I was discussing the engine layout of a Porsche motor in a horizontially opposed configuration and the question came up on which engine configuration produced the most HP/liter and why? I know that an advantage of a Porsche motor is that the center of gravity is really low, but does its configuration have any power advantages when compared to say a 90 degree V6 or an straight 6? For simplicity, lets keep the discuss focused on normally aspirated motors. What are you thoughts and why?
-Britain
Torque is more or less fixed by engine size and breathing ability, and horsepower is torque x rpm, so if engine size is fixed, you get maximum power by spinning it as fast as possible, modifying as you go to get it to breathe best at engine speeds the rest of the parts will allow without breaking apart. Since you lose mass far faster than strength as you make parts smaller, this argues for many small cylinders rather than a few big ones. So, a short-stroke V12 should make a lot more HP at peak than, say, a six of equal capacity, simply before the lighter pistons and rods will allow higher revs because you run up against parts breaking, and higher revs with equal torque means more power.
Eventually, you hit a limit where things like the increased bearing area of a 16-cylinder engine generates so much additional friction that you simply don't see much gain over a 12.
The layout of the parts (inline, vee, boxer, W, H, whatever) are usually dictated by other factors, like packaging. Vee engines tend to be fairly compact overall, so they work well in engines with many cylinders. The VW W engines take the same idea another step farther. As long as the layout doesn't cause harm, esp. for high revs, then it's not really all that important to power production. Renault recently tried to make a wide-angle V10 work, as a flat-10 has aerodynamic negatives (engine and exhaust hang into the underbody airstream), but a 90d V10 has a higher CG. The 115-120 degree engine, however, had serious vibration problems, and problems with block rigidity, so it ultimately didn't work.
The friction/speed balance is going to depend a lot on the strength of available materials. 10 years ago, Ferrari were alone with a V12 in a field of V10s in F1. The V10s could spin fast enough that the additional size, weight, and internal friction of the V12 pretty much cancelled the rpm advantage (at that time, about 16K rpm). Next year, rules dictate V8s, so they're planning on running that at 20-21K rpm using better (more expensive) materials than they used in 1995, in order to reduce the power loss from dropping the size from 3.0 to 2.4 liters. So much for reducing costs (which the rule was intended to do).
A six is better than a four, troll.
M
I believe the current Rx-8 makes about 238 HP @ 8500 rpm from just 1.3L I think that little bugger has this contest beat. It has a redline of 9000 rpm!
But not too much torque though,,
Just gotta keep the car light.
I am not an engineer and cannot add much to what has been said, except that I have read somewhere about vibration effecting the need for mass to counter-act the vibration, such as heavier components or balance shafts etc. I think I also read that in theory, the rotary, such as used to be used in aircraft was theoretically the design with the least inherent (spelling) vibration, and had a very short crankshaft, and all said and told offered the most power with the least weight.
However rotaries were only used in a few automobiles because of frontal area requirements.
I think that horizontally opposed, or boxer engines, were the second best layout again because of lack of inherent (sp) vibration. Therefore they have also been widly used in aircraft.
Dr. Porsche selected the horizontally opposed layout for those reasons. According to Ferry Porsches biography, both he and his father were advocates of air cooling because of the power per pound advantages of air cooled vs liquid cooled engines, and the ability to tune them more accruately for maximum power output, because of their tendency to operate at a more consistent head temperatue. They even designed air cooled engines for armored tanks.
It has someting to do with the angle of the crankshaft in relationship to connecting rods at the moment of the power stroke of each piston.
I would like to hear other imput, from those of you with an engineering background.
Long live air cooled horizontally opposed engines. Someday we may have to use aircraft engines in our 914s to maintain the "faith".
QUOTE (Rotary'14 @ Aug 25 2005, 04:06 PM) |
I believe the current Rx-8 makes about 238 HP @ 8500 rpm from just 1.3L I think that little bugger has this contest beat. It has a redline of 9000 rpm! But not too much torque though,, Just gotta keep the car light. |
QUOTE (lapuwali @ Aug 25 2005, 03:40 PM) |
this argues for many small cylinders rather than a few big ones. So, a short-stroke V12 should make a lot more HP at peak than, say, a six of equal capacity, simply before the lighter pistons and rods will allow higher revs because you run up against parts breaking, and higher revs with equal torque means more power. |
I believe that a radial engine is the most powerful air cooled engine, if you take into consideration RPM, single row has only one connecting master rod, smooth operation, low rotating weight per displacement!
Not very practical for a car!
My two cents!
Bill
QUOTE (Rotary'14 @ Aug 25 2005, 04:06 PM) |
I believe the current Rx-8 makes about 238 HP @ 8500 rpm from just 1.3L I think that little bugger has this contest beat. It has a redline of 9000 rpm! But not too much torque though,, Just gotta keep the car light. |
Another 2 cents worth.
V configuration engines have to be designed with a certain number of degrees between cylinder banks, or vibration increases dramatically, and therefore the need to have balance shafts or even a brace the engine to the car itself.
For example, a 6 should have 0 (ie inline like BMW), or 60, or 120 or 180 (horizontially opposed) between cylinder banks. That is why my buick v6 which had cyl banks at 90 degrees (GM just cut two cylinders off of a v8 to save tooling costs) had a big brace between the engine and the chassis (to keep the engine from shaking itself apart). Likewise my ford tarus (yea a ford tarus, shhh!!!) (no caps on purpose)
A 2 cylinder shoud be 0 or 90 or 180 degrees. The reason a Harley sounds like it does and ha rumps - ha rummps along, is because its cylinders are at some odd and incorrect angle, but if they fixed it, it would not be a Harley, and even Honda (who really knows how to build engines) copied the wrong angle in their Harley clone. The other reason they sound like they do is because they have pistons like 2 pound coffee cans. Anyone grow up on a farm and remember the 1 cylinder John Deere tractors with I think like 6 or 8 inch bore. Remember the comment above about piston mass!!!!
An 8 cylinder should have 0 or 90 or 180 degrees between cylinder banks.
A 10 is something else, and a 12 is still different, BUT they will ALL balance better at 0 or 180 degrees.
As I understand it, the ONLY advantage of a wankel is that is vibration free. Everybody other that Mazda who tried to build one (including Merc.) gave it up as no good. Even Mazda gave up except for the "sports car", (it rook rike spots ca)
Horray for horizontally opposed (180 degree) AIR COOLED engines.
by the way, electric power generators are motors. Internal combustion power generators are engines!
QUOTE (flesburg @ Aug 25 2005, 06:35 PM) |
by the way, electric power generators are motors. Internal combustion power generators are engines! |
easy answer.... the one that is engineered to run at the most efficient peak power level [do you want longevity, short term power like the 8,000hp top fuel]
but i think the best power config has to be gas turbine. 0 vibration, low weight, great fuel effiecency for the power output. and reliablity
Don't forget VW's VR6, with 35 degrees between staggered cylinders. It has nothing to do with this discussion, but just don't forget it.
the worst engines in my experience balance wise is the Jeep inline series engines....
they are bullet-proof....OHV and strong engines (i had a 2.5L I4)
but the balance is horrific.....even with the harmonic balancer it was like chattering my teeth.....
i miss that jeep. until i fill up my 914 for $26...
Inline motors tend to make good tq, and are arguably the longest lived. They have a main bearing in between each and every rod bearing, where boxers and v's have 2 rods per main.
i'll agree with that...i have friends that have over 300K on thier 2.5L engines without a problem at all...
QUOTE |
I believe that a radial engine is the most powerful air cooled engine |
QUOTE (Crazyhippy @ Aug 26 2005, 01:12 PM) |
... They have a main bearing in between each and every rod bearing, where boxers and v's have 2 rods per main. |
QUOTE (Crazyhippy @ Aug 26 2005, 09:12 AM) |
Inline motors tend to make good tq, and are arguably the longest lived. They have a main bearing in between each and every rod bearing, where boxers and v's have 2 rods per main. |
good insight james.
I want to add one thing about the rotary... it may have already been said, but the engine is Very efficient... part of the reason is it takes only 1 rotation to complete a cycle, whereas piston engines require 2 rotations...
the rotory engine fascinates me
QUOTE (tat2dphreak @ Aug 26 2005, 02:56 PM) |
I want to add one thing about the rotary... it may have already been said, but the engine is Very efficient.. |
Rotary engines actually have terrible thermal efficiency, which is why they get such sucky gas mileage. Mazda was nearly bankrupted when they first introduced them just in time for the 1973 OPEC oil embargo, which raised world oil prices by 80% almost overnight.
The main reason they have such bad thermal efficiency is the "combustion chamber" takes up the entire inner wall of the rotor housing. Because its so spread out, quite a bit of the energy in the gasoline goes to heating up the housing, rather than being used in propelling the rotor around the crank. A huge amount of the energy also ends up escaping out of the exhaust, easily seen by looking at the sky high EGT figures on any rotary. Combustion never really quite completes on them, so HC figures are also extremely high (the second nail that nearly did in Mazda in the early 70s).
Rotarys are efficient in terms of power for their overall size and weight, but for efficiency in terms of how well they extract energy from their fuel, they suck big rocks.
QUOTE (ArtechnikA @ Aug 26 2005, 11:02 AM) |
VW TDI engines actually have issues in the cold - they don't make enough heat to warm themselves to "operating temperature." |
QUOTE (flesburg @ Aug 25 2005, 04:11 PM) |
...the rotary, such as used to be used in aircraft was theoretically the design with the least inherent (spelling) vibration... |
It wasn't the vibration that caused the landing crashes. It was the enormous gyroscopic effect of that huge mass spinning at the front of a very short and light airframe. If you banked the plane one way, the nose would climb rapidly, if you banked it the other way, it would dive rapidly. If you pushed the nose down, it would bank violently. Pull it up, and it would bank the other way.
Plenty of novice pilots died trying to turn shortly after takeoff, and finding the plane either nose down, or nose up so much it stalled, because they forgot to apply opposite elevator and rudder to compensate for the gyro effect.
Concerning rotary engines, I feel that mazda has come a long way in regards to the refinement and evolution of the engine. Mazda's latest rotary engine uses an idea that has been around since the 70s (in regards to port design/layout) but efficient fuel control took 30 years to make the idea a reality. Remember the rotary engine is merely an adolesent compared to the piston engine designs that have had over a century of developement. I bet new coating technology would likely help the rotary engine in it's later developement.
On a side note my beloved rotary engine has attributes that make it a good candidate for a hydrogen IC engine. So the engine might be as common as the piston engine in a hydrogen powered future.
Don't get me wrong now, I do not want this to turn into a rotary is better than everything kinda thread.
I think piston engines are marvelous too, really!
Is anyone else who's reading this thread thinking lapuwali and Artechnika are twins that were separated at birth?
QUOTE (Rgreen914 @ Aug 26 2005, 09:32 PM) |
In WWI, the French Nieuport airplane |
the majour problem with the rotors is that when they are out of the power they use more fuel than a v8 ,however when in the power they use the power
in a peripheral port
ie 0-7000rpm fill up the car behind
7000-14000 they will use the fuel
they also have a low centre of balance as with a boxer
my theory which i have also experienced is that a rotor is not much good without a bug huffer
at the end of the day u use what you want for your given purpose
QUOTE (Britain Smith @ Aug 25 2005, 03:16 PM) |
I was discussing the engine layout of a Porsche motor in a horizontially opposed configuration and the question came up on which engine configuration produced the most HP/liter and why? I know that an advantage of a Porsche motor is that the center of gravity is really low, but does its configuration have any power advantages when compared to say a 90 degree V6 or an straight 6? For simplicity, lets keep the discuss focused on normally aspirated motors. What are you thoughts and why? -Britain |
QUOTE (bd1308 @ Aug 25 2005, 08:11 PM) |
the worst engines in my experience balance wise is the Jeep inline series engines.... they are bullet-proof....OHV and strong engines (i had a 2.5L I4) but the balance is horrific.....even with the harmonic balancer it was like chattering my teeth..... i miss that jeep. until i fill up my 914 for $26... |
QUOTE (Rgreen914 @ Aug 26 2005, 06:32 PM) | ||
In WWI, the French Nieuport airplane (nick-named "Baby", for its diminutive size) had a radial design engine but it was referred to as a "rotary" because the whole damn engine spun around with the propeller! The exhaust poured out from the cylinders in a cloud and later, a shroud was developed which covered about 75% of the upper area of the engine; this shroud directed the smoke out the bottom of the engine and away from the pilot. These aircraft apparently suffered a number of landing crashes due to excessive vibration combined with their abbreviated length! Film of these aircraft displayed the most bizarre idling qualities and the engines often sounded as if they were intermittently being switched on and off! Some other models of Nieuport aircraft also shared this engine. Ron |
hmm.
so the only engine Jeep really does have is the 4.0L /6 ?
In my original reference to a rotary engine, I was not refering to the goofy WWI french engine that had the crankshaft rigidly mounted to the aircraft frame and the engine housing mounted to the propeller, which ment that the entire engine casting spun around with the prop, but I am refering to the rotary engines commonly used in most all commercial aircraft until the age of the turbojet. They were made by many manufacturers like curtis-wright. Look at a B17 or B29 or most Navy fighter craft of WWII.
Sorry I brought it up, but I only did to point out the of all internal combustion piston engines ranked from a standpoint of vibration and theoretical lightness of weight,
best to worst designs;
best: rotary (only found in museums, I think)
next best: horizontally opposed (still used in lighter piston engined aircraft)
in the middle: v engines with the "proper angle" between cyl banks
least best: a v engine with incorrect angle between cyl banks, like my ford 3.1 v6
We certainly got off on a tangent. Sorry I brought it up.
QUOTE (jonwatts @ Aug 26 2005, 11:30 PM) |
Is anyone else who's reading this thread thinking lapuwali and Artechnika are twins that were separated at birth? |
Uhh... yes someone has..
I know this naturally aspirated rotary made 700 hp. Not bad for such a small powerplant. Here's a bit of Porsche trivia - it was hooked up to a Porsche tranny on the Mazda LeMans car.
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