Kitchens are permitted to be open to
corridors to encourage residents to
participate in supervised meal preparation. Additional options are offered
permitting larger areas of walls to be
covered with combustible decorations. Exemptions are offered to recognize use of direct-vent gas fireplaces and solid fuel-burning fireplaces.
Requirements of a new chapter on
building rehabilitation are applied
incrementally in proportion to the
complexity of the project so that not
all rehabilitation work must follow
the requirements of new construction.
As I get closer to retirement and to
increased use of the health care system, my hopes are buoyed that
health care facilities will remain safe
while better accommodating the
activities of daily life.
Ron Coté, P.E., is lead engineer, life
safety, at NFPA.
NFPA members and AHJs can use
the Technical Questions tab to post
queries on NFPA 101 at nfpa.org/101.
ELECTRICAL SAFETY
nfpa.org/70 + nfpa.org/70E | by Jeffrey Sargent
Ohm Canada
Two important 2017 NEC changes have roots up north
A
pair of highly visible changes
in the 2017 National Electrical
Code® (NEC®) were influenced by
requirements in the Canadian Electrical Code (CEC). One of these
changes affects how supply conductors to dwelling units in apartment
buildings and other multifamily
units are sized, and the other results
in a change in the construction of
panelboards.
Section 310.15(B)(7) of the NEC
allows service and feeder conductors
supplying dwelling units to carry
more of the calculated load than in
non-residential applications. For
example, a 4 AWG copper conductor with 75 degree C insulation is an
85 ampere wire. Applying the permitted 0.83 factor bumps the conductor ampacity to 100 amperes.
However, this increase has been
limited to use with single-phase,
120/240 volt, 3-wire systems since it
was first included in the 1956 NEC.
The impact of this limitation results
in larger individual dwelling feeder
conductors where the supply is a
three-phase, 208Y/120 volt, 4-wire
system, commonly used for multifamily construction.
The supply system characteristic is
the physics-based reason for the
ampacity allowance. In a three-wire
service or feeder circuit supplied
from a three-wire, single-phase system, the common neutral conductor
carries only the imbalance of current
from the two line conductors. This
results in just two current-carrying
conductors contributing heat within
the raceway or cable. The same does
not hold true with a three-wire
dwelling feeder supplied from a
three-phase, four-wire system. The
2017 NEC change permits the use of
this ampacity increase for singlephase 120/240 volts and for threephase 208Y/120 volts. Part of the
substantiation used to support it was
that the reduced sizes had been successfully used with these supply
characteristics in Canada.
While some may contend that the
reason this has worked in Canada is
because of lower ambient temperatures, the real reason lies in the residential load profile, which is not significantly different from that on the
U.S. side of the border. Experience
has demonstrated that conductor
sizes based on load calculation
requirements have provided good
service without excessive heating due
to the diversity inherent to residential
power usage. General lighting and
appliance branch circuits in a dwelling are not treated as continuous
loads. Cooking loads cycle and generally do not last for long periods of
time. Rarely do the supply conductors carry the current of the full calculated load; in those infrequent
instances where they do, it is only for
brief periods.
The second change will initially
impact manufacturers of panelboards, commonly referred to as
breaker or fuse panels. They will have
to comply with revised product standards (such as UL 67) that require the
line terminals of this equipment to
be isolated from accidental contact.
The term used in the NEC requirement in 408.3(A) is "barrier," and the
type of barrier will be a function of
the manufacturing standard. This
requirement applies to panelboards
used as service equipment because
the line terminals typically do not
have switches or other disconnecting
means that can be used to deenergize the terminals.
Canada has long required that the
line terminals and conductors of service panels be isolated from the
open wiring space containing
branch circuit and/or feeder conductors supplied from the service panelboard. This concept will now be
employed within U.S. electrical
SEPTEMBER/OCTOBER 2016 NFPA JOURNAL
17
http://www.nfpa.org/101http://www.nfpa.org/70http://www.nfpa.org/70E
Table of Contents for the Digital Edition of NFPA Journal - September/October 2016