APC CURK57-01-04 User Manual
Displayed below is the user manual for CURK57-01-04 by APC which is a product in the UPS Batteries category. This manual has pages.
Related Manuals
Product
Environmental
Profile
—
PEP
Product
Environmental
Profile
Replacement
Battery
Cartridges
Schneider
Product
Environmental
Profile
—
PEP
Product
overview
The
main
purpose
of
the
Replacement
Battery
Cartridges
(RBCs)
is
to
provide
replacement
battery
packs
in
APC-
branded
Uninterruptible
Power
Supplies
(UPSs).
The
functional
unit
is
to
provide
28.8
Amp
Hour
(Ah)
of
electrical
storage
to
support
back
up
power
to
diverse
UPS
models
for
5
years
using
valve
regulated,
sealed
lead
acid
batteries.
This
range
consists
of
Replacement
Battery
Cartridges
that
range
in
capacility
from
3.2
Ah
to
330
Ah.
The
representative
product
used
for
the
analysis
is
RBC12
APC
Replacement
Battery
Cartridge
#12.
The
product
range
consists
of
products
with
the
following
model
numbers:
(APC)RBC(XXX)(Y-YY)
where
APC
is
optional,
XXX
is
any
number
from
001
to
999
and
(Y)
are
option
designators.
Note
that
Y-LI
and
Y-NMH
are
designators
reserved
for
RBCs
with
Lithium
polymer
and
Nickel
Metal
Hydride
battery
chemistries
and
are
not
included
in
this
product
range.
The
environmental
impacts
of
this
referenced
product
are
representative
of
the
impacts
of
the
other
products
of
the
range
which
are
developed
with
a
similar
technology.
The
environmental
analysis
was
performed
in
conformity
with
ISO
14040.
Constituent
materials
The
mass
of
the
product
range
is
from
1,670
g
and
108,500
g
including
packaging.
It
is
13,919
g
for
the
RBC12
APC
Replacement
Battery
Cartridge
#12
reference
product.
The
constituent
materials
are
distributed
as
follows:
Paper
Steel
Polystyrene
expanded
4.2%
Cables
and
connectors
3.1%
Polyethylene
film
0.8%
Wood
3.3%
Diverse
Thermossetting
Plastics
0.1%
Cardboard
18.5%
Batteries
69.5%
Substance
assessment
Products
of
this
range
are
designed
in
conformity
with
the
requirements
of
the
European
RoHS
Directive
2011/65/EU
(RoHS2)
and
EU
Delegated
Directive
(EU)
2015/863
and
do
not
contain,
or
only
contain
in
the
authorised
proportions,
lead,
mercury,
cadmium,
hexavalent
chromium,
flame
retardants
(polybrominated
biphenyls
-
PBB,
polybrominated
diphenyl
ethers
-
PBDE)
or
phthalates
(Bis(2-ethylhexyl)
phthalate
-
DEHP,
Butyl
benzyl
phthalate
(-
BBP,
Dibutyl
phthalate
-DBP,
Diisobutyl
phthalate
-
DIBP
as
mentioned
in
the
Directive
The
battery
pack(s)
within
this
product
range
are
designed
to
conform
with
the
requirements
of
the
Battery
and
Accumulator
Directive
(European
Directive
2006/66/EC
of
26
September
2006)
and
do
not
contain,
or
only
contain
in
authorized
proportions,
the
regulated
substances
lead
(Pb),
mercury
(Hg)
and
cadmium
(Cd)
as
mentioned
in
the
Battery
Directive.
Additionally,
the
non-spillable,
valve
regulated
lead
acid
batteries
used
in
the
battery
pack(s)
within
this
product
range
are
certified
by
their
manufacturers
as
capable
of
withstanding
the
I[ATA/ICAO
Vibration
and
Pressure
Differential
Test
and
that
at
a
temperature
of
55
degrees
Centigrade,
there
is
no
free
electrolyte
to
flow
from
a
ruptured
or
cracked
case.
Details
of
ROHS
and
REACH
substances
information
are
available
on
the
Schneider-Electric
Green
Premium
website
.
(http:/Awww2.schneider-electric.com/sites/corporate/en/products-services/green-premium/green-premium.page
)
ENVPEP1512012_V1/PEP
Published
by:
Schneider
Electric
12-2015
Product
Environmental
Profile
—
PEP
Manufacturing
The
Replacement
Battery
Cartridge
product
range
is
manufactured
at
a
Schneider
Electric
production
site
on
which
an
1S014001
certified
environmental
management
system
has
been
established.
Distribution
The
weight
and
volume
of
the
packaging
have
been
optimized,
based
on
the
European
Union's
packaging
directive.
The
RBC12
APC
Replacement
Battery
Cartridge
#12
packaging
weight
is
3,979
g.
It
consists
of
2,648
g
of
cardboard,
608
g
of
polystyrene,
480
g
of
wood,
119
g
of
polyethylene
film
and
49
g
of
paper.
The
product
distribution
flows
have
been optimised
by
setting
up
local
distribution
centres
close
to
the
market
areas.
Use
The
products
of
the
Replacement
Battery
Cartridge
product
range
do
not
generate
environmental
pollution
(noise,
emissions)
requiring
special
precautionary
measures
in
standard
use.
The
dissipated
power
depends
on
the
conditions
under
which
the
product
is
implemented
and
used.
This
dissipated
power
is
between
0.0095
W
and
0.9785
W
for
the
Replacement
Battery
Cartridge
product
range.
It
is
0.0854
W
at
100%
load
for
the
referenced
RBC12
APC
Replacement
Battery
Cartridge
#12
product.
This
thermal
dissipation
represents
less
than
1%
of
the
power
which
passes
through
the
product.
The
product
range
does
not
require special
maintenance
operations.
End
of
life
At
end
of
life,
the
products
in
the
Replacement
Battery
Cartridge
product
range
have
been optimized
to
decrease
the
amount
of
waste
and
allow
recovery
of
the
product
components
and
materials.
This
product
range contains
batteries
that
should
be
separated
from
the
stream
of
waste
so
as
to
optimize
end-of-
life
treatment
by
special
treatments.
The
location
of
these
components
and
other
recommendations
are
given
in
the
End
of
Life
Instruction
document
which
is
available
for
this
product
range
on
the
Schneider-Electric
Green
Premium
website
Green
Premium
website
(
http:/Avww2.schneider-electric.com/sites/corporate/en/products-services/green-premium/green-premium.page
).
The
recyclability
potential
of
the
products
has
been
evaluated
using
the
“ECO
DEEE
recyclability
and
recoverability
calculation
method”
(version
V1,
20
Sep.
2008
presented
to
the
French
Agency
for
Environment
and
Energy
Management:
ADEME).
According
to
this
method,
the
potential
recyclability
ratio
without
packaging
is:
62%.
As
described
in
the
recyclability
calculation
method
this ratio
includes
only
metals
and
plastics
which
have
proven
industrial
recycling
processes.
Environmental
impacts
Life
cycle
assessment
has
been
performed
on
the
following
life
cycle
phases:
Materials
and
Manufacturing
(M),
Distribution
(D),
Installation
(1)
Use
(U),
and
End
of
life
(E).
Modeling
hypothesis
and
method:
ENVPEP1512012_V1/PEP
Published
by:
Schneider
Electric
12-2015
Product
Environmental
Profile
—
PEP
-
The
calculation
was
performed
on
RBC12
APC
Replacement
Battery
Cartridge
#12
product.
-
Product
packaging
is
included.
-
—
Installation
components:
no
special
components
included.
-
Scenario
for
the
Use
phase:
the
products
in
this
range
are
not
directly
covered
by
a
PSR.
A
small
amount
of
energy
(0.0854
W
for
the
reference
product)
is
consumed
by
continuously
maintain
the
initial
battery
charge.
The
assumed
service
lifetime
is
5
years
based
on
the
recommendation
of
the
supplier.
-
The
geographical
representative
area
for
the
assessment
is
European,
and
the
electrical
power
model
used
for
calculation
is
ELCD_Electricity_mix_<1kV_EU-27__
ELCD-0089
model.
-
End
of
life
impacts
are
based
on
a
worst
case
transport
distance
to
the
recycling
plant
(1000km)
Presentation
of
the
product
environmental
impacts
For
Replacement
Battery
Cartridge
,
commercial
reference
RBC12or
description
of
Environmental
indicators
ative
product
URE
*
M
D
U
E
Air
Acidification
(AA)
g
H+
eq
4.74E+01
|
1.65E+01
|
2.00E-01
|
0.00E+00
|
4.77E-01
4.86E-01
Air
toxicity
(AT)
m?
4.97E+07
|
4.86E+07
|
2.97E+05
|
0.00E+00
|
5.53E+05
|
2.77E+05
Energy
Depletion
(ED)
MJ
8.05E+02
|
7.32E+02
|
1.52E+01
|
0.00E+00
|
4.47E+01
|
1.33E+01
Global
Warming
Potential
(GWP)
|
gCO,eq.
|
4.60E+04
|
4.18E+04
|
1.07E+03
|
o0.00E+00
|
2.21E+03
|
9.46E+02
(HWP)
Waste
Production
Kg
3.06E-01
3.05E-01
1.33E-06
|
0.00E+00
|
3.79E-04
4.17E-06
Ozone
Depletion
Potential
(ODP)
|
9
we
8.15E-03
|
7.64E-03
|
2.04E-06
|
0.00E+00
|
5.04E-04
4.79E-06
Potential
(POCP)
Creation
|
gc.H,eg.
|
1.95E+01 1.89E+01
2.40E-01
0.00E+00
1.37E-01
2.36E-01
Raw
Material
Depletion
(RMD)
‘|
Y-1
4.09E-12
|
1.09E-12
|
2.20617
|
0.00E+00
|
298E-17
|
1.93E-17
Water
Depletion
(WD)
dm3
4.29F+02
|
4.23E+02
|
1.12E-01
|
0.00E+00
|
5.76E+00
|
9.82E-02
Water
Eutrophication
(WE)
gPO,>
eq.
|
3.00E+00
|
2.98E+00
|
2006-03
|
o.00F+00
|
2.10E-02
|
1.76E-03
Water
Toxicity
(WT)
m?
4.35E+01
|
1.16E+01
|
4.60E-01
|
0.00E+00
|
9.84E-01
4.04E-01
Life
cycle
assessment
has
been
performed
with
the
EIME
software
(Environmental
Impact
and
Management
Explorer),
version
5
and
with
its
database
version
CODDE
2015-04.
The
manufacturing
phase
is
the
life
cycle
phase
which
has
the
greatest
impact
on
the
majority
of
environmental
indicators.
This
product
range
benefits
from
an
eco-design
process
which
is
utilized
in
the
design
of
all
products.
A
design
scorecard
is
generated
for
all
new
products
to
assist
engineers
in
deploying
eco-design
and
then
comparing
the
design
features
of
the
new
product
against
the
previous
version
of
the
product.
which
help
reduce
its
impacts
on
the
environment.
According
to
this
environmental
analysis,
proportionality
rules
may
be
used
to
evaluate
the
impacts
of
other
products
of
this
range:
Across
all
impact categories
impacts
of
other
products
in
this
family
may
be
proportional
extrapolated
based
on
the
ratio
of
the
product
mass
to
that
of
the
reference
product
mass.
The impacts
for
installation
and
use
are
zero
across
all
products
in
the
family.
System
approach
As
the
products
of
the
range
are
designed
in
accordance
with
the
European
RoHS
Directive
2011/65/EU,
they
can
be
incorporated
without
any
restriction
in
an
assembly
or
an
installation
subject
to
this
Directive.
Please
note
that
the
values
given
above
are
only
valid
within
the
context
specified
and
cannot
be
used
directly
to
draw
up
the
environmental
assessment
of
an
installation.
ENVPEP1512012_V1/PEP
Published
by:
Schneider
Electric
12-2015
Product
Environmental
Profile
—
PEP
Glossary
Air
Acidification
(AA)
Air
Toxicity
(AT)
Energy
Depletion
(ED)
Global
Warming
(GW)
Hazardous
Waste
Production
(HWP)
Ozone
Depletion
(OD)
Photochemical
Ozone
Creation
(POC)
Raw
Material
Depletion
(RMD)
Water
Depletion
(WD)
Water
Eutrophication
(WE)
Water
Toxicity
(WT)
The
acid
substances
present
in
the
atmosphere
are
carried
by
rain.
A
high
level
of
acidity
in
the
rain
can
cause
damage
to
forests.
The
contribution
of
acidification
is
calculated
using
the
acidification
potentials
of
the
substances
concerned
and
is
expressed
in
mode
equivalent
of
H*.
This indicator
represents
the
air
toxicity
in
a
human
environment.
It
takes
into
account
the
usually
accepted
concentrations
for
several
gases
in
the
air
and
the
quantity
of
gas
released
over
the
life
cycle.
The
indication
given
corresponds
to
the
air
volume
needed
to
dilute
these
gases
down
to
acceptable
concentrations.
This indicator
gives
the
quantity
of
energy
consumed,
whether
it
is
from
fossil,
hydroelectric,
nuclear
or
other
sources.
It
takes
into
account
the
energy
from
the
material
produced
during
combustion.
It
is
expressed
in
MJ.
The
global
warming
of
the
planet
is
the result
of
the
increase
in
the
greenhouse
effect
due
to
the
sunlight
reflected
by
the
earth’s
surface
being
absorbed
by
certain
gases
known
as
"greenhouse-
effect"
gases.
The
effect
is
quantified
in
gram
equivalent
of
COz.
This indicator
quantifies
the
quantity
of
specially
treated
waste
created
during
all
the
life
cycle
phases
(manufacturing,
distribution
and
utilization).
For
example,
special
industrial
waste
in
the
manufacturing
phase,
waste
associated
with
the
production
of
electrical
power,
etc.
It
is
expressed
in
kg.
This indicator
defines
the
contribution
to
the
phenomenon
of
the
disappearance
of
the
stratospheric
ozone
layer
due
to
the
emission
of
certain
specific
gases.
The
effect
is
expressed
in
gram
equivalent
of
CFC-11.
This indicator
quantifies
the
contribution
to
the
"smog"
phenomenon
(the
photochemical
oxidation
of
certain
gases
which
generates
ozone)
and
is
expressed
in
gram
equivalent
of
ethylene
(CHa).
This
indicator
quantifies
the
consumption
of
raw
materials
during
the
life
cycle
of
the
product.
It
is
expressed
as
the
fraction
of
natural
resources
that
disappear
each
year,
with
respect
to
all
the
annual
reserves
of
the
material.
This indicator
calculates
the
volume
of
water
consumed,
including
drinking
water
and
water
from
industrial
sources.
It
is
expressed
in
dm*.
Eutrophication
is
a
natural
process
defined
as
the
enrichment
in
mineral
salts
of
marine
or
lake
waters
or
a
process
accelerated
by
human
intervention,
defined
as
the
enrichment
in
nutritive
elements
(phosphorous
compounds,
nitrogen
compounds
and
organic
matter).
This
indicator
represents
the
water eutrophication
of
lakes
and
marine
waters
by
the
release
of
specific
substances
in
the
effluents.
It
is
expressed
in
grams
equivalency
of
PO43-(phosphate).
This indicator
represents
the
water
toxicity.
It
takes
into
account
the
usually
accepted
concentrations
for
several
substances
in
water
and
the
quantity
of
substances
released
over
the
life
cycle.
The
indication
given
corresponds
to
the
water
volume needed
to
dilute
these
substances
down
to
acceptable
concentrations.
PEP
achieved
with
Schneider-Electric
TTO1
V10
and
TT02
V22
procedures
in
compliance
with
15014040
series
standards
Verifier
accreditation
N°
:
VH08
Applicable
PCR
:
PEP—PCR-ed
2.1-EN-2012
12
11
Date
of
issue:
12-2015
Period
of
validity:
6
years
Independent
verification
of
the
declaration
and
data,
according
to
ISO
14025:2006
Internal
|
xX
|
External
| |
In
compliance
with
ISO
14025:2006
type
III
environmental
declarations
PCR
review
was
conducted
by
an
expert
panel
chaired
by
J.
Chevalier
(CSTB).
The
elements
of
the
actual
PEP
cannot
be
compared
with
elements
from
another
program.
Schneider
Electric
Industries
SAS
35,
rue
Joseph
Monier
CS
30323
F-
92506
Rueil
Malmaison
Cedex
RCS
Nanterre
954 503
439
Capital
social
896 313
776
€
www.schneider-electric.com
ENVPEP1512012_V1/
PEP
Published
by:
Schneider
Electric
12-2015
©
2011
-
Schneider
Electric
—
All
rights
reserved