2-stroke diesel is the (near) future?

Stuart & Kathryn Fields wrote:
We own a 2003 Jetta TDI and it poops out before it gets to 4500.
However, it
goes uphill at 80mph gaining speed at around 2500RPM. BTW. Hp=
Torque X
RPM. If your 100hp engine peaks at 2500 rpm and your 200horse engine
peaks
at 7500 rpm, the 100hp engine has to develop 1.5 times more torque
than your
200hp engine at the peak hp rpm.

--
Stuart Fields
Experimental Helo magazine
P. O. Box 1585
Inyokern, CA 93527
(760) 377-4478
(760) 408-9747 general and layout cell
(760) 608-1299 technical and advertising cell

www.vkss.com
www.experimentalhelo.com


"Steve" wrote in message
...
Sport Pilot wrote:

Steve wrote:

Sport Pilot wrote:



Diesel fuel is not conducive to high speed running. Nor is a
long
injection period through much of the expansion phase. Yes you
can
boost the turbocharger and the other things, but an Otto cycle

engine

will respond with even higher speeds. Parts failure from speed
is

not

a problem with diesel engines, the rotating parts have to be
bigger
than an otto engine because of the higher compression, yet the
otto
engine will turn higer RPM's with smaller parts.



All of the above is true in the common practice of diesel design,
but


none of it is necessarily true. There is nothing FUNDAMENTAL that

limits

a diesel to low-RPM designs only. One can build a screaming
high-RPM
diesel with light-weight rotating parts, but one would have to
ask
"why?" Gasoline engines are made high-revving in order to
increase

power

output from a small package, but diesels can develop a lot more

low-RPM

torque through high boost because they don't detonate when
"lugged,"

so

there's no NEED to make them scream. If you need more power,
don't

spin

them faster, just boost them harder. High RPM is an aggravation,
not

an

advantage (no matter what Honda VTEC drivers think...).



Actually diesels don't really deliver that much torque at similar
speeds. Ok they do but only because the valving is timed for the
slower speeds. Many gasoline tractor engines will diliver
similar
torque, but with a higher fuel consumption due to the lower
compression
ratio.

It depends on what you're comparing to. A lot of tractors use
normally-aspirated indirect-injection diesels, which are no
comparison
to a turbocharged diesel. Or to a good normally-asipirated gasoline
engine, except in terms of longevity. Gasoline engines are hard to
beat
for the *width* of their torque curve, but modern turbo-diesels do
a
good job against them, and do so with better efficiency.

Diesel fuel burns slower and will knock when the injection
timing is shortened to allow higher speeds.


Higher speed requires more than just rapid injection, it also
demands
higher boost pressure, which causes the fuel to burn faster without
any
knock-like phenomenon. All serious diesels are turbocharged for
that
reason (as well as others), and normally-aspirated diesels are
limited
to very small power outputs and relatively low efficiency. You can
only
get so much combustion chamber pressure through the compression
ratio of
the engine- the rest has to come from forced induction. As someone
pointed out earlier, the VW TDI develops power up to 4500 RPM,
which is
comparable to many gasoline engines, but it is able to do so only
because it is a turbo-diesel. As I said before, there's no reason
that
building a 7000-RPM diesel isn't possible, but there's no REASON to
build one.

I think most of us know that torque is only a force and you need speed
(RPM) to develop power. More speed is more power. Or was there some
other point you are trying to make?

Sport Pilot wrote:

I think most of us know that torque is only a force and you need speed
(RPM) to develop power. More speed is more power. Or was there some
other point you are trying to make?



II think the point is that there are TWO ways that do an equally good
job of increasing power. More TORQUE is more power too.

Since power=K*Torque*RPM, the result is that if you hold the speed
constant and double the torque, you get double the power. There are
diesel engines in this world that develop 20,000 horespower at only 150
RPM. Naturally, the torque value is astronomical. No, they don't fly.
;-) They swim.

Steve wrote:
Sport Pilot wrote:

I think most of us know that torque is only a force and you need
speed
(RPM) to develop power. More speed is more power. Or was there
some
other point you are trying to make?



II think the point is that there are TWO ways that do an equally good

job of increasing power. More TORQUE is more power too.

Since power=K*Torque*RPM, the result is that if you hold the speed
constant and double the torque, you get double the power. There are
diesel engines in this world that develop 20,000 horespower at only
150
RPM. Naturally, the torque value is astronomical. No, they don't fly.

;-) They swim.

Why the obvious apple and orange comparision? I can show you a model
diesel engine of less than 1/2 cubic engine that turns about 10,000
RPM? So what. A large engine is going to turn less RPM because of its
rotation mass. You need to compare engines of equal size. The model
diesel engines will not turn as fast as the gas or methanol/nitro
engines because the fuel (ether and kerosene) will not burn as fast.
But they will put out more torque than the other two types, though only
marginally more than gasoline. This is because the fuel burns slower,
not because of the cycle, because all, the spark ignition gas engine,
the glow plug methanol/nitro engine, and the compression ignition
engine, are actually otto cycle engines.

Sport Pilot wrote:

Why the obvious apple and orange comparision?

To refute the statement that "more speed is more power."

You need to compare engines of equal size.

OK, Lets do it!

Dodge 5.9 Liter v8 gasoline engine: 230 horsepower at ~5000 RPM

Compared to:

Dodge/Cummins 5.9 Liter turbo-diesel engine: 325 horsepower at 2900 RPM


More speed is NOT more power any more than more torque at the same speed
is more power.

Steve writes:

Sport Pilot wrote:

Why the obvious apple and orange comparision?


To refute the statement that "more speed is more power."

You need to compare engines of equal size.


OK, Lets do it!

Dodge 5.9 Liter v8 gasoline engine: 230 horsepower at ~5000 RPM

Compared to:

Dodge/Cummins 5.9 Liter turbo-diesel engine: 325 horsepower at 2900 RPM


More speed is NOT more power any more than more torque at the same
speed is more power.

uh?

More torque at the same speed *is* more power.

power = torque * speed

Had the gas engine produced the same torque at 5000 rpms as the diesel
do at 2900, then it would have had about 560 hp at 5000.

Thomas

"Thomas Tornblom" -to-reply wrote in message
...
Steve writes:

Sport Pilot wrote:


More speed is NOT more power any more than more torque at the same
speed is more power.

uh?


Yeah, that was my reaction! (?) ;-)


More torque at the same speed *is* more power.

power = torque * speed

Had the gas engine produced the same torque at 5000 rpms as the diesel
do at 2900, then it would have had about 560 hp at 5000.

Thomas

Actually, the equation to calculate power (or horsepower (HP) in this case)
is HP = Torque X rpm / 5252.

Torque being a measurable force that turns the crankshaft and ultimately the
wheels, main rotor, or propeller (I just noticed that this is going to two
aviation and one automotive newsgroups). Horsepower is defined as a
"measurement" of work performed. By the equation, at least as it applies to
internal combustion reciprocating engines, you can't have HP without torque!
So, if you can increase the torque value at a given rpm, you'll increase the
power output at that rpm. Likewise, if you can maintain a given torque
value at a higher rpm, you'll produce more power in that case too. It
doesn't matter what kind of engine you're talking about or the fuel burned.
Gasoline, diesel, methanol, it makes no difference. The equation still
applies.

FWIW!
Fly/Drive Safe,
Steve R.

On Tue, 24 May 2005 21:54:29 GMT, Thomas Tornblom
-to-reply wrote:

Steve writes:

Sport Pilot wrote:

Why the obvious apple and orange comparision?


To refute the statement that "more speed is more power."

You need to compare engines of equal size.


OK, Lets do it!

Dodge 5.9 Liter v8 gasoline engine: 230 horsepower at ~5000 RPM

Compared to:

Dodge/Cummins 5.9 Liter turbo-diesel engine: 325 horsepower at 2900 RPM


More speed is NOT more power any more than more torque at the same
speed is more power.


One BIG factor is being forgotten here. The diesel is turboed. This
makes it roughly equivalent to an 8 liter engine at about 6psi boost.
Any combustion engine produces power in proportion to the amount of
air consumed. On a diesel it does not necessarily "consume" all the
air that goes through it - but the maximum power output is definitely
limitted by how much air can be put through it. A turbo can eisily
double the amount of air an engine pumps through it at a given speed.

Running an engine at double the speed also increases the amount of air
going through the engine - not quite double due to reduced volumetric
efficiency at speed.

Double the CFM gives double the horsepower, before factoring in
frictional losses and / or pumping losses.

A naturally aspirated diesel engine generally produces less HP per
unit of displacement, but more torque at low RPMs due in part to less
pumping loss (no air throttle)
uh?

More torque at the same speed *is* more power.

power = torque * speed

Had the gas engine produced the same torque at 5000 rpms as the diesel
do at 2900, then it would have had about 560 hp at 5000.

Thomas

wrote:


One BIG factor is being forgotten here. The diesel is turboed. This
makes it roughly equivalent to an 8 liter engine at about 6psi boost.
Any combustion engine produces power in proportion to the amount of
air consumed. On a diesel it does not necessarily "consume" all the
air that goes through it - but the maximum power output is definitely
limitted by how much air can be put through it. A turbo can eisily
double the amount of air an engine pumps through it at a given speed.

Running an engine at double the speed also increases the amount of air
going through the engine - not quite double due to reduced volumetric
efficiency at speed.

Double the CFM gives double the horsepower, before factoring in
frictional losses and / or pumping losses.

A naturally aspirated diesel engine generally produces less HP per
unit of displacement, but more torque at low RPMs due in part to less
pumping loss (no air throttle)

SOME diesels are turboed. Many are not. Some Diesels are normally
aspirated. Some are supercharged with geared chargers. Some are
turboed. It is by far an overgeneralization to claim that all Diesels
are supercharged, even more so to say they are all turbo-supercharged.

Thomas Tornblom wrote:

Steve writes:


Sport Pilot wrote:


Why the obvious apple and orange comparision?


To refute the statement that "more speed is more power."


You need to compare engines of equal size.


OK, Lets do it!

Dodge 5.9 Liter v8 gasoline engine: 230 horsepower at ~5000 RPM

Compared to:

Dodge/Cummins 5.9 Liter turbo-diesel engine: 325 horsepower at 2900 RPM


More speed is NOT more power any more than more torque at the same
speed is more power.


uh?

huh. Read it again.


More torque at the same speed *is* more power.

That's exactly what I've been saying. You can get more power by
increasing torque OR rpm or both.

Steve writes:

Thomas Tornblom wrote:

Steve writes:

More speed is NOT more power any more than more torque at the same
speed is more power.
uh?


huh. Read it again.

Ok.

English is not my native language, and I read the sentence such that
the "NOT" in the first half also implied that there was an implicit
"NOT" in the second half, which made the statement wrong.


More torque at the same speed *is* more power.


That's exactly what I've been saying. You can get more power by
increasing torque OR rpm or both.


Then we agree :-)

Thomas