174
Boom
Lift
Models X17JPLUS
MAINTENANCE
MUX17JP021602
• Even
if
this
is
quite
unlikely,
there
may
be
fires
as
a
consequence
of
the
explo
‐
sion.
The
ways
these
emergencies
are
faced
are
described
in
the
following
para
‐
graph.
• The
exploded
cell
may
be
hot.
Allow
it
to
cool
down
to
ambient
temperature
before
handling
it
(see
Procedure
for
handling
hot
cells).
• Wear
safety
equipment:
coat,
gloves,
mask
and
filters.
• In
case
of
explosion
the
area
around
the
cell
will
be
covered
by
a
black
carbo
‐
naceous
material
which
contains
metallic
parts
of
the
cell.
Cover
the
carbonace
‐
ous
residues
with
a
50/50
mixture
of
soda
and
vermiculite
or
other
absorbent
material.
Avoid
contact
between
the
metallic
residues
and
charged
cells,
as
this
condition
may
cause
a
short
‐
circuit.
• Place
the
contaminated
material
in
a
sealable
plastic
bag
and
remove
the
excess
air.
Seal
the
bag.
• Place
a
cup
of
vermiculite
in
a
second
bag,
place
the
first
bag
in
the
second
and
seal
it.
• Clean
the
area
with
plenty
of
water
and
keep
cleaning
with
water
and
soap.
• Dispose
of
the
hazardous
material
in
accordance
with
the
local
legislation
in
force.
FOR
THE
FIRST
AID
IN
THE
EVENT
OF
CONTACT
WITH
THE
ELECTROLYTE
SEE
THE
PREVIOUS
PARAGRAPH
12.18.1.5.Lithium
battery
fire
All
metals
may
burn
in
certain
conditions,
which
depend
on
certain
factors
such
as:
physical
state,
presence
of
oxidising
atmospheres
and
severity
of
the
source
of
ignition.
Alkali
metals
such
as
lithium
may
burn
in
normal
atmospheres.
In
addi
‐
tion,
lithium
reacts
explosively
with
water
to
form
hydrogen
and
the
presence
of
small
quantities
of
water
may
set
fire
to
the
material
and
the
hydrogen
gas
that
is
released.
Once
metal
fires
start
they
are
very
hard
to
extinguish
with
ordinary
equipment.
This
is
partly
due
to
the
strong
heat
produced
by
the
burning
metal,
whose
temperature
may
reach
1000°C.
In
addition,
lithium
may
react
with
certain
materials
commonly
used
in
fire
extinguishers,
like
water
and
CO2.
Special
extin
‐
guishers
are
required,
designed
for
controlling
and
extinguishing
lithium
fires.
In
particular,
graphite
‐
based
extinguishers
(Lith
‐
x)
are
used.
Usually
these
extingui
‐
shers
work
by
forming
a
crust
or
a
layer
of
material
on
the
surface
of
the
burning
metal.
Lith
‐
x,
which
is
a
common
graphite
‐
based
agent,
may
be
used
with
an
ex
‐
tinguisher
or
spread
over
the
fire.
In
the
event
of
lithium
fire,
the
room
may
fill
with
a
dense
white
smoke,
mostly
formed
by
lithium
oxide
and
other
metal
oxi
‐
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