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Josh, if you add twin blowers to your car, you'll end up with something that's obnoxiously wild. Big Grin

(you WERE looking for validation, weren't you?)

Fred Terry supercharged his GT5S and it was a beautiful, compact job (as I recall, he can still use the trunk insert and has stock engine covers). He's quite an engineer, and would be good to discuss the options with.

Good luck!
quote:
Originally posted by JK:
Thank you Mark!! I didn't consider supercharching.

Is Fred Terry on this board? Fred?

Josh


Josh,

Fred removed his system.

Mike

Correction: September 14, 2005

Fred is still running his duel superchargers and they are running well. After a recent cam change, he will be back to the chassis dyno next week looking for 500hp at rear wheels. The most recent POCA Profiles features his car and the magazine's rear cover to show the engine.

I may have confused this with Forest Goodhart that took out his blower engine and went with a big block.

Mike
Last edited by pantera1887
I think it would be easier to pull off a twin turbo than it would a supercharger. You don't have room in the fron of the engine to add the pulleys and in the back you would have to drive it at the flywheel somehow. If you have Turbos they use heat energy that would normaly just be wasted anyway. You would have to do a lot of fabrication of ducting, but it might be easier than fabricating a drive system. Both systems need to be plumbed for lubrication oil from the pan somehow. I am thinking of eventualy, in three years or so, doing a twin turbo thing on my low compresion moter. Of course if you run any serious boost at all it pretty well dictats an injection system. I always thought that where the screen on the engine bay is now would be a dandy location for a water to air intercooler. It would follow the air flow of the compartment. I also thought a couple of K&N filter for like the 5.0 mustangs would work well at the end of scoops for the window/rear gill areae. Of course you would have to have some reinforcement where the gills were as that is a load bearing structure. Either way it sounds like a really big job. But if done correctly, with the right engine and supporting parts, you should be able to get 1000 to 1200 reliable horsepower. That is if you belive the articles in 5.0 and hot ford magazine.
It seems like guys use Turbo's or superchargers to cure small engine syndrome. When they get done they have a small engine that will produce HP but will grenade itself if used. I see guys claiming 500hp with twin turbo's and exotic setups. You can get that kind of HP in a reliable package with displacement. I like turbos/sc but I don't see them as the ideal solution when there are better solutions for the Pantera.
Gary
Josh,

the limit is your bank account and your imagination. If you decide to do a turbo set-up, you'll be in good company. I've thrown together some pictures for you. The top pic is a Doug Cook installation from the '70s. Next is a "demonstrator" system developed by Kirk Evans in the '80s. Then following in order are the Panteras of Ron Anzalone, Euclydes Aranha, Joe Curley and Dick Koch, all taken from the pages of PI Magazine, the last 2 from the current issue.

your friendly neighborhood "blow hard", George

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Last edited by George P
quote:
Originally posted by JK:
quote:
Originally posted by http://www.PanteraPlace.com:
[QUOTE]Originally posted by JK:
Thank you Mark!! I didn't consider supercharching.

Is Fred Terry on this board? Fred?

Josh


Mike,

Oh wise one....
Why do you think Fred abandoned SC'ing?

thanks, Mike.
Josh


I happen to know for a fact that Fred Terry did NOT abandon supercharging!
He recently switched to a roller camshaft but his car was at my house VERY recently and was in fact very much twin supercharged!
Fred's car is an amazing piece !
Later,
Ron
...For what it's worth, Those Turbo systems with Very Long tubes can expect emmense 'Turbo Lag'. Keep the tubes as Short as Possible. And You Must Have an 'Intercooler' or Two. If you do Not cool the 'super heated' air charge, You will be into 'Detonation' Very Quickly! That is why when 'They' run at Bonneville; they have good sized tanks for ICE, which HElPS the Intercoolers and then, quickly melts into Hot water. Good-Luck with it!!...
quote:
Originally posted by comp2:
It seems like guys use Turbo's or superchargers to cure small engine syndrome. When they get done they have a small engine that will produce HP but will grenade itself if used. I see guys claiming 500hp with twin turbo's and exotic setups. You can get that kind of HP in a reliable package with displacement. I like turbos/sc but I don't see them as the ideal solution when there are better solutions for the Pantera.
Gary


True to a point. I would agree that a Honda 1.7L engine is a little ridiculous to be pushing 700hp (Grenade). A small block ford is a great place for a power adder like a Turbo/Supercharger. Displacement will certainly give you a good high torque motor but you can get only so many cubes out of a small block. Mind you it can still be built to produce obscene amounts of torque but to build one near what you could get out of a blown motor you would end up with something no more reliable or less expensive (Well maybe a little less expensive Smiler). A turbo motor has its merits. You can have a nasty beast under the decklid that idles and runs like a mild build under part throttle yet screams like a raped ape when so desired. Its all personal preference.
Don't get me wrong, I like the turbos, but I have seen guys boasting 500hp from turbos, and I have seen much more simple non-turbo setups with 500+ hp.

I have an example of an application I think would be good for a turbo. I am building a V6 MGB:
http://www.rc-tech.net/MGB/engine/en5.jpg
I really thought about puting a turbo on it for a couple reasons. First to go to a bigger engine would offset the weight of the car. Second, there are no good heads for the basic 3.4L. If I can get the air to go through why not blow it through.

But on a Pantera, there are so many big CI strokers which won't really effect the weight of the car that much. I think the turbos are cool and I love to see people like yourself experiment with it; especially when we can all read about that which is learned. It is just when I see a 500hp turbo set up next to a 500hp stroked Windser or something like that, I would not go turbo myself. If I was racing salt flats or something like that it would be good to get the HP up to 1000-1500hp but then your not looking at engine reliability.

I do have one question though. You require a lower compression with turbos. I would suspect it made it very streatable?

Gary
quote:
Originally posted by comp2:
It is just when I see a 500hp turbo set up next to a 500hp stroked Windser or something like that, I would not go turbo myself.
Gary


It all depends what you're after.. If you want a monster HP engine that's streetable, runs great on 93 octane, and still gets good mileage .. then a turbo/supercharger is the way to go.

Plus turbos are cooooool...but certainly not for the faint of heart.

Josh
Josh,

I will offer this suggestion because of your comment about building an engine that has good cruising gas mileage as a goal; investigate the Kenne Bell supercharger.

http://www.kennebell.net/techinfo/general-info/featuresofthekb.pdf

Build your motor around the smaller displacement fuel injected 5.0 Windsor (for fuel economy and more room in the engine compartment), and build the engine with enough durability for 18 psi boost. The Kenne Bell autorotor supercharger doesn't require an inter-cooler and doesn't produce boost at cruise, regardless of the cruise rpm. It provides boost instantaniously when you "get on it".

There is plenty of info, parts & support on this system to make it easy to build. Kenne Bell would be there to assist & size things for you. I'm sure this system (on a 5.0 motor) would fit in the engine bay & below the engine screen, but I don't think any Pantera owner has done a Kenne Bell system yet, which may appeal to you.

You could have a compact, lightweight 5.0 liter, 300 bhp, fuel injected windsor motor under the engine screen that would turn into a 600 bhp monster when you mashed the gas pedal.

your friend on the PIBB, George
Last edited by George P
I have to agree with George Pence on the Kennebell blower. That supercharger has gained a lot of respect in the drag racing world especially with Mustangs.

I drove a buddy's '03 Cobra with a Kennebell blower swap, smaller pulley's, exhaust, and computer chip- That car was mean to say the least, putting 540hp to the rear wheels and over 600hp at the flywheel. The only problem was that he broke driveshafts and had quite a bit of wheel hop forcing a change to a solid rear axle.

That leads me to the question- As pantera owners, how much power is too much with respect to busting half-shafts, zf problems, etc? There has to be some side effects of throwing on that beast, right?
quote:

That leads me to the question- As pantera owners, how much power is too much with respect to busting half-shafts, zf problems, etc? There has to be some side effects of throwing on that beast, right?


That was kind of my point. 500hp in a streatable config is easy without a blower or turbo. A turbo would be great if you wanted to make 1000-1500hp in 350-450cu engines. To do so would make it great for the drag strip but terrible for reliability and longevity. So if 500hp is easy otherwise, why go through all through all the trouble to make a 500hp turbo/sc engine with all the complication and hassle...Other then of course it's cool (which it is). If this set up has consumed the engine bay, what use is it?

I don't mean to be negative here.

My brother pulls up at the drag strip with a 600+hp stock looking Cobra Replica. He blows the doors off guys with blowers all the time (sure not every time). It is funny to see him pull up next to a car with a huge blower sticking out, monster tires, traction bars, lumping along, they get him in the start and he passes them before the end.

When I started looking at some well built engines, a 500hp engine with a huge blower on it or twin turbos just didn't seem right. Sure they are toned down so the engines will last. They should be 1000-1500 set ups or more but they would be re-building the engines after a couple runs.

Gary
MC72,

Regarding the Pantera drivetrain, Lloyd Butfoy has confidence to warrant his ZF rebuilds for one year at 550 bhp, 500 ft/lbs. I think the spicer half shafts & billet axles will survive even more than that. That kind of power requires a clutch upgrade as well.

The cooling system of the Pantera, even an upgraded one, has problems dealing with more than 500 "continuous" bhp due to the limited size of the radiator. I used the word continuous, because a short blast here and there won't tax the cooling system. For continuous use, you need to cool the motor oil as well, and the zf should also receive an oil cooler & circulation system.

Gary, I could build a 600 bhp engine to be reliable, whether that engine was large displacement and naturally aspirated OR smaller displacement and blown or turbo charged. I think the issue of reliability reflects the knoweledge, skill and budget of the engine builder.

I'll stick my neck out and write this: for Pantera applications, a blower makes more sense to me than a turbo because it will introduce less heat into the engine compartment; because its more compact and fits the engine compartment easier; and because I associate the Pantera's performance with low rpm, snap your neck, off the line burst type power, which blowers are so good at. That type of power will intimidate more "stop light" opponents and win more "stop light" races. Not that I advocate such behavior, mind you! Wink

I do not mean to imply that anyone who has installed a turbo charger on their Pantera has made an "inferior" choice, OK?

There is one problem in choosing a super charger, where to fit the blower drive belt. The blower installs I have seen have driven the blower at the rear of the engine, either via a jack shaft, or by driving it off the flywheel. But it should be possible to do it in front of the engine if a person were willing to modify the front engine cover, i.e. the bubble that protrudes between the seats.

your long neck friend on the PIBB, George
Last edited by George P
quote:
Originally posted by george pence:
Build your motor around the smaller displacement fuel injected 5.0 Windsor (for fuel economy and more room in the engine compartment), and build the engine with enough durability for 18 psi boost. The Kenne Bell autorotor supercharger doesn't require an inter-cooler and doesn't produce boost at cruise, regardless of the cruise rpm. It provides boost instantaniously when you "get on it".



George,
After your posts, I'm starting to like the SC route quite a bit. I'm not stuck on yester-year so changing my 351C to a new engine is definitely open.

What do you think of a 4.6 instead of the 5.0? More advanced... ??

Thanks,
Josh
Josh,

I have no experience with the 4.6 mod motor, but I can make a few comments. Nothing is impossible, it really boils down to how expensive & difficult you want to make the project.

The DOHC mod motor is very wide and tall, and fuel injection conversions using that motor are not as easy as they are with the Windsor motor. The DOHC motors are also expensive, Pantera conversions to the DOHC motor, naturally aspirated, normally run the owners $20K and up (way up).

If you are building a blown motor, the expense of the DOHC motor is probably unnecessary. The SOHC mod motor is cheaper, but verticle height (limited in the Pantera) will still be a concern, especially with a blower sitting on top; and the fuel injection conversion will again be more difficult (compared to the 302 conversion). Headers for either mod motor will most likely be custom made ($$), I'm not aware of any available off the shelf.

On the positive side, the mod motors are shorter than the Cleveland / Windsor V8s, they leave more room for a front mounted blower drive. If my memory is reliable they have the same bell housing bolt pattern as the Cleveland / Windsor motors. I forget if the motor mount bolt patterns & location are the same. (Its a pain in the butt getting old) Finally, I'm not sure how much power they can sustain before they start cracking somewhere, you would need to check with an experienced builder before progressing too far into the project. It would be of no use planning a 600 bhp motor with a block or reciprocating assembly that develops problems at 550! The mod motors are smooth running oil tight motors, the DOHC version has a lot of power potential naturally aspirated, it can be hot rodded to make way more than the 320 it made in the Mustang, I understand it is capable of approx. 100 bhp per liter (460 bhp). I must say, a 460 bhp naturally aspirated mod motor would be a nice, modern, package in a Pantera. However, at $20K plus, it would be possible to attain more power for way less money. Like Jerry's 427 viper spanker making over 500 bhp for $10K. The fact that it has 4 cams and 32 valves will still appeal to some.

The 5.0 is still more popular among Mustang owners for performance upgrades. This is the most common engine for fuel injection conversions to older vehicles, using the '89 to '93 Mustang (EEC IV) enigine management computer. It is also Ford's most compact V8 engine in width & height. More parts and information are available for working over this motor. The 302 is also cheaper to acquire and hot rod. For a 500 to 600 bhp motor I would utilize an aftermarket block (i.e. Dart, World or FRPP) and a forged steel crank (sportsman crank). Since headers are available off the shelf for the 351W conversion, I'm assuming it would be possible to modify a set for the 302 application (a little heat & force applied at the right location!).

A fuel injected & blown 302 sitting in a Pantera engine bay, making 550 to 600 bhp, sounds BITCHEN. I mean totally BITCHEN.

Not that I want to sound enthused or anything.

So many choices, huh? They are all good choices! I would start by defining a budget and a power goal, that will help you eliminate some of the choices.

your power hungry friend on the PIBB, George
Last edited by George P
quote:
Originally posted by comp2:
Don't get me wrong, I like the turbos, but I have seen guys boasting 500hp from turbos, and I have seen much more simple non-turbo setups with 500+ hp.

I have an example of an application I think would be good for a turbo. I am building a V6 MGB:
http://www.rc-tech.net/MGB/engine/en5.jpg
I really thought about puting a turbo on it for a couple reasons. First to go to a bigger engine would offset the weight of the car. Second, there are no good heads for the basic 3.4L. If I can get the air to go through why not blow it through.

But on a Pantera, there are so many big CI strokers which won't really effect the weight of the car that much. I think the turbos are cool and I love to see people like yourself experiment with it; especially when we can all read about that which is learned. It is just when I see a 500hp turbo set up next to a 500hp stroked Windser or something like that, I would not go turbo myself. If I was racing salt flats or something like that it would be good to get the HP up to 1000-1500hp but then your not looking at engine reliability.

I do have one question though. You require a lower compression with turbos. I would suspect it made it very streatable?

Gary


I will let you know next year but considering the motor has a low compression as well as a low overlap cam it should be fairly streetable.
Just my 2 cents (Canadian), but I am quite happy with the 525 hp from my nicely behaved, easy driving stroked original 351C block with some nice simple parts. A few years ago I tried to convince the builders to try a supercharger, NOS, turbos - you name it. They rolled their eyes at all such ideas and were probably right.

My 4.6 Cobra is supercharged (Vortech) and intercooled. It runs great (most of the time) and although it used to outrun my Pantera, before I rebuilt the motor, it's not even close anymore. For a low boost daily driver the resulting difference was very limited.

Big bucks and a lot of plumbing hardly added much to my 4.6 experience - at least nothing I can find when racing from stoplight to stoplight against non-blown Mustangs. And older 5.0 Mustangs regularly blow my doors off.

I have been convinced that there are easier ways to unleash the violent monster beneath your right foot.
quote:
Originally posted by george pence:

A fuel injected & blown 302 sitting in a Pantera engine bay, making 550 to 600 bhp, sounds BITCHEN. I mean totally BITCHEN.

George, first let me say you have more engine experience then me hands down! But I do disagree to some degree but that disagreement mostly lies in displacement Vs power output. I am assuming we talk of “stretable” engines probably even used occasionally at a track be it a local drag strip or a couple laps around a road course. Much of this I gain from the immense wisdom of by brother (who also is far smarter than I even though I look a lot better than he!). As I have said before he is running a 460 with aluminum heads getting gobs and gobs of power. His last major track event he was lapping ALL the turbo Lotus’s and most (not all) of the other Cobra’s. He took his car to several track events and what he has learned is, the guys with the turbo Lotus never make it back 2 years in a row. A couple of them blew their engines at the track. The guys with 302’s strung out rarely finish the week without a blown engine and never make it back the second year without a re-build. This is all fine for Racing. That’s what you do. But guys building Pantera’s (not racing Pantera’s regularly like say Dennis Quella) don’t want to re-build their engines on a regular basis.

Now a lot of guys at hot rod shows will tell you their engine Dynoed at 700hp bla, bla, bla. Often this is true and often these guys show up year after year at the same show BUT they never use the engine so to speek. They cruise around, park the car and that’s as hard as they push it. That’s all great for cruising but I don’t believe that is the mold that most Pantera guys fit into. I think they want to drive it at the track and take it out for dinner that night. I mean that is my goal at least.

I think everyone has a basis for their philosophy but my philosophy goes something like this.
-More cubes
-Lower Rpm
I think the best example and most extreme are the top fuel dragsters. Look at the power per cubic inch they run. The engine torn down after every run and pretty much thrown away after 10 runs.

The Pantera is made for a descent size engine. I don’t think there is any reason to limit it to a small engine and turbo it to make it run. Second, while big blocks are heavy, there are stroked Windsors and such getting cubic inches without the added weight. On top of this the aluminum heads give us some real weight savings.

As far as Overhead cams, this is far advanced from our traditional valve train no doubt BUT (the but word again) if your rpms are not exceeding 6K + rpm, they are not needed. If you run a big engine with lot’s of power and keep the rpms down, there is no need to go with a complicated and heavy overhead valve setup.

But that’s just my little opinion.

Have a great day, Gary
The thing I've seen the most when going naturally aspirated is no matter what block size is chosen, the temptation to stroke and poke it to maximum capacity is too great! People just tend to go to the ceiling with whatever their combo is because it usually dosn't cost that much more to do so. Then they wring it out and it makes any engine a grenade waiting for it's pin to be pulled. Maybe that's just the people I've known, but I've found that mentality to be quite widespread.

Michael
Ahh...guys!

Where to start? Confused

Let me say this, I don't disagree with any of you! And no, I'm not trying to straddle a fence! Most mechanics are highly opinionated, everyone else be damned type personalities. I'm no different. That kind of came through a while back Gary when I tried to talk you out of the 400 project. But your stubborness reminded me of something I learned long ago when asked to advise other people about their idea for an auto project, each project is a work of "automotive art", and is therefore something "personal" for that person. You reminded me to be supportive and keep my "opinions" to myself. Doesn't mean I wouldn't warn somebody if there is a glaring problem with their idea, sure I will. But, using Gary's situation as an example, he didn't want me to try and steer him in a different direction and abandon his vision, no, he just wanted support, the benefit of my experience in helping him to achieve HIS vision, and create HIS automotive work of art.

That's how I approach each person's post regarding Pantera engines on the PIBB. I'm a gear head, anything that goes fast excites me, I can appreciate each finished project as a person's expression of their creativity. It may not be "my" vision of how it should be done, but it's not supposed to be! They may build a certain engine and decide afterwards there would have been a better way to do it, but like most of us, they have to learn that for themselves, you can't tell them.

Michael, the whole issue of stroking engines has become popular because of the inexpensive castings & forgings coming from China, making the kits affordable. Before the advent of the Chinese parts, stroking an engine was for most budgets a matter of using the crank from another engine or offset grinding the oem crank. New forgings, like those sold by Hank the Crank, were too expensive for most budgets.

But even so, off set grinding the Cleveland crank (3.70"), and installing sbc rods (6.00") was popular, even in the seventies, because the extra piston speed makes the big horsepower potential of the 4V heads available at lower rpm. Some people also believe that small increase in piston speed improves the low rpm response of engines equipped with 4V heads (stemming from the "the port is too big" outlook some have). So in the case of the Cleveland, there are some very good reasons for stroking the motor. The Cleveland can be stroked to 3.75" with a 6" rod and keep the wrist pin out of the oil ring groove, still have enough room for a reliable ring package, and still have a 1.6:1 rod length to stroke ratio. With a 0.030" overbore, that gives you 383 cubic inches, which really gives the Cleveland a boost in low rpm torque and available horsepower at 6000 rpm. Piston speeds out to 6500 rpm are still reasonable.

Gary, your experience with autos is every bit as valued as mine! I don't disagree with you at all that big engines in lightweight cars makes for a lot of fun! And tickets! That was the formula when I was growing up. But folks who grew up in the 80's grew up with turbo mania, and those in the 90's grew up with blower mania and 4 cams! I was serious when I said I can build a 600 bhp small block Ford that is relaible, but notice right away I mentioned Josh needs to build that around a stronger block & crank. David, as far as the power is concerned, did you notice how much boost I specified? 18 pounds. Speed costs money. Its a matter of building an engine "beefy" enough to survive what you plan to do with it. If a car is breaking down at the drag strip, its a reflection of the mechanics experience, skill and budget; not necessarily the owners choice of engine. I'm not talking pro-stock where the limit is being pushed each pass. You can't build something strong enough to survive that, because if you increase the limit, they'll just push harder, make sense? Not every blown Mustang is breakng down either, you're not noticing the ones that don't break. I'm sure there are some guys building them right. If they all broke down, nobody would still be doing it! And your brother's success on the track has as much to do with his experience as a driver and his chassis set up as it does his choice of power. I will not argue with you that big cubes are a good formula for horsepower, but I will argue with you if you insist it is the only way. It's your passion, but it doesn't have to be Josh's. You never know, maybe some day Josh will feel the same way you do, but for now, he thinks smaller displacement super charged engines that make big power but give good gas mileage are the way to go.

My recommendation for Pantera motivation? I've written before on the PIBB, I'm a Cleveland fan, this small block Ford really shook up the racing circuits when it came on the scene, NASCAR teams were racing them against 7 liter big blocks and making competitive power, NHRA strapped Cleveland equipped cars with a weight penalty in the name of keeping the racing "competitive" for the fans, in other words, Chevys didn't have a chance! When NASCAR downsized the engines to 358 cubes, the Ford guys, all running Clevelands at the time, had to run restrictor plates for the same reason, because the poor Chevy guys couldn't keep up! LOL! Panteras with Clevelands in them made V12 Ferraris look like they were stalled on the track back in 1972! (until the oil starved wet sump motors broke that is) Have you ever read how Herbert Mueller humiliated the Porsche team with his Pantera at Hockenheim? He led the entire race start to finish, he even stopped and drank a beer, his lead had been so great he re-entered the track still in the lead. Isn't that a Bitchen story?

My recommendation for a max performance engine would be a 383C with 4V quench chamber heads, a dual pattern hydraulic roller cam with approximately 285/295 degrees advertised intake/exhaust duration (230 degrees intake duration at 0.050), or a single pattern hydraulic roller cam with approximately 290/290 degrees advertised intake/exhaust duration (236 degrees intake duration at 0.050), opening the valves approx 0.550" to 0.600" off their seats, about 62 degrees overlap, 10.0 to 1 compression ratio, a better exhaust system, a modern ignition (Ford Duraspark I, Ford EDIS-8, Electromotive, etc), the Blue Thunder intake, a 750 Holley clone with annular boosters, and a GTS exhaust. That's all the motor I think is reasonable to have in the Pantera. If it is desired to modernize the car's performance a bit, then I'd opt for a fuel injection system instead of the Blue Thunder & Holley carb. Taking no short-cuts this is potentially a 500 bhp motor, which I feel is a good "limit" to set considering the ZF's limitations, the cooling system's limitations, and the Cleveland block's reputation for cracking when pushed hard. This is a stock looking engine with a docile powerband, it fits under the engine screen, it will go when asked to go, and never embarrass you. I defy a small block chevy owner or a small block Mopar owner, running the best set of 30 year old heads they can scrounge up, to build such a motor.

But because I've made that recommendation doesn't mean I'm not enthused about Gary's 434 build up, or Josh's idea to run a blown motor, or whatever Steve & Mark decide to do. I'm there with you guys, I'll offer any support I can! My only question is, when do I get to go for a ride!?! Wink

your friend on the PIBB, George
Last edited by George P
I agree. Geaorge should write a book. I would buy it.
George, you are a automotive genius. So here is your next assignment. I think the weakest link on our motors is the stupid valve train. I bet our engines would turn over ten grand if it wasn't for those stupid valves having to go back and forth that way. I want you to design me a rotary valve system that can spin way faster than ten thousand RPM. Wink
DeTom,

Thats been tried, engineers had a hard time with the exhaust valve, it got too hot & failed. F1 cars are already turning 18,000 rpm or something like that, just copy their system! No need to duplicate effort.

BMW has developed a solenoid operated valve actuator that elimates cams, cam followers, etc; does it all electrically.

Besides I'm retired from working on cars other than my own, and I hardly want to do that! But I'll tell you what I will do! I'll drink buttery nipples until I make the room spin 10,000 rpm! Eeker

your dizzy friend on the PIBB, George
I believe they are still 3.0 liter V10 engines with standard valves actuated by nitrogen, not springs. Thats only 300cc per cylinder (a Cleveland is 720cc per cylinder). Running exotic fuels making over 300 bhp per liter. A short stroke, lightweight crankshaft; a lot of exotic, lightweight materials; high temp coatings; low friction coatings; precision machine work. Every rotating part lightened & balanced to perfection. Every operating parameter monitored by sensors & analyzed in real time. The on board engine management system is running extraordinary adaptive software, and allows the pit crew to both monitor and make adjustments remotely during the race.

I tried to find an exploded view on the internet for you but came up empty handed.

They used to run about 12,000 rpm until the nitrogen actuated valve gear allowed them to make the jump to 18,000 rpm.

I'm still at work, time to jump in the Pantera and head home at about 3000 rpm! LOL

I have a buttery nipple waiting for me! Maybe tonight would be a good night for the hot tub, what do you think?

enjoy your weekend my friends, George

Doug, I'll call you this evening!

Mark 5835, aka Mark M, I'll take you up on that offer!
Last edited by George P
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