Westerbeke 58 User manual
TECHNICAL MANUAL
WESTERBEKE 58
Marine Diesel Engine
WESTERBEKE
20.0 YD -60 Hz
20.0 WTA -60 Hz
16.0 WTA -50 Hz
Marine Diesel Generators
Publication # 24331
Edition Three
November 1990
jr-.v-
'WESTERBEKE
J WESTERBEKECORPORATION
•
MYLES
STANDISH
INDUSTRIAL
PARK
150J,OHN
HANCOCK
ROAD,
TAUNTON,
MA
02780-7319
All manuals and user guides at all-guides.com
all-guides.com
TECHNICAL MANUAL
WESTERBEKE 58
Marine Diesel Engine
WESTERBEKE
20.0 YD -60 Hz
20.0 WTA -60 Hz
16.0 WTA -50 Hz
Marine Diesel Generators
Publication # 24331
Edition Three
November 1990
jr-.v-
'WESTERBEKE
J WESTERBEKECORPORATION
•
MYLES
STANDISH
INDUSTRIAL
PARK
150J,OHN
HANCOCK
ROAD,
TAUNTON,
MA
02780-7319
All manuals and user guides at all-guides.com
All manuals and user guides at all-guides.com
,:
SECTION INDEX
GENERAL
Introduction Operation
Installation Maintenance
ENGINE OVERHAUL
OTHER OVERHAUL
Marine Engine Electrical System
Cooling System (External)
Transmissions
GENERATOR SETS
HYDRAULIC CRANKING SYSTEM
SERVICE BULLETINS
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IMPORTANT
PRODUCT
SOFTWARE
NOTICE
Product
software
of
all
kinds,
such
as
brochures,
drawings,
technical
data,
operator's
and
workshop
manuals,
parts
lists
and
parts
pr
ice
lists,
and
other
information,
instructions
and
specifications
provided
from
sources
other
than
Westerbeke,
is
not
wi
thin
Westerbeke'
s
control
and,
accor-
dingly,
is
provided
to
Westerbeke
customers
only
as
a
cour-
tesy
and
service.
WESTERBEKE
CANNOT
BE
RESPONSIBLE
FOR
THE
CONTENT
OF
SUCH
SOFTWARE,
MAKES
NO
WARRANTIES
OR
REPRESENTATIONS
WITH
RESPECT THERETO, INCLUDING
THE
ACCURACY,
TIMELINESS
OR
COMPLETENESS
THEREOF,
AND
WILL
IN
NO
EVENT
BE
LIAB~E
FOR
ANY
TYPE
OF
DAMAGES
OR
INJURY
INCURRED
IN
CONNECTION
WITH,
OR
ARISING
OUT
OF,
THE
FURNISHING
OR
USE
OF
SUCH
SOFTWARE.
For
example,
components
and
sub-assemblies
incorporated
in
Westerbeke's
products
and
supplied
by
others
(such
as
engine
blocks,
fuel
systems
and
components,
transmissions,
electri-
cal
components,
pumps
and
other
products)
are
generally
sup-
ported
by
their
manufacturers
with
their
own
software,
and
Westerbeke
must
depend
on
such
software
for
the
design
of
Westerbeke's
own
product
software.
Such
software
may
be
out-
dated
and
no
longer
accurate.
Routine
changes
made
by
Westerbeke's
suppliers,
of
which
Westerbeke
rarely
has
notice
in
advance,
are
frequently
not
reflected
in
the
supplier's
software
until
after
such
changes
take
place.
Westerbeke
customers
should
also
keep
in
mind
the
time
span
between
pr
intings
of
Westerbeke
product
software,
and
the
unavoidable
existence
of
earlier,
non-current
Westerbeke
software
editions
in
the
field.
Additionally,
most
Westerbeke
products
include
customer-requested
special
features
that
frequently
do
not
include
complete
documen-
tation.
In
sum,
product
software
provided
with
Westerbeke
products,
whether
from
Westerbeke
or
other
suppliers,
must
not
and
can-
not
be
relied
upon
exclusively
as
the
definitive
authority
on
the
respective
product.
It
not
only
makes
good
sense,
but
is
imperative
that
appropriate
representatives
of
Westerbeke
or
the
supplier
in
question
be
consulted
to
determine
the
accuracy
and
currency
of
the
product
software
being
consulted
by
the
customer.
2
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INTRODUCTION
IMPORTANT
THIS
MANUAL
IS
A DETAILED
GUIDE
TO
THE
INSTALLATION,
START-UP,
OPERATION
AND
MAINTENANCE
OF
YOUR
WESTERBEKE
MARINE
DIESEL ENGINE.
THE
INFORMATION
IT
CONTAINS
IS
VITAL
TO
THE
ENGINE'S
DEPENDABLE,
LONG
TERM
OPERATION.
READ
IT
KEEP
IT
IN
A
SAFE
PLACE
!
KEEP
IT
HANDY
FOR
REFERENCE
AT
ALL
TIMES !
FAILURE
TO
DO
SO
WILL
INVITE SERIOUS
RISK,
NOT
ONLY
TO
YOUR
INVESTMENT
BUT
YOUR
SAFETY
AS
WELL.
UNDERSTANDING
THE
DIESEL
••••
The
diesel
engine
closely
resembles
the
gasoline
engine
inasmuch
as
the
mechanism
is
essentially
the
same.
Its
cylinders
are
arranged
above
its
closed
crankcase~
its
crankshaft
is
of
the
same
general
type
as
that
of
a
gasoline
engine~
it
has
the
same
sort
of
valves,
camshaft,
pistons,
connecting
rods,
lubricating
system
and
reverse
and
reduction
gear.
Therefore,
it
follows
to
a
great
extent
that
a
diesel
eng
ine
requires
the
same
preventative
maintenance
as
that
which
any
intelli-
gent
operator
would
give
to
a
gasoline
engine.
The
most
important
factors
are
proper
maintenance
of
the
fuel,
lubricating
and
cooling
systems.
Replacement
of
fuel
and
lubricating
filter
elements
at
the
time
periods
specified
is
a
must,
and
frequent
checking
for
con-
tamination
(i.e.
water,
sediment,etc.)
in
the
fuel
system
is
also
essential.
Another
important
factor
is
the
use
of
the
same
brand
of
"high
detergent"
diesel
lubricating
oil
designed
specifically
for
diesel
engines.
The
diesel
engine
does
differ
from
the
gasoline
engine,
however,
in
the
method
of
handling
and
firing
its
fuel.
The
carburetor
and
igni
tion
systems
are
done
away
with
and
in
their
place
is
a
single
component
-
the
Fuel
Injection
pump -
which
performs
the
function
of
both.
Unremitting
care
and
attention
at
the
factory
have
resulted
in
a
Westerbeke
engine
capable
of
many
thousands
of
hours
of
dependable
service.
What
the
manufacturer
cannot'
control,
however,
is
the
treat-
ment
it
receives
in
service.
This
part
rests
with
you!
ORDERING
PARTS
Whenever
replacement
parts
are
needed,
always
include
the
complete
part
description
and
part
number
(see
separate
Parts
List
furnished,
if
not
part
of
this
publication).
Be
sure
to
include
the
engine's
model
and
serial
number.
Also,
be
sure
to
insist
upon
Westerbeke
fac-
tory
packaged
parts,
because
"will
fit"
parts
are
frequently
not
made
to
the
same
specifications
as
original
equipment.
GENERATOR
SETS
Westerbeke
diesels
are
used
for
both
the
propulsion
of
boats
and
for
generating
electrical
power.
For
generator
set
applications,
all
details
of
this
Manual
apply,
except
in
regard
to
certain
portions
of
the
Installation,
Operation
and
Maintenance
sections.
Additional
information
is
provided
in
the
section
titled
Generator
Sets,
Section
T.
3
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YOUR NOTES
4
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INSTALLATION
FOREWORD
Since
the
boats
in
which
these
engines
are
used
are
many
and
varied,
details
of
engine
installation
are
equally
so.
It
is
not
the
purpose
of
this
section
to
advise
boatyards
and
engine
installers
on
the
generally
well
understood
and
well
developed
procedures
for
installation
of
engines.
However,
the
following
outline
of
general
procedure
is
included
because
it
is
valuable
in
explaining
the
functions
of
each
component,
the
reasons
why,
the
precautions
to
be
watched
and
the
relationship
of
the
installation
to
the
operation
of
the
engine.
There
are
details
of
the·
installation
which
should
have
a
periodic
check
and
of
which
the
operator
should
have
a
thorough
understanding
to
insure
good
operating
conditions
for
the
engine
and
correct
procedure
for
its
servicing.
INSPECTION
OF
EQUIPMENT
The
engine
is
shipped
from
the
factory
mounted
securely
and
pro-
perly
crated.
Accessory
equipment
is
shipped
in
a
separate
small
box,
usually
packed
with
the
engine
crate.
Before
accepting
shipment
from
the
transportation
company,
the
crate
should
be
opened
and
an
inspection
made
for
concealed
damage.
If
either
visible
or
concealed
damage
is
noted,
you
should
require
the
delivering
agent
to
sign
"Received
in
damaged
condition".
Also
check
contents
of
the
shipment
against
the
packing
list
and
make
sure
note
is
made
of
any
discrepancies.
This
is
your
protection
against
loss
or
damage.
Claims
for
loss
or
damage
must
be
made
to
the
carrier,
not
to
J.
H.
Westerbeke
Corporation.
RIGGING
AND
LIFTING
The
engine
is
fitted
with
lifting
rings.
Rope
or
chain
slings
should
be
attached
to
the
rings
and
the
engine
lifted
by
means
of
tackle
attached
to
this
sling.
The
lifting
rings
have
been
designed
to
carry
the
full
weight
of
the
engine;
therefore,
auxiliary
slings
are
not
required
or
desired.
CAUTION:
Slings
must
not
be
so
short
as
to
place
the
engine
lifting
eyes
in
significant
sheer
stress.
Strain
on
the
engine
lifting
eyes
must
not
be
in
excess
of
10·
from
the
vertical.
A
spacer
bar
must
be
placed
between
the
two
lifting
eyes,
if
supported
by
valve
cover
studs.
The
general
rule
in
moving
engines
is
to
see
that
all
equipment
used
is
amply
strong
and
firmly
fixed
in
place.
Move
the
engine
a
Ii
ttle
at
a
time
and
see
that
it
is
firmly
supported.
Eliminate
possibility
of
accidents
by
avoiding
haste.
Do
not
lift
from
the
pro-
peller
coupling,
or
pry
against
this
with
crowbar,
as
you
may
distort
the
coupling.
In
some
cases
it
may
be
necessary
to
lift
the
engine
in
other
than
the
regular
horizontal
position.
It
may
be
that
the
engine
must
be
lowered
endwise
through
a
small
hatchway
which
cannot
be
made
larger.
If
the
opening
is
extremely
restricted,
it
is
possible
to
reduce,
to
some
extent,
the
outside
clearances
such
as
generator,
cooling
piping,
water
tank,
filters,
mounting
lugs,
etc.
This
accessory
equipment
should
be
removed
by
a
competent
mechanic
and
special
care
should
be
5
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taken
to
avoid
damage
to
any
exposed
parts
and
to
avoid
dirt
entering
openings.
The
parts
which
have
been
removed
should
be
returned
to
position
as
soon
as
the
restriction
has
been
passed.
In
case
it
is
necessary
to
hoist
the
eng
ine
either
front
end
upwards
or
reverse
gear
end
upwards,
the
attachment
of
slings
must
be
done
very
carefully
to
avoid
the
possibility
of
damage
to
the
parts
on
which
the
weight
may
bear.
It
is
best
if
special
rigging
work
be
done
by
someone
experienced
and
competent
in
the
handling
of
heavy
machi-
nery.
ENGINE
BOLTS
It
is
recommended
that
bronze
hanger
bolts
of
appropriate
size
be
used
through
the
engine
flexible
mounts.
Lag
screws
are
less
pre-
ferred
because
their
hold
on
the
wood
is
weakened
every
time
they
are
moved,
whereas
the
lag
bolt
stays
in
position
and
the
nut
on
top
is
used
to
tighten
the
engine
down
or
is
removed
to
permit
the
engine
to
be
lifted.
The
bolt
itself
stays
in
position
at
all
times,
as
a
stud,
and
the
bond
between
the
bolt
and
the
wood
is
not
weakened
by
its
removal.
FOUNDATION
FOR
ENGINE
A
good
engine
bed
contributes
much
toward
the
satisfactory
opera-
tion
of
the
engine.
The
engine
bed
must
be
of
rigid
construction
and
neither
deflect
nor
twist
when
sub-
jected
to
the
engine
weight
or
the
posi
tion
the
boat
may
have
to
take
under
the
effects
of
rough
seas.
The
bed
must
keep
the
engine
within
one
or
two
thousandths
of
an
inch
of
this
position
at
all
times.
It
has
to
wi
thstand
the
forward
push
of
the
propeller
which
is
applied
to
the
propeller
shaft,
to
the
thrust
washer
bearing
in
the
engine
and
finally
to
the
engine
bolts
and
engine
bed.
In
fiberglas
hulls,
we
recom-
mend
that
similar
wooden
stringers
as
in
wooden
hulls
be
formed
and
fitted,
then
glassed
to
the
hull
securely.
This
allows
hanger
bolts
to
be
installed
firmly
in
wood,
thus
reducing
noise
and
transmitted
vibration.
The
temptation
to
install
the
engine
on
a
pair
of
fiberglas
A
8
"angle
irons"
should
be
resisted.
Such
construction
will
allow
engine
vibrations
to
pass
through
to
the
hull.
Flexible
mounts
require
a
firm
foundation
against
which
to
react
if
they
are
to
do
their
job.
When
possible,
follow
bed
design
"A"
and
avoid
bed
design
"B".
PROPELLER
COUPLING
Each
Westerbeke
Diesel
engine
is
regularly
fitted
with
a
suitable
coupling
connecting
the
propeller
shaft
to
the
engine.
6
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The
coupling
must
not
only
transmit
the
power
of
the
engine
to
turn
the
shaft,
but
must
also
transmit
the
thrust
either
ahead
or
astern
from
the
shaft
to
the
thrust
bear
ing
which
is
built
into
the
reduction
gear
housing
of
the
engine.
This
coupling
is
very
carefully
machined
for
accurate
fit.
For
all
engine
models,
a
propeller
half-coupling,
bored
to
shaft
size
for
the
specific
order,
is
supplied.
The
coupling
either
has
a
keyway
with
set
screws
or
is
of
the
clamping
type.
The
forward
end
of
the
propeller
shaft
has
a
long
straight
keyway.
Any
burrs
should
be
removed
from
the
shaft
end.
The
coupling
should
be
a
light
drive
fit
on
the
shaft
and
the
shaft
should
not
have
to
be
scraped
down
or
filed
in
order
to
get
a
fit.
It
is
important
that
the
key
be
properly
fitted
both
to
the
shaft
and
the
coupling.
The
key
should
fit
the
side
of
the
keyway
very
closely,
but
should
not
touch
the
top
of
the
keyway
in
the
hub
of
the
coupling.
If
it
seems
difficult
to
drive
the
coupling
over
the
shaft,
the
coupling
can
be
expanded
by
heating
in
a
pail
of
boiling
water.
The
face
of
the
propeller
coupling
must
be
exactly
perpendicular
to
the
centerline
or
axis
of
the
propeller
shaft.
PROPELLER
The
type
and
size
of
propeller
varies
with
the
gear
ratio
and
must
be
selected
to
fit
the
application
based
upon
boat
tests.
To
utilize
the
full
power
of
the
engine,
and
to
achieve
ideal
loading
conditions,
it
is
desirable
to
use
a
propeller
which
will
permit
the
engine
to
reach
its
full
rated
speed
at
full
throttle
under
normal
load.
ALIGNMENT
OF
ENGINE
The
engine
must
be
properly
and
exactly
aligned
with
the
propeller
shaft.
No
matter
what
material
is
used
to
build
a
boat
it
will
be
found
to
be
flexible
to
some
extent
and
the
boat
hull
will
change
its
shape
to
a
greater
extent
than
is
usually
realized
when
it
is
launched
and
operated
in
the
water.
It
is
therefore
very
important
to
check
the
engine
alignment
at
frequent
intervals
and
to
correct
any
errors
when
they
may
appear.
Misalignment
between
the
engine
and
the
propeller
shaft
is
the
cause
of
troubles
which
are
blamed
often
on
other
causes.
It
will
create
excessive
bear
ing
wear,
rapid
shaft
wear
and
will,
in
many
cases,
reduce
the
life
of
the
hull
by
loosening
the
hull
fastenings.
A
bent
propeller
shaft
will
have
exactly
the
same
effect
and
it
is
therefore
necessary
that
the
propeller
shaft
itself
be
perfectly
straight.
One
particularly
annoying
result
of
misalignment
may
be
leakage
of
transmission
oil
through
the
rear
oil
seal.
Check
to
make
sure
that
alignment
is
within
the
limits
prescribed.
The
engine
should
be
moved
around
on
the
bed
and
supported
on
the
screw-jacks
or
shims
until
the
two
halves
of
the
couplings
can
be
brought
together
without
using
force
and
so
that
the
flanges
meet
evenly
all
around.
It
is
best
not
to
drill
the
foundation
for
the
foundation
bolts
until
the
approximate
alignment
has
been
accurately
determined.
Never
attempt
a
final
alignment
with
the
boat
should
be
in
the
water
and
have
had
an
opportunity
water
form.
It
is
best
to
do
the
alignment
with
tanks
about
half
full
and
all
the
usual
equipment
the
main
mast
has
been
stepped
and
final
7
on
land.
to
assume
the
fuel
on
board
rigging
The
boat
its
final
and
water
and
after
has
been
All manuals and user guides at all-guides.com
accomplished.
Take
plenty
of
time
in
making
this
alignment
and
do
not
be
satisfied
with
anything
less
than
perfect
results.
The
alignment
is
correct
when
the
shaft
can
be
slipped
backward
and
forward
into
the
counter
bore
very
easily
and
when a
feeler
gauge
indicates
that
the
flanges
come
exactly
together
at
all
points.
The
two
halves
of
the
propeller
coupling
should
be
parallel
within
0.002
inches
(A).
In
making
the
final
check
for
alignment,
the
engine
half
coupling
should
be
held
in
one
position
and
the
alignment
with
the
pro-
peller
coupling
tested
with
the
propeller
coupling
in
each
of
four
positions,
rotated
90·
between
each
position.
This
test
will
also
check
whether
the
pro-
peller
half
coupling
is
in
exact
alignment
on
its
shaft.
Then,
keeping
the
propeller
coupling
in
one
position,
the
alignment
should
be
checked
rotating
the
engine
half
coupling
to
full
position
each
90·
from
the
next
one.
The
engine
alignment
should
be
rechecked
after
the
boat
has
been
in
service
for
one
to
three
weeks
and,
if
necessary,
the
alignment
remade.
It
will
usually
be
found
that
the
engine
is
no
longer
in
alignment.
This
is
not
because
the
work
was
improperly
done
at
first
but
because
the
boat
has
taken
some
time
to
take
its
final
shape,
and
the
engine
bed
and
engine
stringers
have
probably
absorbed
some
moisture.
It
may
even
be
necessary
to
re-align
at
a
further
period.
The
coupling
should
always
be
opened
up
and
the
bolts
removed
whe-
never
the
boat
is
hauled
out
or
moved
from
the
land
to
the
water,
and
during
storage
in
a
cradle.
The
flexibility
of
the
boat
often
puts
a
very
severe
strain
on
the
shaft
or
the
coupling
or
both
when
it
is
being
moved.
In
some
cases
the
shaft
has
actually
been
bent
by
these
strains.
This
does
not
apply
to
small
boats
that
are
hauled
out
of
the
water
when
not
in
use,
unless
they
are
dry
for
a
considerable
time.
EXHAUST
SYSTEM
Exhaust
line
installations
vary
considerably
and
each
must
be
designed
for
the
particular
job.
The
general
requirements
are
to
pro-
vide
an
outlet
line
with
a minimum
of
restr
ictions
and
arranged
so
that
sea
water,
rain
water
or
condensation
cannot
get
back
into
the
engine.
There
should
be
a
considerable
fall
in
the
line
between
the
exhaust
manifold
flange
and
the
discharge
end.
This
slope
in
the
pipe
makes
it
difficult
for
water
to
be
driven
in
very
far
by
a
wave,
and
a
steep
drop
followed
by
a
long
slope
is
better
than
a
straight
gradual
slope.
Avoid
any
depression
or
trough
to
the
line
which
would
fill
with
water
and
obstruct
the
flow
of
exhaust
gas.
Also
avoid
any
sharp
bends.
Brass
or
copper
is
not
acceptable
for
wet
exhaust
systems,
as
the
combination
of
salt
water
and
diesel
exhaust
gas
will
cause
rapid
deterioration.
Galvanized
iron
fittings
and
galvanized
iron
pipe
are
recommended
for
the
exhaust
line.
The
exhaust
line
must
be
at
least
as
large
as
the
engine
exhaust
manifold
flange
and
be
increased
in
size
if
there
is
an
especially
long
run
and/or
many
elbows.
It
should
be
increased
by
1/2"
in
I.D.
for
every
10
feet
beyond
the
first
8
All manuals and user guides at all-guides.com
all-guides.com
10
feet.
Most
exhaust
systems
today
use
a
water
lift
type
muffler
such
as
the
Westerbeke
"Hydro-Hush".
In
most
installations
there
is
a
dry,
insulated
high
loop
after
the
engine
manifold
and
before
the
muffler
to
prevent
water
flowing
backwards
into
the
engine
during
cranking.
It
is
essential
not
to
hang
too
much
weight
in
the
form
of
exhaust
system
components
rigidly
from
the
engine
manifold.
Generally,
it
is
permissable
to
directly
connect
a
pipe
nipple
and
a
water
jacketed
exhaust
elbow,
which
two
components
weigh
about
8
pounds
(4
kg).
If
there
are
more
components
to
be
rigidly
connected
to
each
other
than
will
weigh
8
pounds,
then
a
flexible
exhaust
section
must
be
installed
between
the
manifold
outlet
and
the
exhaust
system.
EXHAUST
SYSTEM
WITH
WATER
JACKETED
STANDPIPE
WA
T
(II
0 I SCIoIAClC(
1-3/""
0,0,
WATEQ.
Llf'T
['II~AUST
SVSH'"
Wl'1'IoI~!!.U~"'Uf'FL.(:j
WATER
LIFT
EXHAUST
SYSTEM
WITH
"HYDRO-HUSH
MUFFLER"
The
exhaust
system
must
be
supported
or
suspended
independently
of
the
engine
manifold,
usually
using
simple
metal
hangers
secured
to
the
overhead.
All
dry
portions
of
the
exhaust
system
should
be
wrapped
in
suitable
insulation
material
to
keep
surface
temperatures
as
low
as
possible.
Many
installations
use
flexible
rubber
exhaust
hose
for
the
water
cooled
section
of
the
exhaust
line
because
of
the
ease
of
installation
and
flexibility.
Provide
adequate
support
for
the
rubber
hose
to
pre-
vent
sagging,
bending
and
formation
of
water
pockets.
Always
arrange
the
rubber
hose
section
so
that
water
cannot
possibly
flow
back
into
the
engine.
Also
make
sure
that
entering
sea
water
cannot
spray
directly
against
the
inside
of
the
exhaust
piping.
Otherwise,
excessive
erosion
will
occur.
MEASURING
EXHAUST
GAS
BACK
PRESSURE
Back
pressure
must
be
measured
on
a
straight
section
of
the
exhaust
line
and
as
near
as
possible
to
the
engine
exhaust
manifold.
The
engine
should
be
run
at
maximum
load
during
the
measurement
period.
Set-up
should
be
as
shown
below.
1.
For
normally
aspirated
engines:
Pressure
Test
Mercury
Test
Water
Column
1-1/2"
Max
PSI
3"
Mercury
=
39"
2.
For
turbo-charged
engines:
Pressure
Test
Mercury
Test
0.75
Max
PSI
1-1/2"
Mercury
9
Water
Column
=
19-1/2"
All manuals and user guides at all-guides.com
Checking
The
Back
Pressure
1.
Exhaust
pipe
flange
2.
Exhaust
line
3.
Transparent
plastic
hose,
partly
filled
with
water.
Measurement
"A" may
not
exceed
39"
for
normally
aspirated
engines
and
19.5"
for
turbo-charged
engines.
WATER
CONNECTIONS
Seacocks
and
strainers
should
be
of
the
full
flow
type
at
least
one
size
greater
than
the
inlet
thread
of
the
sea
water
pump.
The
str
ainer
should
be
of
the
type
which
may
be
wi
thdr
awn
for
cleaning
while
the
vessel
is
at
sea.
Water
lines
can
be
copper
tubing
or
wire-wound,
reinforced
rubber
hose.
In
any
case,
use
a
section
of
flexible
hose
that
will
not
collapse
under
suction,
between
the
hull
inlet
and
engine
and
between
the
outlet
and
the
exhaust
system.
This
takes
up
vibration
and
per-
mits
the
engine
to
be
moved
slightly
when
it
is
being
re-aligned.
Do
not
use
street
elbows
in
suction
piping.
All
pipe
and
fittings
should
be
of
bronze.
Use
sealing
compound
at
all
connections
to
prevent
air
leaks.
The
neoprene
impeller
in
the
sea
(raw)
water
pump
should
never
be
run
dry.
FUEL
TANK
AND
FILTERS
Fuel
tanks
may
be
of
fiberglas,
monel,
aluminum,
plain
steel
or
terne
plate.
If
made
of
fiberglas,
be
certain
that
the
interior
is
gel
coated
to
prevent
fibers
from
contaminating
the
fuel
system.
Copper
or
galvanized
fuel
tanks
should
not
be
used.
It
is
not
necessary
to
mount
the
tank
above
the
engine
level
as
the
fuel
lift
pump
provided
will
raise
the
fuel
from
the
tank.
The
amount
of
lift
should
be
kept
minimum
(6
feet
being
maximum).
If
a
tank
is
already
installed
above
the
engine
level,
it
can
be
utilized
in
this
position.
Great
care
should
be
taken
to
ensure
that
the
fuel
system
is
correctly
installed
so
that
airlocks
are
eliminated
and
precautions
taken
against
dirt
and
water
entering
the
fuel.
A
pr
imary
fuel
filter
of
the
water
collecting
type
should
be
installed
between
the
fuel
tank
and
the
fuel
lift
pump.
A
recommended
type
is
available
from
the
list
of
accessor
ies.
The
secondary
fuel
fil
ter
is
fitted
on
the
engine
between
the
fuel
lift
pump
and
the
injection
pump
and
has
a
replaceable
element.
As
the
fuel
lift
pump
has
a
capacity
in
excess
of
that
required
by
the
injection
pump,
the
overflow
is
piped
to
the
fuel
tank
and
should
be
connected
to
the
top
of
the
tank
or
as
near
the
top
as
possible.
To
insure
satisfactory
operation,
a
diesel
engine
must
have
a
dependable
supply
of
clean
diesel
fuel.
For
this
reason,
cleanliness
and
care
are
especially
important
at
the
time
when
the
fuel
tank
is
installed,
because
dirt
left
anywhere
in
the
fuel
lines
or
tank
will
certainly
cause
fouling
of
the
injector
nozzles
when
the
engine
is
started
for
the
first
time.
FUEL
PIPING
We
recommend
copper
tubing
together
wi
th
sui
table
fittings,
both
10
All manuals and user guides at all-guides.com
for
the
supply
line
and
the
return
line.
Run
the
tubing
in
the
longest
pieces
obtainable
to
avoid
the
use
of
unnecessary
fittings
and
connectors.
The
shut
off
valve
in
the
line
between
the
fuel
tank
and
engine
should
be
of
the
fuel
oil
type,
and
it
is
important
that
all
joints
be
free
of
pressure
leaks.
Keep
fuel
lines
as
far
as
possible
from
exhaust
pipe
for
minimum
temperature,
to
eliminate
"vapor
locks".
The
fuel
piping
leading
from
the
tank
to
the
eng
ine
compartment
should
always
be
securely
anchored
to
prevent
chafing.
Usually
the
copper
tubing
is
secured
by
means
of
copper
straps.
The
final
connection
to
the
eng
ine
should
be
through
flexible
rubber
hoses.
ELECTRIC
PANEL
The
Westerbeke
all-electric
panel
utilizes
an
electronic
tacho-
meter
with
a
built-in
hourmeter.
Tachometer
cables
are
no
longer
required,
except
for
the
Skipper
mechanical
panel.
Mounted
on
the
panel
are
a
voltmeter,
water
temperature
gauge
and
oil
pressure
gauge.
Each
instrument
is
lighted.
The
all-electric
panel
is
isolated
from
ground
and
may
be
mounted
where
visible.
It
is
normally
pre-wired.
ELECTRICAL
EQUIPMENT
Most
Westebeke
eng
ines
are
supplied
pre-wired
and
with
plug-in
connectors.
Never
make
or
break
connections
while
the
engine
is
running.
Carefully
follow
all
instructions
on
the
wiring
diagram
supplied,
especially
those
relating
to
fuse/circuit
breaker
require-
ments.
Starter
batteries
should
be
located
as
close
to
the
engine
as
possible
to
avoid
voltage
drop
through
long
leads.
It
is
bad
practice
to
use
the
starter
batteries
for
other
services
unless
they
require
low
amperage
or
are
intermittent.
In
cases
where
there
are
substan-
tial
loads
(from
lights,
refrigerators,
radios,
depth
sounders,
etc.),
it
is
essential
to
have
a
complete,
separate
system
and
to
provide
charging
current
for
this
by
means
of
a
second
alternator
or
"alternator
output
splitter".
Starter
batteries
must
be
of
a
type
which
permits
a
high
rate
of
discharge
(Diesel
starting).
Carefully
follow
the
recommended
wire
sizes
shown
in
the
wiring
diagrams.
Plan
installation
so
the
battery
is
close
to
the
engine
and
use
the
following
cable
sizes:
#1
for
distances
up
to
8
feet
#1/0
for
distances
up
to
10
feet
#2/0
for
distances
up
to
13
feet
#3/0
for
distances
up
to
16
feet
MECHANICAL
CONTROLS
The
recommended
practice
is
to
have
the
stop-run
lever
loaded
to
the
run
position
and
controlled
by
a
sheathed
cable
to
a
push-pull
knob
at
the
pilot
station.
The
throttle
lever
should
be
connected
to
a
Morse
type
lever
at
the
pilot
station
by
a
sheathed
cable.
The
transmission
control
lever
may
be
connected
to
the
pilot
sta-
tion
by
a
flexible,
sheathed
cable
and
controlled
by
a
Morse
type
lever.
The
single-lever
type
gives
clutch
and
throttle
control
with
full
throttle
range
in
neutral
position.
The
two-lever
type
provides
clutch
control
with
one
lever
and
throttle
control
with
the
other.
Any
bends
in
the
control
cables
should
be
gradual.
End
sections
11
All manuals and user guides at all-guides.com
at
engine
and
transmission
must
be
securely
mounted.
After
linkages
are
completed,
check
the
installation
for
full
travel,
making
sure
that,
when
the
transmission
control
lever
at
the
pilot
station
is
in
forward,
neutral
and
reverse,
the
control
lever
on
the
transmission
is
on
the
respective
detent.
Check
the
throttle
control
lever
and
the
stop-run
lever
on
the
fuel
injection
pump
for
full
travel.
Some
models
do
not
require
a
stop
cable
because
they
have
either
a
fuel
solenoid
or
an
electric
fuel
pump.
Examples
of
such
models
are
the
W58
and
the
W52.
12
All manuals and user guides at all-guides.com
OPERATION
PREPARATION
FOR
FIRST
START
The
engine
is
shipped
"dry"
•••
with
lubricating
oil
drained
from
the
crankcase
and
fluid
from
the
transmission.
Therefore,
be
sure
to
follow
these
recommended
procedures
carefully
before
starting
the
engine
for
the
first
time.
1.
Remove
oil
filler
cap
and
fill
oil
sump
with
heavy
duty,
diesel
lubricating
oil
to
the
highest
mark
on
the
dipstick.
See
table
under
Maintenance
for
an
approved
lubricating
oil.
Do
not
overfill.
Select
an
approved
grade
from
the
listing
and.
continue
to
use
it.
2.
Fill
the
reverse
gear
to
the
highest
mark
on
the
dipstick
with
TYPE
A
transmission
fluid.
Do
not
overfill.
Refer
to
the
Transmission
Section
of
this
manual
for
details.
Engine
oil
is
not
recommended
because
it
can
foam,
and
it
can
con-
tain
additives
harmful
to
some
transmissions.
If
the
engine
is
equipped
with
a
V-drive,
fill
to
the
full
mark
on
the
dipstick
with
the
recommended
lubricant
specified
on
the
data
tag
on
the
V-drive
housing.
3.
Fill
fresh
water
cooling
system
with
a
50-50
antifreeze
solu-
tion
only
after
opening
all
petcocks
and
plugs
until
all
entrapped
air
is
expelled.
Fill
surge
tank
to
within
one
inch
of
the
top.
Check
this
level
after
engine
has
run
for
a
few
minutes.
If
trapped
air
is
released,
the
water
level
may
have
dropped.
If
so,
refill
tank
to
within
one
inch
of
top
and
replace
filler
cap.
4.
Ensure
battery
water
level
is
at
least
3/8"
above
the
battery
plates
and
battery
is
fully
charged
so
that
it
is
capable
of
the
extra
effort
that
may
be
required
on
the
first
start.
5.
Fill
fuel
tank
with
clean
diesel
fuel
oil;
No.
2
diesel
fuel
oil
is
recommended.
The
use
of
No.
1
is
permissible
but
No.
2
is
pre-
ferred
because
of
its
higher
lubricant
content.
NOTE:
If
there
is
no
filter
in
the
filler
of
the
fuel
tank,
the
recommended
procedure
is
to
pour
the
fuel
through
a
funnel
of
200
mesh
wire
screen.
6.
Fill
grease
cup
on
the
sea
water
pump,
if
present,
with
a
good
grade
of
water
pump
grease.
FUEL
SYSTEM
The
fuel
injection
system
of
a
compression
ignition
engine
depends
upon
very
high
fuel
pressure
during
the
injection
stroke
to
function
correctly.
Relatively
tiny
movements
of
the
pumping
plungers
produce
this
pressure
and,
if
any
air
is
present
inside
the
high
pressure
line,
then
this
air
acts
as
a
cushion
and
prevents
the
correct
pressure,
and
therefore
fuel
injection,
from
being
achieved.
In
consequence,
it
is
essential
that
all
air
is
bled
from
the
system
whenever
any
part
of
the
system
has
been
opened
for
repair
or
servicing.
13
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BLEEDING
PROCEDURES
BY
MODEL
1.
Initial
Engine
Start-up
(Engine
stoppage
due
to
lack
of
fuel)
a.
Insure
that
the
fuel
tank(s}
is
filled
with
the
proper
grade
of
diesel
fuel.
b.
Fill
any
large
primary
filter/water
separator
with
clean
diesel
fuel
that
is
installed
between
the
fuel
tank
and
engine.
To
attempt
to
fill
any
large
primary
filter
using
the
manual
priming
lever
on
the
engine
mounted
fuel
lift
pump
may
prove
futile
or
require
a
considerable
amount
of
priming.
c.
Turn
the
fuel
selector
valve
to
"On".
Systems
with
more
than
one
tank
insure
that
fuel
returning
is
going
to
the
tanks
being
used.
The
above
procedures
are
basic
for
all
initial
engine
start-ups
or
for
resta~ting
engines
stopping
due
to
lack
of
fuel.
WESTERBEKE
W7
AND
WPD4
GENERATOR
(3600
RPM)
(Figure
1)
1.
with
the
use
of
a
5/16
box
wrench
or
common
screw
driver,
open
the
bleed
screw
one
or
two
turns
on
the
outgoing
side
of
the
engine
mounted
secondary
fuel
filter
(Bleed
point
A).
with
firm
strokes
on
the
lift
pump
priming
lever,
bleed
until
fuel
free
of
air
bubbles
flows
from
this
point.
Stop
priming
and
gently
tighten
the
bleed
screw.
2.
With
a
5/8
open
end
wrench
loosen
one
to
two
turns
the
nut
securing
the
injector
line
to
the
injector
(Bleed
point
B).
Decompress
the
eng
ine
wi
th
the
lever
on
the
top
of
the
cylinder
head.
Crank
the
engine
over
with
the
starter.
(W7:
ensure
that
the
engine
stop
lever
is
in
the
run
position
and
the
throttle
is
full
open.)
(4KW:
use
the
defeat
position
while
cranking.)
Crank
the
engine
until
fuel
spurts
by
the
nut
and
line.
stop
cranking
and
tighten
the
5/8
nut
and
proceed
with
normal
starting
proce-
dures.
WESTERBEKE
W30
(Figure
2),
W40
& WPOlO,
l2~,
15
(Figure
3),
W50
&
WEO
15
(Figure
4),
W80
&
BR
30
(Figure
5),
W120
&
BR
45
(Figure
5)
1.
Open
the
banjo
bolt
on
top
of
the
engine
mounted
secondary
fuel
fil
ter
1-2
turns
(Bleed
Point
A).
With
firm
stroke
on
the
fuel
lift
pump
priming
lever,
bleed
until
fuel
free
of
air
bubbles
flows
from
this
point.
Stop
priming
and
tighten
the
bolt.
2.
On
the
fuel
inj
ection
pump
body
is
a
5/16
bleed
screw
(Bleed
Point
B).
This
may
be
mounted
on
a
manifold
with
a
pressure
swi
tch.
Open
th
is
one
or
two
tur
ns
(do
not
remove
it)
and
wi
th
the
priming
lever
bleed
until
fuel
free
of
air
bubbles
flows.
stop
priming
and
tighten
the
bleed
screw.
3.
On
the
control
cover
of
the
injection
pump
(Bleed
Point
C)
is
a
5/16
bleed
screw.
Open
this
screw
one
to
two
turns
and
proceed
as
in
Step
2.
(Note:
Bypass
this
bleed
point
on
the
W30
injection
pump.
)
14
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4.
WSO
injection
pump
only.
Open
the
S/16
bleed
screw
(Bleed
Point
D)
on
the
injector
line
banjo
bolt
one
or
two
turns
and,
with
the
throttle
full
open
and
the
engine
stop
lever
in
the
run
position,
crank
the
engine
over
with
the
starter
until
clear
fuel
free
of
air
flows
from
this
point.
Stop
cranking
and
tighten
this
bleed
screw.
S.
With
a
S/8
wrench
loosen
one
to
two
turns
the
injector
line
attaching
nuts
at
the
base
of
each
injector
and,
with
the
throttle
full
open
and
the
engine
stop
control
in
the
run
position,
crank
the
engine
over
with
the
starter
until
fuel
spurts
by
the
nuts
and
injector
line
at
each
injector.
Stop
cranking
and
tighten
the
nut
and
proceed
with
normal
starting
procedures.
WESTERBEKE
W13, 4.4KW, W21, 7.7KW, W27,
11.lKW,
W33, 12.SKW
(Figure
6)
These
units
are
self-bleeding.
1.
Turn
the
ignition
to
the
ON
position
and
wait
lS-20
seconds.
2.
Start
the
engine
following
normal
starting
procedures.
WESTERBEKE
WS8
&
WTO
20
(Figure
7)
1.
Open
the
bleed
screw
on
the
top
inboard
side
of
the
engine-mounted
secondary
fuel
filter
one
to
two
turns
using
a
10mm
box
wrench
(Bleed
Point
A).
This
fuel
filter
is
equipped
with
a
hand-
operated
priming
pump.
with
the
palm
of
your
hand,
pump
this
primer
until
fuel
free
of
air
flows
from
this
point.
Stop
pumping
and
tighten
the
bleed
screw.
2.
With
bleed
screw
A
tightened,
pump
the
hand
primer
several
more
times.
This
primes
the
inj
ection
pump
which
is
self-bleeding.
The
injection
pump
incorporates
a
feed
pump
which
keeps
the
fuel
system
primed
when
the
engine
is
running;
thus,
no
external
lift
pump
is
required.
3.
Loosen
the
four
injector
line
attaching
nuts
at
the
base
of
each
injector
(Bleed
point
B)
one
to
two
turns
with
a
16mm
open
end
wrench.
Place
the
throttle
in
the
full
open
position
and
crank
the
engine
over
with
the the
starter
until
fuel
spurts
by
the
nut
and
injector
lines.
Stop
cranking
and
tighten
each
of
the
four
nuts
and
proceed
with
normal
starting
procedure.
Figure
1 IS
Figure
2
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Figure
3
Figure
4
Figure
5
16
Figure
6
Figure
7
Typical
Mechanical
Fuel
Lift
pump
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PREPARATION
FOR
STARTING
1.
Check
water
level
in
expansion
tank.
below
the
top
of
the
tank
when
cold.
2.
Check
the
engine
sump
oil
level.
3.
Check
the
transmission
fluid
level.
It
should
be
l~
to
2
in.
4.
See
that
there
is
fuel
in
the
tank
and
the
fuel
shut-off
is
open.
S.
Check
to
see
that
the
starting
battery
is
fully
charged,
all
electrical
connections
are
properly
made,
all
circuits
in
order
and
turn
on
the
power
at
the
battery
disconnect.
6.
Check
the
seacock
and
ensure
that
it
is
open.
STARTING
THE
ENGINE
(COLD)
Most
Westerbeke
marine
diesel
engines
are
equipped
with
a
cold
starting
aid
to
ease
in
the
starting
of
your
engine
when
cold.
1.
Check
to
see
that
the
"stop"
lever
(if
installed)
is
in
the
"run"
position.
2.
Place
the
throttle
in
the
fully
open
position.
3.
Press
the
"Preheat"
button
in
and
hold
for
15
to
20
seconds.
4.
While
holding
the
"Preheat"
button
in,
turn
the
keyswitch
to
the
"ON"
or
"Run"
position.
This
activates
the
panel
gauges,
lights
and
fuel
solenoid
or
electric
fuel
pump
if
so
equipped.
Continue
to
turn
the
keyswitch
to
the
"Start"
position
and
hold
for
no more
than
20
seconds.
Some
units
may
be
equipped
with
a
pushbutton
to
start
rather
that
the
keyswitch
and
in
these
cases
the
electrical
system
is
activated
by
fuel
pressure.
5.
If
the
engine
fails
to
start
in
20
seconds,
release
start
switch
and
preheat
for
an
additional
15
to
20
seconds,
then
repeat
step
4.
6.
As
soon
as
the
engine
starts,
release
the
start
switch
and
the
preheat
button
and
return
the
throttle
to
the
"idle"
position
immediately.
CAUTION:
Do
not
crank
the
engine
more
than
20
seconds
when
trying
to
start.
Allow
a
rest
period
of
at
least
twice
the
cranking
period
bet-
ween
the
start
cycles.
Starter
damage
may
occur
by
overworking
the
starter
motor
and
the
backfilling
of
the
exhaust
system
is
possible.
STARTING
THE
ENGINE
(WARM)
If
the
engine
is
warm and
has
only
been
stopped
for
a
short
time,
place
the
throttle
in
the
partially
open
position
and
engage
the
starter
as
above,
eliminating
the
preheat
step.
17
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