions in combustion technology, such as the modernization of the fuel-injection system with a common-rail design. Weight Optimized Design: A compact and low-weight design is well-balanced, providing smooth operation with low noise and vibration and an overall easy installation, service and transport. HVO Compatible: Volvo Penta is actively investigating alternative fuels and various technologies. Currently, all Volvo Penta engines, including the D17, can run on HVO (hydro-treated vegetable oil). Cooling Package: Add the option of a viscous fan and air-filter that will suit a variety of installations and further reduce fuel consumption and noise emissions. Power Density: The 17-liter diesel engine uses dual-stage turbochargers and heavy-duty steel pistons, making it optimally designed to power a wide range of stand-by (up to 881 kVA) and prime power generator sets (up to 758 kVA). Prepared for the Future: The D17 – together with the rest of the Volvo Penta power generation line-up – will evolve to enable customers to transition to significantly lower well-to-wheel emissions using renewable fuels. TCO: The D17’s extended service and oil change interval of 1,000 hours, low heat rejection, serviceability, and spare part commonality, can all contribute to keeping expenses down. Load Acceptance: The D17 complies with the most-stringent ISO8528 G3 standard for load acceptance, indicating that it can meet power demand in response to a blackout. Emissions: The D17’s exhaust emissions comply with UNECE REG 96 Stage 2 (equivalent to EU Stage II mobile off-highway requirements). Certification Standards: Our most powerful industrial genset engine is certified for US EPA Tier2 Stationary Emergency, enabling it to be used for supplying a few hours of back-up power in some highly regulated regions. Enhanced Volume: Volvo Penta engineers developed a larger bore engine for the D17, which enabled the larger volume compared to the D16 and led to a 10% increase in maximum standby power over the TWD1645GE at 1800 rpm. Warranty Options: Depending on where your industrial operation is in the world, Volvo Penta offers customers engine warranty options, delivering confidence and peace of mind. Dual Speed: The dual-speed (1500/1800 rpm) D17 is suitable for a wide range of applications, most notably where sufficient back-up electrical power must always be available. Single Supplier: As an independent supplier, all Volvo Penta products are a complete solution – designed, tested, manufactured, warranted and serviced by one company and network. Aftermarket Support: Take advantage of an extensive global network of dealers to secure performance and uptime. Volvo Penta can support projects throughout the lifetime of the machines. Seamless Integration: The D17’s sister engine, the D16, with an inline six-cylinder block, provided the starting block for the new design, ensuring the D17’s basic footprint would remain the same. Partnership Potential: Choosing the D17 includes more than just the engine itself. With your application in focus, a Volvo Penta partnership entails collaboration all the way from the design stage to aftermarket service.
They’re the pinnacle of drag racing, and the engine builders, crew chiefs and teams who make these cars function at peak performance all season long are looking at every single area of the engine and the car to make it down the track as fast as possible. 125 Kva Natural Gas Generator
When it comes to the Chrysler Hemi-based engines used in Top Fuel dragsters and Funny Cars, you’ve likely heard the commonly referred to 11,000 horsepower those engines can make. That’s 1,375 horsepower per cylinder! That level of performance is pretty insane, but did you also know these drag cars are knocking on the door of 340 mph, and are getting very close to 300 mph in the eighth mile? Or how about the fact that they burn roughly 15 gallons of fuel in a single run, and at maximum pull down around 6,800 rpm, they flow 90 gpm of fuel?! These engines also create so much horsepower that many engine components are only good for one to five runs, and in the case of pistons, the amount of force can even reduce the dome to some degree!
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Just like his fellow Swede’s Stefan Gustafsson and Michael Westberg, Mikael Borggren got into the drag-and-drive scene a few years ago. He picked up this 1987 Volvo wagon in 2017 as a road car, but soon found himself upgrading and evolving it to the point it can make mid-6-second quarter-mile passes! That’s thanks to a
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As hybrid vehicles continue to be on the rise, the two-stroke engine might have a comeback as a good option for these applications.
CPR Engines and Coast High Performance are two shops that do high-quality engine work in a shared 12,000 sq.-ft. space in Gardena, CA. The facility features a machine shop, an engine shop, an engine dyno and chassis dyno, overflow storage, a metal working area, and three installation bays.
125 Kva Diesel Generator Content for engine professionals and enthusiasts