cylinder heads and manifolds.pdf

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fast tech
/ TECH / CYLINDER HEADS /
fast tech
EVERYTH ING FLOWS
EVERYTH ING FLOWS
EVERYTH ING FLOWS
Stu’s words of wisdom. This
month: exhaust tuning, theory
and practise.
about the cylinder
head: how best to get your fuel and
air in and then back out of the head
for both ultimate performance and
best engine effi ciency.
So it seems natural that this
month we deal with what happens
after the gas leaves the head via
the exhaust ports. The majority of
you will already know that it enters
the exhaust manifold from here,
and is then routed to atmosphere
via the exhaust system and the
exhaust resonators and silencers.
So, is that it? Is the exhaust just a
series of pipes that direct the gas
out of the engine and into the
waiting atmosphere or is there
more to it than that? Let’s see...
Before we get into the theory
of exhaust tuning and the
various phenomena
surrounding this
subject, let’s go
back to basics
and look a little
more closely
at the life of
an exhaust
gas charge.
headers, creating a high-pressure
wave as it does so.
From the exhaust manifold
primary header pipes it travels down
to the point where all (or some)
of the cylinders’ primary headers
converge with each other. This point
of convergence is known as the
collector. Once in the collector, the
exhaust gases expand quickly as
the pressure wave propagates into
all of the available space and the
other lower pressure
primary header
pipes. As
you
all of the available space and the
other lower pressure
primary header
people lag their exhausts manifolds
and systems with heat-proof tape,
or even ceramic coatings. To keep
the heat in and the gas
speed high.
Pressure waves
on the other hand
base their speed on
the speed of sound.
While the pressure
wave’s speed also
decreases as it
travels down the
pipe due to gas
cooling, the speed will
increase again as the wave
is refl ected back up the pipe
towards the cylinder when it
comes across any restriction. At
all times though, the speed of the
speed high.
on the other hand
base their speed on
the speed of sound.
pipe due to gas
cooling, the speed will
increase again as the wave
is refl ected back up the pipe
towards the cylinder when it
comes across any restriction. At
all times though, the speed of the
IN THE MIX
As the piston rocks
over from TDC on the compression
stroke and heads back down the
bore on the power stroke, the
mixture burn has already been
initiated, and thus the rapidly-
burning mixture releases masses of
energy. This is then transferred to
the crankshaft via positive pressure
on the piston crown.
Once the burn is over and
expansion ceases, we are left with
a certain amount of red-hot waste
gas and particle matter. This waste
is commonly known and referred
to as exhaust gas, and although
nothing like the pressure it had
during the power stroke, it is still at
very high pressure.
Just before bottom dead centre,
the exhaust valve opens and the gas
naturally starts to exit the cylinder
due to the pressure differential
created, so it fl ows to the lower
pressure exhaust port and out
into the awaiting exhaust manifold
would
expect,
the hot
exhaust gases
and part of the
pressure wave
energy make their way out of the
collector via its outlet and into the
main exhaust system, heading
for the tail pipe via any resonator
boxes and ultimately escaping to
atmosphere.
Based on the above visualization,
it should be quite clear that two
basic, yet very separate entities
are at work in the exhaust system:
exhaust gas particle speed and the
resulting pressure waves.
would
expect,
the hot
exhaust gases
and part of the
pressure wave
BEFORE
STARTING…
The fi rst rule of working on
cars and using tools of any
kind is don’t ever skimp on
decent protection. Goggles,
gloves, ear defenders,
masks and a set of overalls
should be in your garage.
Use them.
When using power tools,
protective gear is essential
— grinders and welders can
make a real mess of your
soft skin and bone if you get
it wrong.
Never work under a car
without supporting it using
axle stands. A car falling on
you is not something you’ll be
laughing about down the pub.
NEED FOR SPEED
The pressure differential between
the cylinder and the atmosphere
determines the exhaust gas particle
speed — that much is relatively
straightforward. As the gases travel
down the pipe, rapidly expanding
and cooling, the speed decreases.
This is one of the reasons that
Above: exhaust gasses exit
the cylinder at high pressure
0130 APRIL 2007 FAST FORD
FAST FORD APRIL 2007
0131
LAST month we talked
or even ceramic coatings. To keep
the heat in and the gas
speed high.
Pressure waves
on the other hand
base their speed on
the speed of sound.
While the pressure
wave’s speed also
decreases as it
travels down the
pipe due to gas
cooling, the speed will
increase again as the wave
is refl ected back up the pipe
towards the cylinder when it
comes across any restriction. At
all times though, the speed of the
primary header
pipes. As
you
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fast tech
/ TECH / CYLINDER HEADS /
fast tech
system may be too restrictive and
this will hurt your top end power.
Too little gas speed tends to make
the power curve excessively peaky
and thus hurt your low-end torque.
Having nice big diameter tubes in
your exhaust will allow the gases to
expand, but this cools the gasses,
slowing them down along with their
pressure waves.
So there you have it folks,
its not just a load of old
bent tubes after all,
well, it is, but
the sizes and
shapes they became bent into took
many hours of dyno time for some
very clever people to come up with,
so don’t go changing the shape of
yours every time you come to a
bump in the road will you?
This is a 4-2-1 mani-
fold: four primaries
lead into two second-
aries which then fl ow
to the single pipe
With exhaust tuning, bigger
isn’t always better
Bends should be as
smooth as possible
pressure wave is greater than the
speed of the gas particles.
You need to understand that
pressure waves behave very
differently to gas particles when
a junction is encountered in the
exhaust pipe. When two or more
pipes come together, as they
would in any collector for
example, the waves travel
into all of the available
pipes — backwards as
well as forwards. Waves
are also refl ected back
up the original pipe,
but with a negative
pressure. The strength
of the wave refl ection
is based on the actual
size of the collector, or at
least the area size change when
compared to the area of the pipe it
travelled down there in.
pressure wave is greater than the
You need to understand that
pressure waves behave very
differently to gas particles when
a junction is encountered in the
exhaust pipe. When two or more
pipes come together, as they
An engine dyno is the only real place
to test manifold effectiveness
EXHAUST COMPONENTS
What makes up your
average system?
Exhaust system design is a
balancing act between all of these
complex events and their timing.
Even with the best compromise of
exhaust pipe diameter and length,
the collector outlet sizing can and
often will still make or break the
best design. Let’s take a look at an
exhaust system broken down into
its many different components.
too small will lose a little top
end power, but slightly too big
will normally lose quite a lot
of torque.
Header length has to my
mind been over advertised and
its importance blown out of all
proportion for many years. As
an example, how many times
have you heard the term ‘totally
equal-length headers’? The fi rst
question you have to ask is, ‘Did
the engine actually need equal-
length headers? If so, why did it
not already have them?’
There are many engines out
there that not only will not
benefi t from them, but may well
positively suffer from the use of
one. Many engine exhausts
are tuned to offer maximum
scavenging effect across a 3000-
4000 rpm engine speed, so the fact
that one exhaust header is tuned a
few hundred rpm short of another
is not of any great consequence
and can in fact extend the torque
range somewhat, even if it has
dropped the peak effi ciency
down a few per cent.
Also worth considering is
that the extra length from
non-equal headers is
normally used to best
effect producing nice
radiused curves,
harnessing the available
space in the engine bay.
All engine requirements
differ and it has to be said
that the common in-line,
four-cylinder engine is
proven to be most
susceptible to header
length and tends to like
Exhaust gasses expand
quickly in the collector
pressure. The strength
of the wave refl ection
is based on the actual
size of the collector, or at
least the area size change when
compared to the area of the pipe it
travelled down there in.
least the area size change when
compared to the area of the pipe it
Exhaust manifold design
is crucial to good power
RIDE THE WAVES
The basis of exhaust pressure
wave tuning is essentially to
harness these waves and make
them do good things for us. The
most common aim is to design
and assemble the pipes so that
the negative wave pulse refl ection
coincides with the period of intake
and exhaust valve overlap.
This low pressure helps to pull in
a fresh intake charge as the intake
valve is opening and also helps to
remove the residual exhaust gases
before the exhaust valve closes.
Typically this phenomenon and its
effect is controlled by the length of
the primary header pipe. Due to the
extremely critical timing aspect of
this tuning there will most probably
be parts of the power curve where
more harm than good is done.
This type of tuning can not be
guessed and requires endless
dyno hours to perfect. Haphazard
guessing will normally end up with
nothing more than a seriously
compromised power curve.
Gas speed is not as simple to
achieve and harness as you may at
fi rst think either. Having a gas speed
that is too high suggests that the
HEADERS/PRIMARIES
We must remember at all times that
bigger is not always better with
exhaust tuning. In fact, one of the
greatest fears when designing an
exhaust is that you will select a
tube too big and lose some of the
vitally important scavenging effect.
However, selecting a tube too
small will add a fl ow restriction and
rob us of bhp. It is still worth noting
though that slightly too small is
actually better overall than slightly
too big due to the fact that slightly
them as near to equal length as
possible, but certainly not at the
expense of nice radiused curves,
free from nasty bends and harsh
angles. So inspect those manifolds
carefully before you hand over your
hard earned. Equal lengths with
nasty tight bends are not usually as
good as unequal lengths but lovely
smooth radiused bends.
Equal-length primaries
don’t suit all engines
COLLECTORS/SECONDARIES
Let’s now take a closer look at the
collector and secondary pipe
confi gurations. It is not easy to
discuss collectors/secondaries in
general due to the various different
confi gurations in existence, but the
collector itself is the point where
the primary headers join each other
to fl ow into the secondary pipes.
In a 4-into-1 system we have a
large all-in-one collector and a
secondary pipe. In a 4-2-1 system
we have a collector for each pair of
headers, then a pair of secondary
pipes fl ow the gas to one
bigger collector that collects
the gas from both secondaries
0132 APRIL 2007 FAST FORD
FAST FORD APRIL 2007
0133
tech
tech
system may be too restrictive and
this will hurt your top end power.
Too little gas speed tends to make
the power curve excessively peaky
and thus hurt your low-end torque.
Having nice big diameter tubes in
your exhaust will allow the gases to
expand, but this cools the gasses,
slowing them down along with their
pressure waves.
So there you have it folks,
its not just a load of old
bent tubes after all,
well, it is, but
the sizes and
system may be too restrictive and
shapes they became bent into took
many hours of dyno time for some
very clever people to come up with,
so don’t go changing the shape of
yours every time you come to a
bump in the road will you?
This is a 4-2-1 mani-
fold: four primaries
lead into two second-
aries which then fl ow
to the single pipe
Bends should be as
smooth as possible
pressure wave is greater than the
speed of the gas particles.
You need to understand that
pressure waves behave very
differently to gas particles when
a junction is encountered in the
exhaust pipe. When two or more
pipes come together, as they
would in any collector for
example, the waves travel
into all of the available
pipes — backwards as
well as forwards. Waves
are also refl ected back
An engine dyno is the only real place
to test manifold effectiveness
Exhaust manifold design
is crucial to good power
them as near to equal length as
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fast tech
EXHAUST COMPONENTS
EXHAUST COMPONENTS
Correctly-designed silencers
are vital for good fl ow
complex parts of an exhaust to get
correct. The two factors we spoke
about earlier need dealing with
separately at the silencer if you are
to make the exhaust work properly,
and of course, legally.
The Pressure wave needs to be
deadened by a suitable material to
keep the system quiet for the road,
yet the fl ow capacity of this sound
absorbing material must still allow
us to get the gas through with no
major power robbing restrictions.
Bear in mind we can’t just make it
huge and have lots of it, as the
bigger the bore of the back box, the
more sound we tend to generate.
The sound absorption is normally
dealt with in one of two ways: The
cheapest and most effi cient way
is to pack the rear box
with a large
format is the reason that years ago
one of the fi rst mods we ever made
to a car was a shiny and loud back
box. And it was louder because...
The second most common type is
the absorption type. This utilises a
far better fl owing design. Essentially
the exhaust pipe runs directly
through the back box, and in this
pipe are drilled hundreds of uniform
holes, almost like a sieve. Packed
around this exhaust tube is a similar
type of glass-fi bre
sound
absorption
these then the possibility of you
losing power via your exhaust
system goes up dramatically, but all
is not lost.
The fi rst rule when dealing with
catalysts is that we use the highest
fl owing components we can. A
catalyst by its very nature is
seriously restricting to both gasfl ow
and pressure wave progress as all
your exhaust gas must pass through
a monolith (almost like a ceramic
sponge) in order for it to
do its job chemically and
remove all the poisons
from the gas.
Nowadays there does
exist such a thing as a high-fl ow
performance catalyst, available
from all good exhaust suppliers.
These catalysts have far coarser
monoliths inside and fl ow gas far
better than a production unit ever
would. But they are currently still
very expensive
and directs it into our main
exhaust system.
The fi rst point to make
about performance here is that the
secondary pipe diameter is just as
critical as the primary pipe. When
choosing a diameter for the
secondary pipe or the collector it is
always good to start by multiplying
the primary pipe diameter by 1.75.
As for the secondary length, you are
likely to fi nd that experimenting
here gives the most surprising
changes on the dyno than any
other part of the exhaust.
Getting secondary
lengths optimised will
be worth power on
almost any engine.
us to get the gas through with no
major power robbing restrictions.
Bear in mind we can’t just make it
huge and have lots of it, as the
bigger the bore of the back box, the
more sound we tend to generate.
The sound absorption is normally
dealt with in one of two ways: The
cheapest and most effi cient way
is to pack the rear box
with a large
around this exhaust tube is a similar
type of glass-fi bre
sound
absorption
sponge) in order for it to
do its job chemically and
The fi rst point to make
about performance here is that the
secondary pipe diameter is just as
critical as the primary pipe. When
choosing a diameter for the
secondary pipe or the collector it is
always good to start by multiplying
the primary pipe diameter by 1.75.
As for the secondary length, you are
likely to fi nd that experimenting
here gives the most surprising
changes on the dyno than any
remove all the poisons
from the gas.
material,
but this time
it is packed
extremely densely around
the exhaust tube and the pressure
wave is attenuated as it fl ows
through, what is essentially, a sound
attenuation chamber. This type of
system is harder to design and
manufacture and normally offers
less silencing ability but far more
fl ow.
exist such a thing as a high-fl ow
performance catalyst, available
from all good exhaust suppliers.
These catalysts have far coarser
monoliths inside and fl ow gas far
better than a production unit ever
would. But they are currently still
very expensive
NEXT MONTH
NEXT MONTH
NEXT MONTH
Performance cats
usually fl ow better,
but they’re expensive
As part of our A-Z Of Tuning
special, Stu gives the low-
down on Ford’s top engines
As part of our A-Z Of Tuning
special, Stu gives the low-
down on Ford’s top engines
SILENCERS: BIGGEST
POWER LOSS?
Inappropriate silencer selection will,
in a very effective manner, destroy
almost any advantages you gained
by correct manifold, primary,
collector and secondary pipe tuning.
The problem with silencers is that
they are actually one of the most
amount of glass-fi bre wadding and
zig-zag our pipe through it, so by the
time the exhaust gas and pressure
wave exits the rear box, much of its
energy is lost.
This system, whilst effi cient at
silencing, plays havoc with the fl ow
and causes a power restriction. In
its cheapest and most restrictive
CONTACT
zig-zag our pipe through it, so by the
time the exhaust gas and pressure
wave exits the rear box, much of its
fl ow.
CATALYSTS
Finally, those law-abiding citizens
amongst you with cars built from
1991 will know that their exhaust
system utilises a catalytic converter.
Sadly, if you have to have one of
Stewart Sanderson co-owns
Motorsport Developments
in Blackpool:
01253 508400
www.remapping.co.uk
seriously restricting to both gasfl ow
and pressure wave progress as all
your exhaust gas must pass through
a monolith (almost like a ceramic
sponge) in order for it to
do its job chemically and
remove all the poisons
from the gas.
Nowadays there does
exist such a thing as a high-fl ow
performance catalyst, available
from all good exhaust suppliers.
These catalysts have far coarser
monoliths inside and fl ow gas far
better than a production unit ever
would. But they are currently still
very expensive
the exhaust pipe runs directly
through the back box, and in this
pipe are drilled hundreds of uniform
holes, almost like a sieve. Packed
around this exhaust tube is a similar
keep the system quiet for the road,
yet the fl ow capacity of this sound
absorbing material must still allow
us to get the gas through with no
Correctly-designed silencers
are vital for good fl ow
and directs it into our main
exhaust system.
The fi rst point to make
about performance here is that the
secondary pipe diameter is just as
critical as the primary pipe. When
choosing a diameter for the
secondary pipe or the collector it is
always good to start by multiplying
the primary pipe diameter by 1.75.
As for the secondary length, you are
likely to fi nd that experimenting
here gives the most surprising
changes on the dyno than any
other part of the exhaust.
Getting secondary
lengths optimised will
be worth power on
almost any engine.
and directs it into our main
material,
but this time
it is packed
extremely densely around
the exhaust tube and the pressure
wave is attenuated as it fl ows
through, what is essentially, a sound
attenuation chamber. This type of
system is harder to design and
manufacture and normally offers
less silencing ability but far more
fl ow.
As part of our A-Z Of Tuning
special, Stu gives the low-
down on Ford’s top engines
SILENCERS: BIGGEST
POWER LOSS?
Inappropriate silencer selection will,
in a very effective manner, destroy
amount of glass-fi bre wadding and
zig-zag our pipe through it, so by the
CONTACT
CONTACT
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