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Smarter Electric Grid Could Be The Key To Saving Power
MILTON, ONTARIO (AP) - The glowing amber dot on a light switch in the entryway
of George Tsapoitis’ house offers a clue about the future of electricity.
A few times this summer, when millions of air conditioners strain the Toronto
region’s power grid, that pencil-tip-sized amber dot will blink. It will
be asking Tsapoitis to turn the switch off - unless he’s already programmed
his house to make that move for him.
This is the beginning of a new way of thinking about electricity, and the
biggest change in how we get power since wires began veining the landscape
a century
ago.
For all the engineering genius behind the electric grid, that vast network
ferrying energy from power plants through transmission lines isn’t particularly
smart when it meets our homes. We flip a switch or plug something in and generally
get as much power as we’re willing to pay for.
But these days the environmental consequences and unfriendly economics of
energy appear unsustainable. As a result, power providers and technology companies
are making the electric grid smarter.
It will stop being merely a passive supplier of juice. Instead, power companies
will be able to cue us, like those amber lights in Tsapoitis’ house, to
make choices about when and how we consume power. And most likely, we’ll
have our computers and appliances carry out those decisions for us.
Done right, the smarter grid should save consumers money in the long run
by reducing the need for new power plants, which we pay off in our monthly
electric
bills. However, if people fail to react properly to conservation signals,
their bills could spike.
And certainly a smart grid that can encourage us to conserve will feel different.
Envision your kitchen appliances in silent communication with their power
source. The fridge bumps its temperature up a degree on one day, and the dishwasher
kicks on a bit later on another.
Smart-grid technologies have gotten small tests throughout North America,
as utilities and regulators scout how to coax people to reduce their demand
for
power. But there’s little doubt it’s coming. The utility Xcel
Energy Inc. plans to soon begin a $100 million smart grid project reaching
100,000
homes in Boulder, CO.
In Milton, an exurb where dense subdivisions encroach on farm fields, a test
with the Tsapoitis family and 200 other households reveals what will be possible
- and how much more work needs to happen.
Tsapoitis uses his computer to visit an online control panel that configures
his home’s energy consumption. He chooses its temperature and which
lights should be on or off at certain times of the day. He can set rules for
different
kinds of days, so the house might be warmer and darker on summer weekdays
when his family is out.
The family can override those changes manually, whether it’s by turning
on the porch light or raising the thermostat to ward off a chill. But the
system guards against waste. If midnight comes and no one has remembered to
lower the
thermostat and turn off the porch light, those steps just happen.
These little tweaks add up nicely for another person testing the Milton system,
Marian Rakusan. He’s saved at least $300 on utility bills since the program
began in September. Tsapoitis and his wife, Lisa, aren’t certain of their
savings but say their 2,400-square-foot home has lower energy bills than a friend’s
1,800-square footer.
This alone is not revolutionary, because programmable thermostats and other “smart
home” controls let people craft similar resource-saving plans. The big
change here is the combination of these controls with that blinking amber
light on the switch - where the grid talks back.
Milton’s local gas and electricity retailer, Direct Energy, will set those
amber dots blinking in an emergency. It might happen a few times in a summer
month. Maybe there will be congestion in Ontario’s overtaxed transmission
network. Perhaps a power plant will be down for maintenance. Or rapacious
air conditioners will overwhelm electric capacity.
Whatever the cause, at that moment, this section of the grid needs a reduction
in demand, fast, or else outages loom.
People in Milton’s test are expected to configure a “brownout” setting
on their computers, indicating how their homes should respond in such a situation.
In this test, Direct Energy also will enforce conservation remotely. It can
raise the set temperature in a participant’s home by 2 degrees Celsius
in the summer (nearly 4 degrees Fahrenheit), reducing its air conditioning load.
The company also has permission to shut off the testers’ hot-water heaters
and electric pool pumps for four hours at a time during these power emergencies.
Tsapoitis shrugs at that aspect of the arrangement. It’s better than rolling
blackouts. Rakusan, however, says he’s not sure he likes the idea of the
power company tweaking his home’s settings.
Indeed, it appears unlikely that broad swaths of the public will accept remote
control from the power company. California officials recently had to back
away from a proposal to require remote-controlled thermostats in new buildings.
So a more likely scenario is that consumers will get powerful economic incentives
to make those decisions themselves.
Typically we pay a flat rate for electricity, even if sometimes it falls
below the actual costs of supplying power at a given moment. In a growing number
of places, rates move slightly higher in hours that typcially are busiest.
An advanced notion of this will be tested this summer in 1,100 homes served
by Baltimore Gas & Electric. Pricing plans will vary, but generally the
households will pay the cheapest, “off-peak” rates most of the time.
Some testers will pay higher rates every weekday afternoon. And all of them
will be subject to “critical peak” periods of even higher charges,
declared on as many as 12 weekday afternoons with stress on the grid.
The Maryland utility will have its own version of Milton’s amber dots.
Most of the homes will get 3-inch-high orbs that will glow different colors
to indicate the price of electricity: red instead of their usual green, for
example, during critical peak periods.
Even this will probably be a primitive step.
Eventually, the smart grid will let rates fluctuate even more dynamically,
depending on conditions. That already happens in wholesale electricity markets,
in which
power suppliers buy energy from power producers. Now that would extend to
the retail level - our homes. The price of electricity would dip when demand
is
softest, typcially at night or on mild days, and rise in periods of strain.
There’s only one problem. “Consumers are not sitting at home waiting
for the latest signal from the power grid,” says Rob Pratt, a scientist
with the Department of Energy’s Pacific Northwest National Laboratory. “To
get the kind of widespread response that we’d really like to have, keeping
it automatic is real important.”
In other words, appliances designed to interact with the smarter electric
grid will adjust themselves.
Pratt’s lab has already built and tested controllers that can make it
happen. And over the next decade, Pratt expects homes to get appliance controls
with a sliding scale. At one end people could choose something like “maximize
my ease and comfort.” At the other, “save me the maximum amount
of money.” The highest-conservation settings might lead dishwashers
to start only when electricity prices are at their lowest, or when wind power
has
kicked on.
When Pratt and colleagues tested aspects of this in 112 homes in Washington
state, they determined the average household’s electricity bills would
drop 10 percent.
It says a lot that conservation would be encouraged by the very companies
that make money off the use of electricity. But they have no real choice.
Electricity use per home rose 23 percent from 1981 to 2001, according to
the Department of Energy. Blame increases in electronics and appliances, and
our
decreasing tolerance for sweating through the summers. The Census Bureau says
46 percent of single-family homes completed in the U.S. in 1975 had air conditioning.
In 2006 that was 89 percent.
Meanwhile, meeting that demand is getting trickier. Raw materials that fuel
power plants are soaring in price and being eyed more skeptically by regulators
concerned about air quality and greenhouse gases. And that’s even before
the next U.S. president, as seems likely, supports caps on carbon emissions.
“
We just can’t keep building more coal plants,” says Roy Palmer,
head of regulatory affairs at Xcel Energy.
So until some bountiful and clean power source can be delivered cheaply,
electric utilities are pressured to extend the generating capacity we already
have.
The effects of well-chosen reductions in usage - an idea known as “demand
response” - can be huge. A mere 5 percent improvement in U.S. electric
efficiency would prevent 90 large coal-fired power plants from having to be
built over the next 20 years, according to Jon Wellinghoff, a member of the
Federal Energy Regulatory Commission who advocates demand response.
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