New legislation: Are you ready?
January 1st 2011 New legislation comes into effect in June across the UK and the entire EU regarding a
minimum efficiency for industrial electric motors.Robin Cowley of Baldor UK explains the
implications for industrial users and OEMs
From the 16th June 2011 only motors
with an efficiency rating of IE2 or
higher, can legally be 'put on the
market'. This will have considerable
consequences to all industrial users and
original equipment manufacturers alike. This
legislation, 'Ecodesign Directive
2009/125/EC' covers 3-phase motors in the
power range of 0.75 through to 375kW.
Efficiency and standards
As motors have evolved, manufacturers have
achieved greater efficiencies by the use of
better materials, improved design and
advanced production techniques. This now
presents users with a range of motor designs
that offer different levels of efficiency.
The International Electrotechnical
Commission (IEC) has published an
international standard that defines 3 distinct
energy efficiency classes for single-speed,
three-phase motors (IE1, IE2, and IE3). This
standard has also been adopted as a
European and UK Standard (BS EN 60034-
30:2009). IE4 efficiency class is in
development. The IE classes replace the
previous 'CEMEP EFF' classes as the table
below shows.
Energy savings
Higher efficiency motors cost more to
purchase because of the more intensive
production techniques and additional
material costs. However, the saving in
operating energy costs can often offset the
higher capital cost. For example, with an
11kW 4 pole motor at 8000 operating hours
per year, the additional cost of an IE2 motor
is paid back in 7 months, with an IE3 motor
paying back in 10 months. Even at only 2000
operating hours per year, the energy saving
repays the capital in about 3 years.
Therefore, while IE2 will be the
mandatory minimum level until 2015 when
it rises to IE3, assessing the economic
viability of further investment up to IE3 level
would be well advised now.
Moving to motors of the highest efficiency
– IE3 and higher – will yield the highest
savings in terms of energy and attract carbon
tax credits. This in turn yields much shorter
payback periods that are more readily
acceptable financially. This type of motor
will however often require some further
engineering and logistical considerations to
optimise the installation.
Transition matters
To ensure a smooth transition, an
understanding of the mechanical and
performance differences of these motors is
essential in order to realise maximum
financial benefits and a trouble free
installation. Energy savings are not the only
benefits to premium efficient motors.
Mechanical differences – Higher efficiency
motors can be larger physically due to the
extra material, particularly at the low end of
the kW range. They will have a smaller fan
due to the cooler operating temperatures
and therefore reduced acoustic noise
levels. Overall a premium efficient motor
will operate cooler internally with better
steel, quieter, less mechanical stresses
through tighter fits and better balancing.
This will result in providing a more
reliable, longer life-cycle motor
installation. Improved productivity from
less down time is an additional benefit.
Electrical power requirements and
considerations – Using a premium efficient
motor will reduce the full load current
drawn from the power supply. Therefore
the electrical protection of the motor must
be reviewed. Conversely, the starting
current (or inrush current) will usually
increase from 4 to 5 times full load for a
normal efficiency motor, to 6 to 8 times
full load for premium efficient motors.
Therefore, the motor overload protection
system will also need to be reviewed.
Installation and application considerations
– Checking the motor for oversizing is
always recommended as changing to high
efficiency offers the chance to optimise
motor size. Higher efficiency motors
operate at higher RPM for the same load
and this can cause problems with the
driven load, particularly fans, pumps and
other quadratic type loads. Starting torque
on higher efficiency motors can be less,
therefore a check is needed against the
characteristics of the driven load.
Under loading the motor does NOT
improve efficiency. This may have been true
with older, less efficient designs, but higher
efficient motors will typically have the best
power factor and efficiency at near full load.
Worldwide move
It is worth noting that most of the
industrialised world either already has or is
currently setting up mandatory minimum
efficiency & performance standards (MEPS).
In fact North America has had a MEPS
equivalent to level IE2 since the mid 1990s
and has now moved to the equivalent of IE3
under the EISA legislation. In this respect
Europe has been slow to embrace higher
levels of motor efficiency and even slower to
adopt respective legislation. More articles from Baldor UK Limited: | 
