Emerson PowerPlex Factory Sealed Enclosed Circuit Breakers Important information

Type
Important information

Emerson PowerPlex Factory Sealed Enclosed Circuit Breakers are the new standard for hazardous location electrical products. They offer a number of advantages over traditional cast-aluminum enclosures, including:

  • Increased safety: The individual circuit breaker housings provide a flamepath that prevents sparks or hot spots from igniting gases or vapors within the enclosure. This makes the PowerPlex Panelboard ideal for use in hazardous locations where there is a risk of explosion.
  • Reduced maintenance costs: The individual circuit breaker housings can be easily removed and replaced, without the need to disassemble the entire enclosure. This makes it quick and easy to replace a faulty circuit breaker, reducing downtime and maintenance costs.

Emerson PowerPlex Factory Sealed Enclosed Circuit Breakers are the new standard for hazardous location electrical products. They offer a number of advantages over traditional cast-aluminum enclosures, including:

  • Increased safety: The individual circuit breaker housings provide a flamepath that prevents sparks or hot spots from igniting gases or vapors within the enclosure. This makes the PowerPlex Panelboard ideal for use in hazardous locations where there is a risk of explosion.
  • Reduced maintenance costs: The individual circuit breaker housings can be easily removed and replaced, without the need to disassemble the entire enclosure. This makes it quick and easy to replace a faulty circuit breaker, reducing downtime and maintenance costs.
White Paper
The PowerPlex
Panelboard:
Advancing Panelboard Technology
Understanding component-level protection and its benefits
on installation, maintenance and safety.
May 2007
The PowerPlex Panelboard:
Advancing Panelboard Technology
Understanding component-level protection and its benefits
on installation, maintenance and safety.
The combination of hazardous locations and ignition sources, such as circuit breakers, switches
and motor starters, requires highly engineered protection that prevents a single spark or hot spot from
placing facilities and personnel in danger. These technologies may differ around the globe, but the
goal is the same: keep production running smoothly and safely by preventing electrical devices from
causing ignition of the volatile gases or vapors that may exist within the workplace.
The NEC and CEC standards stipulate that hazardous-
location panelboard enclosures must be designed on the
assumption that vapors or gases have entered the housing and
can be ignited. Appleton products operate safely in hazardous
locations by routing the hot gases from the ignition through
precision-machined “flamepaths.” These pathways allow the
gases to cool to temperatures lower than the ignition point of
the surrounding atmosphere before they are released from the
enclosure.
For decades, North American panelboard enclosures have
had flamepaths incorporated into a flange between the outer
housing’s cover and the body. Large cast-aluminum housings
with numerous bolts to retain the cover on the cast body
were required to maintain the explosionproof integrity of the
enclosure. The Electrical Code typically requires conduit or
cable seals for all incoming and outgoing electrical connections,
as part of the final assembly, to ensure hazardous-location
protection. All this adds significantly to the time, effort and
cost needed to install, maintain and operate panelboards.
The need to reduce downtime and maintenance costs while
preserving safety is driving North American facilities to request
alternative technologies.
IEC Methodology Inspires a Solution
Hazardous location products conforming to International
Electrotechnical Commission (IEC) standards are designed
on the same assumption that a vapor or gas has penetrated the
housing. Where IEC products differ from traditional North
American panelboard design is that the individual breakers
are “factory sealed” rather than depending on the large cast-
aluminum enclosure for protection. These individually sealed
2
Appletons PowerPlex Panelboard redefines NEC-style panelboard enclosures
by transferring the protection from the cast enclosure to the component level.
circuit breakers can then be placed within enclosures that
do not require explosionproof construction. When circuit
breakers need to be replaced, the individually sealed flameproof
component is simply removed and swapped with another.
By protecting the individual breakers, IEC panelboard
enclosures do not require the traditional North American cast
enclosure. The enclosures are lighter and are opened easily,
resulting in substantially less downtime with lower installation
and maintenance costs. Factory-sealed IEC circuit breaker
panelboard enclosures do have some disadvantages. The
expensive pre-sealed flameproof circuit breakers create higher
ongoing maintenance costs and may not be readily available.
Also, because they are sealed, the unvented enclosures retain
heat, potentially requiring amperage derating.
Creating North American
Component-Level Protection
Appletons PowerPlex Panelboard redefines North American
hazardous-location panelboard design by transferring the
flamepath protection from the enclosure to the component
level through individual circuit-breaker housings. This allows
for the functional advantages of IEC designs while meeting
NEC/CEC hazardous-location equipment requirements.
The circuit breaker housings offer quick, onsite maintenance
without the disadvantages of higher costs and reduced breaker
performance. The result is a superior hazardous location
panelboard that offers optimum protection, greater application
flexibility and lower maintenance costs.
Circuit Breaker Housing
Each North American circuit breaker is placed within a
housing that features a labyrinth flamepath joint located
between the cover and body (Figure 1). The top cover has a
ridge that encircles the entire opening. This ridge fits into the
lower housings channel to form the flamepath. Individual
circuit breaker housings are easily bolted and unbolted for
fast breaker replacements while retaining hazardous-location
integrity. The bottom half of the housing is designed to utilize
standard, off-the-shelf North American circuit breakers for
easier, more efficient maintenance.
Vents are located in the housings to allow for pressure and heat
to dissipate (Figure 2). This minimizes nuisance tripping and
the need for additional circuit-breaker derating. The result is
optimized breaker performance and increased lifespan.
ADVANCING PANELBOARD TECHNOLOGY
3
FIGURE 1:
The top and bottom
housing include a
labyrinth channel to
form a flamepath.
FIGURE 2:
Each housing is vented
to safely dissipate heat.
ADVANCING PANELBOARD TECHNOLOGY
Electrical Connections
The housings are designed to accept various circuit breaker
combinations, up to three poles, without compromising
flamepath integrity. Circuit breakers are connected to copper
busses that are molded into the bottom portion of the housing.
Electrical busses extend through the enclosure on each side of
the outer sidewall from the inside cavity (Figure 3).
This allows for the circuit breakers to be completely enclosed
with secure terminal contact, while providing connections
to external electrical terminals. The busses feature increased
safety termination that secure connections against years of
vibration and shock.
Circuit Breakers
The PowerPlex Panelboards individual enclosures can house
and actuate 1-pole, 2-pole and 3-pole standard North American
amperage circuit breakers (Figure 4). The design of the housing
allows for a variety of circuit breakers and combinations, such as
three separate single-pole circuit breakers. It also allows actuation
of all of these combinations through a switching mechanism
attached to the top of each housing (Figure 3). This design also
enables actuation of the protected circuit breakers from both
inside and outside of the panelboard enclosure.
Increased Installation Flexibility
As a result of transferring the flamepaths to the individual circuit
breakers, the PowerPlex Panelboard is available with outer
enclosures made from stainless steel or glass-reinforced polyester
(GRP). The smooth sides and lighter weight aid in transporting
and maneuvering the panelboard during installations.
The PowerPlex Panelboard offers configurations with similar
footprints to traditional cast panelboards. For large applications,
or where space is at a premium, the modular design permits
multiple-enclosure coupling. Any size, from the 3-pole main
breaker to the 42-circuit branch-breaker configuration, can be
connected and stacked horizontally or vertically. Additionally,
the panelboard does not require conduit or cable seals,
significantly simplifying the installation and/or maintenance
process, thus reducing costs. Installers can add entries to the
enclosure in the field without compromising the hazardous-
location rating.
Reduced Total Cost of Maintenance
The PowerPlex Panelboard also simplifies onsite maintenance
by eliminating the removal of the numerous bolts required to
open traditional cast-aluminum enclosures. The Powerplex
Panelboard is unique as it utilizes standard off-the-shelf North
American circuit breakers, with standard North American
amperages and standard North American voltage ratings up to
600 VAC. Work can be easily done in the field, whether it’s on
a land rig, offshore platform, petrochemical facility, heat-trace
panel location or another hazardous environment with much
more simplicity and significantly less cost.
FIGURE 3: A sectional
view of the protected
circuit breaker.
FIGURE 4: The
individual circuit
breaker housings
can accommodate
variations of 1-,
2- and 3-pole
circuit breakers.
4
Actuating mechanism
Electrical busses
ADVANCING PANELBOARD TECHNOLOGY
5
Today, the hourly costs to properly access hazardous-
location enclosures, specifically those hours associated with
disassembling and re-assembling while maintaining the
flamepaths of precision-machined enclosure covers, can
be exorbitant to facilities. Coupled with the cost of plant
downtime, the PowerPlex Panelboard can provide a much
lower total cost of ownership with simple maintenance when
changing breakers. By incorporating standard off-the-shelf
North American breakers, the PowerPlex Panelboard also
enables facilities to maintain replacement breakers on-site.
This is extremely beneficial for locations such as off-shore rigs
that can incur four times the maintenance costs of onshore rigs.
Continuing the Current of Innovation
The successful development of the PowerPlex Panelboard’s
individual component protection establishes a new standard
for hazardous location electrical products. It also opens the
door to advancements across Appletons hazardous-location
electrical product lines, including explosionproof housings for
switch gear, GFCI/EPD devices, photocells and motor starters
– anywhere where there is a potential for an arc or spark
within classified areas.
The PowerPlex Panelboard represents Appletons continuing
dedication to safer and more productive facilities through
innovative technologies and engineering. Complete technical
data and a downloadable product brochure are available at
www.appletonelec.com/powerplex or contact an Appleton
Sales Representative at (800) 621-1506.
Appleton offers a full line of electrical products
for hazardous and industrial locations that
safely and efficiently distribute power, exhibit
light and create connections. Each product
is designed and built to maintain a safe and
productive workplace in robust environments
that push man and machine to the limit.
Appletons leading edge engineering facilities
include explosion, environmental,
photometric, electric and mechanical labs
that are staffed with a team of experienced
engineers dedicated to developing the best
hazardous location electrical products available
anywhere in the world.
Under the EGS Electrical Group family of
brands, Appleton engineers help shape the
industry by working closely with organizations
such as UL, NECA, NFPA, CSA, NEMA,
ANSI, IEC AND IEEE for new standards
that promote safety and technical innovations.
EGS Electrical Groups Electrical Code Review
for hazardous locations, published every three
years in conjunction with the NEC code
updates, helps educate facility engineers and
inspectors. For over 150 years, EGS brands
have been providing a rich tradition of long-
term, practical, high quality solutions.
Distributors, contractors, engineers,
electricians and site maintenance professionals
around the world trust EGS brands to make
electrical installations safer, more productive
and more reliable. EGS is a division of
Emerson Industrial Automation.
U.S. / 1.800.621.1506 / www.appletonelec.com/powerplex
Canada / 1.888.765.2226
The Appleton and Emerson logos are registered in the U.S. Patent and Trademark Office.
All other product or service names are the property of their registered owners.
© 2009, EGS Electrical Group, LLC. All rights reserved.
  • Page 1 1
  • Page 2 2
  • Page 3 3
  • Page 4 4
  • Page 5 5
  • Page 6 6

Emerson PowerPlex Factory Sealed Enclosed Circuit Breakers Important information

Type
Important information

Emerson PowerPlex Factory Sealed Enclosed Circuit Breakers are the new standard for hazardous location electrical products. They offer a number of advantages over traditional cast-aluminum enclosures, including:

  • Increased safety: The individual circuit breaker housings provide a flamepath that prevents sparks or hot spots from igniting gases or vapors within the enclosure. This makes the PowerPlex Panelboard ideal for use in hazardous locations where there is a risk of explosion.
  • Reduced maintenance costs: The individual circuit breaker housings can be easily removed and replaced, without the need to disassemble the entire enclosure. This makes it quick and easy to replace a faulty circuit breaker, reducing downtime and maintenance costs.

Ask a question and I''ll find the answer in the document

Finding information in a document is now easier with AI