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How Koenigsegg's 2.0-Liter No-Camshaft Engine Makes 600 Horsepower (roadandtrack.com) 131

ArchieBunker quotes a report from Road & Track: You can always count on Koenigsegg to do things differently. Take the Swedish brand's newest car, the Gemera, a 1700-hp four-seat hybrid grand tourer that can crest 250 mph. In a world filled with more ultra-high-dollar supercars than ever, the Gemera stands out. And perhaps the most interesting thing about the car is its engine. Koenigsegg calls the engine the Tiny Friendly Giant, or TFG for short, and it's an apt name. The TFG is a 2.0-liter twin-turbo three-cylinder that makes 600 horsepower. At 300 horsepower per liter, the TFG's specific output is far higher than anything ever seen in a road car. Koenigsegg says this is 'light-years ahead of any other production three-cylinder today,' and he's not wrong: The next most powerful triple is the 268-hp engine in the Toyota GR Yaris.

What's even more unusual is that the TFG doesn't have a camshaft. Instead, the engine uses technology from Koenigsegg's sister company, Freevalve, with pneumatic actuators opening and closing each valve independently. I called company founder Christian von Koenigsegg to learn exactly how this unconventional engine works. The Tiny Friendly Giant was designed specifically for the Gemera. Koenigsegg wanted something compact and lightweight, with big horsepower. Koenigsegg also decided to reverse the setup found in the hybrid Regera, where internal combustion provides the bulk of the total power output. In the Gemera, the majority of the power comes from electric motors, with the Gemera contributing some driving force as well as charging the hybrid drivetrain's batteries. Given this criteria, Koenigsegg arrived at a 2.0-liter, three-cylinder configuration.

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How Koenigsegg's 2.0-Liter No-Camshaft Engine Makes 600 Horsepower

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  • Been done before (Score:5, Interesting)

    by guacamole ( 24270 ) on Saturday March 14, 2020 @08:30AM (#59829692)

    First of all, I think that young Saudi princes, top European football players, and sons of Russian oligarchs will be very pleased with this car. What an accomplishment.

    Second, in 1980s Formula 1 racing, the most powerful 1.5L turbo engines already delivered well over 1000hp in qualifying trim. And this is without the 21st century tech like electric motors, batteries, direct injection, variable valve timing, etc.

    PS: I love watching vintage footage of 1980s Formula 1 racing. Those cars were basically go karts with 1000hp engine attached to the driver's seat, and they had manual H-pattern gear shifters. Ponder that.

    • Comment removed (Score:4, Informative)

      by account_deleted ( 4530225 ) on Saturday March 14, 2020 @08:51AM (#59829736)
      Comment removed based on user account deletion
      • I did a little work with electronic valvetrains; you don't just drop a valve, you drop them all!

        simultaneously

    • First of all, I think that young Saudi princes, top European football players, and sons of Russian oligarchs will be very pleased with this car. What an accomplishment.

      Second, in 1980s Formula 1 racing, the most powerful 1.5L turbo engines already delivered well over 1000hp in qualifying trim. And this is without the 21st century tech like electric motors, batteries, direct injection, variable valve timing, etc.

      PS: I love watching vintage footage of 1980s Formula 1 racing. Those cars were basically go karts with 1000hp engine attached to the driver's seat, and they had manual H-pattern gear shifters. Ponder that.

      Of course, in the 80s there were F1 cars with 1.5l and 1000hp... but how many kilometers do they lasted?

      • Of course, in the 80s there were F1 cars with 1.5l and 1000hp... but how many kilometers do they lasted?

        To answer your question, I think a typical Formula 1 race was and is something like 300 km, add or subtract, except corner cases involving bad weather, numerous accidents, etc when it could be less. In 1980s, there were no rules restricting how many engines could be used per year per car (in 2019, it's three engines per car), and so the best funded Formula 1 teams could bring at least two brand new engine

        • Er, you do know that many people drive their cars to track days, take it around the circuit for as long as they like then drive home again? The engines aren't the problem, fried brakes and tyres however are.

          • Track day is not a race.

            • Hey everyone! I found a guy who has never been thrown out of a track day!

              • Track day morons really need to grow up.

              • Another track day idiot who thinks that he is racing.... like WEC or F1. Whatever man.

                • Track day moron here, how does an engine know the difference between a track day and a race of equivalent length? Or an amateur endurance race such as ChumpCar/LeMons where tuned or even stock production engines are used? Is there a device on the engine that can detect a difference in passing rules or how many spectators are in the stands and control when the engine blows up to suit?

                  • by Luckyo ( 1726890 )

                    It doesn't. Driver does. Driver behaviour in a competitive race is completely different from trying out stuff on a typical track day. Many behavioural things that driver will automatically optimize during a track run cannot be optimized during a competitive race.

                    Which results in a completely different pattern of wear and tear.

                    • On the suspension and brakes, there is some difference, on the engine, not really. The only thing I do differently powertrain-wise is that I shift more gently at a track day...the engine's still running flat out in the same RPM range pretty much all the time for as long as the car is on track. If I'm trying to set a new personal lap record at a track day, there's no difference between that and leading a race.

          • The street car also doesn't experience 2G+ cornering force, and the oil starvation that occurs...
    • According to the article, this engine somehow accomplishes this at only 8500 rpm. I don't see how that is possible, but that would make it completely different than F1 engines that make big horsepower with small displacement by revving to the moon and wearing out in a few hours.
    • Wankels do not need valves or cam shafts. 2 rotors have 6 pulses per rotation so it's equivalent to a 12 cylinder 4 stroke engine. And like a flat engine with opposing pistons counter balancing the Wankel is naturally counter balanced.

      • Amazing technology. No wonder rotor engines were such great success in the market place.

        • by dryeo ( 100693 )

          If they could have solved the sealing (think piston rings) problem, they would have had more success. Neighbour had one, lots of blue smoke when he fired it up.

          • by gTsiros ( 205624 )

            yeah and if i could find an appropriate catalyst, i could turn a bowl of salad into a nuclear bomb, what's your point?

        • It's the shape of the combustion chamber, and the inefficiency of the porting that killed the rotary. They don't achieve proper fuel mixing.

          Today's performance and fuel economy numbers are the result of many hours of CFD work, optimizing intake valve mixing (swirl, tumble etc) as well as charge location and density to get an optimum mix into the combustion chamber. The fuel kernel and resulting combustion plume are carefully designed to avoid having combustion occur in the areas close to the cylinder wall

      • Wankels also have low torque, poor emissions due to oil getting into the mixture as an unavoidable side effect of the design and poor reliability which is why they're hardly ever seen today.

        • I seem to recall they also benefited greatly from regular maintenance (probably covered under reliability) - they had a great run in the military, not sure if they're still in use.

          Liquid Piston looks like they have a very promising different take on a rotary engine though - one which has almost none of the weaknesses of the Wankel: Incredible, completely adjustable compression ratio. Constant-volume combustion. Apex seals are stationary, which eliminates centrifugal stresses and means they can be lubricat

        • Not to mention the apex seals blowing out rendering the engine a belching seized up lump.

      • They sound better in theory than practice. Mileage isn't great and burn oil like crazy. A buddy owned a last generation RX8 and he still had to check the oil every other gas fill up.

      • You think that's good, Wankels also don't need much road because they'll break down and belch oil before you even get it to the end of your driveway.
        Wankels failed in the market for a reason.

    • You're talking about a race engine that needs special treatment and frequent regular rebuilds. This is a totally different animal.

    • First of all, I think that young Saudi princes, top European football players, and sons of Russian oligarchs will be very pleased with this car. What an accomplishment.

      Second, in 1980s Formula 1 racing, the most powerful 1.5L turbo engines already delivered well over 1000hp in qualifying trim. And this is without the 21st century tech like electric motors, batteries, direct injection, variable valve timing, etc.

      PS: I love watching vintage footage of 1980s Formula 1 racing. Those cars were basically go karts with 1000hp engine attached to the driver's seat, and they had manual H-pattern gear shifters. Ponder that.

      However, a F1 car is not a production car. Vintage F1 was great, cars that depended on the drivers ability not just to drive but to sort out the car to get the best performance, with none of the modern electronic control systems. Compare an 70's or 80's vintage steering wheel with todays to see how far electronics and technolgy have taken over F1. Not that it still isn't fun, just a very different type of racing. I think FormulaE has a lot of potential as well.

    • by sad_ ( 7868 )

      F1 engines are totally not suited for daily use, ofcourse it is debatable if this new Koenigsegg is suitable for daily use (but at least it is sold as a road car).
      If you watch any motorsport, you'll find all those engines produce way more power then whatever you'll find even in the most powerful car. That would be a different story if those motorsport engines also had to follow emission rules, have proper milage, durability, cheap to build, comfort, ...
      The exact is same for EV's or solar powered cars used i

      • F1 engine are suited for daily use. Simply limit the RPM to 9000 and do other changes with regards to electronic engine control, as long as it drives a road car, it could last a long time.

        • We ran an "old" F1 engine in a land speed record car.
          It was a temperamental bitch. Don't even think of starting it without preheating the oil and coolant!

        • F1 engine are suited for daily use.

          Hardly. F1 engines cannot be cold started. External heaters and pumps are used to bring the engine to up to temp. The crank is then turned with the ignition off to build up oil pressure. Only then is the engine actually started.

          Nobody wants to deal with that sort of thing in a daily driver.

          • by dwywit ( 1109409 )

            Not to mention paper-thin compression rings, and all the other components shaved down to reduce weight at the expense of life expectancy.

            Or the fact that the power they produce at 9K RPM isn't really enough to do useful work. Look up "engine power bands"

            There was a V8 500CC racing motorcycle developed by Moto Guzzi in the mid 1950s. It wouldn't even run smoothly until 8 or 9K RPM.

    • by Shinobi ( 19308 )

      Those F1 engines were also used up after that single qualifying lap(sometimes with a spectactular white cloud or flames shooting out of the exhaust, while the Gemera's 3-cylinder engine can run for quite a bit longer than that.

    • Those 80s engines had terrible turbo lag. Even F1 drivers who are the cream of the crop thought they were hard to drive. If the boost kicked while you were going around a curve, you'd spin out.
  • by olddoc ( 152678 ) on Saturday March 14, 2020 @09:18AM (#59829794)
    This is seriously interesting. Piston engines depend on intake and exhaust valves to open and close at the right time to work. At every different operating speed there is a trade off for power, torque, efficiency and emissions. If all you have is a mechanical cam to determine opening you must make all kinds of compromises. With complete computer control of the valves the car could run at the most efficient setting when the throttle is only slightly pressed. When it is fully pressed it could operate the valves for max torque. All these settings also vary depending on the operating speed. Getting max torque at 6000 RPM requires different valve timing than at 1200 RPM. There are so many variables to play around with! When a car is cold and the catalytic converters are warming up there may be different settings for the valves to ensure the cleanest exhaust. "Freevalve" is a real breakthrough if it can be made inexpensive enough for mass market automobiles. Engineers have been dreaming of complete control of the valves for some time.
    • +1.

      Most cars have variable valve timing these days but they are somewhat constrained in how they adapt to different circumstances such as rpm and load.

      https://jalopnik.com/how-varia... [jalopnik.com]

      • +1.

        Most cars have variable valve timing these days but they are somewhat constrained in how they adapt to different circumstances such as rpm and load.

        https://jalopnik.com/how-varia... [jalopnik.com]

        The engine in my car (BMW N55) has variable valve timing (VANOS) and variable lift as well (Valvetronic). This does away with the throttle butterfly - engine speed is controlled by varying valve lift. It's a pretty trick system and a sweet engine with the natural balanced smoothness of an inline six, and twin scroll turbocharged for tons of torque at low RPM.

        I like this sort of technology better than EVs personally, but to each their own.

    • More than that, you can run as a two-stroke during high RPMs, and as a four stroke at low ones, preserving efficiency and emissions while running slow, and making the most power possible at WOT. And the transition is seamless.

      • by pz ( 113803 )

        They say that 2-stroke mode is available only until 3000 RPM, because above that there isn't enough time to scavenge the chamber.

        Even more interesting that the transition from 2-stroke to 4-stroke is that they have complete computer control over the valve timing. Huh? Didn't you just say that? Let me add emphasis: complete computer control. Humans, even as designers, don't need to be involved except at the start. You let the engine run under different circumstances and allow the computer to explore the

        • They will no doubt do that on the bench, but I doubt they will do it in production vehicles. What you want in products in customers' hands is predictability.

    • by sad_ ( 7868 )

      " "Freevalve" is a real breakthrough if it can be made inexpensive enough for mass market automobiles."

      inexpensive & mass production don't really come in the picture when talking about Koenigsegg.
      but we expect this tech for us mere mortals soon now (in the next 5-10 years), well, that is if newly developed ice engine based cars will still be around by then.

    • They've been developing the technology for a while. In this video they show it fitted to an old Saab and claim it can also work on higher RPM motorcycle engines.

      https://www.youtube.com/watch?... [youtube.com]

    • Comment removed based on user account deletion
    • I see what you mean. And the many other interesting details, such as the torque converter, are just there to draw attention to the valve technology. My first thought was, what about the mileage, haha. Now I'm thinking, maybe that's where this technology will ultimately shine.

    • This is seriously interesting....With complete computer control of the valves the car could run at the most efficient setting when the throttle is only slightly pressed.

      Definitely, that's the revolutionary part here, replacing the mechanical (and inflexible) valve timing with computer controlled timing. When you read about all the ideas they have (variable number of valves, 2-stroke vs. 4-stroke operation), it's pretty clear there are a ton of possibilities here.

      I wish they'd gone into more detail how the pneumatic control works. I recall reading an article about this in Technology Review, oh, 10 years ago. That article speculated we could use solenoids but there are probl

  • I note in passing that the TFG is probably not called The Friendly Giant by the team working on it but something with a bit more ooomph. Disclosure, I have worked with Swedes and they posess a fine sense of humor.

    • I note in passing that the TFG is probably not called The Friendly Giant by the team working on it but something with a bit more ooomph. Disclosure, I have worked with Swedes and they posess a fine sense of humor.

      Hell yes. They've convinced the world Surströmming is a delicacy...

  • by Albinoman ( 584294 ) on Saturday March 14, 2020 @10:20AM (#59829910)
    Don't get me wrong, it's damn cool and it might work great for a while. But, the more parts you have the more they will break. There are a lot of fancy, high end cars that require constant maintenance or are unreliable as hell.
    • Don't get me wrong, it's damn cool and it might work great for a while. But, the more parts you have the more they will break. There are a lot of fancy, high end cars that require constant maintenance or are unreliable as hell.

      The most expensive car is a bargain priced supercar....

    • They're replacing several parts that require maintenance and are among the more likely parts to break: the camshaft drive and camshaft timing gear. I don't see the parts count rising much.
      It gets better: if one of the new parts (pneumatic actuators) breaks, it fails in a safe manner (unlike a broken timing belt which can lead to valve-piston collisions and catastrophic damage) AND the engine can keep running when one valve is out of operation.

    • They reduced parts by eliminating the transmission and camshaft.

    • Don't get me wrong, it's damn cool and it might work great for a while. But, the more parts you have the more they will break. There are a lot of fancy, high end cars that require constant maintenance or are unreliable as hell.

      And there's a lot of modern cars with all their high tech that are significantly more reliable than the old simple mechanical beasts of old. Reliability is not as simple as counting the components and complexity and crying foul. In fact the most reliable systems (systems used in a generic term now, not specific to this case) are usually orders of magnitude more complex than unreliable ones.

    • Sure but that's the whole premise of an "exotic" car - to include cool technology that makes incredible performance but is impractical.
  • The old 900 2L turbos would pin you to your seat in second gear, canâ(TM)t imagine one with this little 3 cylinder beast in it!

  • how much, and is it california epa acceptable ?
  • Here's the quote I like: We’ll get all the positives that I love in the Tesla but with another 1100hp AND 600kgs less weight. [koenigsegg.com] And incidentally, a $million or two higher price tag.

  • If they have solved this problem so well that they can have camless valves running at 8000 rpm, I'd love to see aftermarket freevalve heads for rejuvenating older engines. This would be especially valuable for marine diesels, where replacing the engine block is incredibly expensive, but improving the technology could yield a huge benefit in emissions, fuel efficiency, and power.
    • Since this uses compressed air to run the valves (like modern F1 and, I think, MotoGP), you are going to need a compressor to charge the storage if your boat sits for a while. Of course, it might be electric, but you need that reserve to crank the engine (and, maybe, light the glow plugs).

      • by Cederic ( 9623 )

        On something large like a cruise ship they could have a couple of conventionally designed diesels whose job is to make sure everything needed is present for the other three engines, which can benefit from this technology.

        That would let them benefit from the new tech for 99% of their operational activity; cruise ships tend to run on only two of their five engines anyway.

      • All the larger vessels on which I have worked use stored compressed air as the energy source for starting the larger engines. Sometimes there's a small emergency generator on an upper deck that is electric start off of a couple of D8 batteries. Usually the only pull start stuff is directly coupled to a pump for emergency dewatering or firefighting. If the boat sits dockside for a week or more, one generally keeps it connected to shore power, which runs battery chargers, air compressors, lighting, etc., as

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