WASHINGTON — Even as the Environmental Protection Agency considers requiring existing coal-fired power plants to cut their carbon dioxide output, some utilities have started to use a decidedly low-tech additive that accomplishes that goal: wood.
Link to the article on New York Times
Ranging in size from sawdust to chunks as big as soup cans, waste wood
from paper mills, furniture factories and logging operations has been
used with varying levels of success. Minnesota Power, which once
generated almost all of its power from coal and is now trying to convert
to one-third renewables and one-third natural gas, found that co-firing with wood was a quick way to move an old plant partly to the renewable category.
“We’re finding an emissions improvement benefit, and an economic
benefit,” because the wood is cheaper than coal, said Allan S. Rudeck
Jr., Minnesota Power’s vice president for strategy and planning.
One boiler at the company’s Rapids Energy Center, near Grand Rapids, Minn., has run at up to 90 percent wood.
For companies like Minnesota Power, co-firing will be one of the leading
options if the E.P.A., which recently proposed limits on carbon
emissions for new plants, follows through on its plan to develop limits
for old ones.
Using modest amounts of wood at a large number of coal plants could be a
relatively quick way to phase in renewable energy. And unlike wind or
solar power electricity from a boiler, burning wood is easy to schedule
and integrate into the grid.
The E.P.A. is in the midst of “listening sessions” in 11 cities around
the country, to gather ideas from the public about putting carbon limits
on existing plants. Last week it held an eight-hour session in Denver.
Wood does release carbon when burned, as nearly all fuels do. But taking
woody material from forests or farms leaves space for new growth, which
will absorb carbon dioxide from the atmosphere as it grows. Although
some opponents of using wood say that disrupting forests means added
carbon dioxide in the atmosphere for generations, regulators usually
count its use as zero carbon.
Coal plants are finely engineered, designed to burn one particular kind
of coal, and adding wood can be tricky. But their carbon output, like
their overall efficiency — that is, the amount of coal burned compared
with the amount of electricity generated — has grown worse in many cases
in recent years. Earlier E.P.A. rules that cover emissions of soot,
nitrogen oxides and other pollutants have required plants to install
pollution control equipment that itself consumes a lot of energy.
Many companies, to minimize the loss of capacity, have taken another
step that the E.P.A. would like to encourage: replacing their aging
steam turbines, which often date to the 1970s and 1980s, with more
efficient ones. Turbines take the energy from steam and use it to spin a
shaft that turns a generator.
Plants that have already installed modern turbines cannot get big
improvements from installing even newer ones and may face a bigger
challenge meeting new carbon regulations. Duke Energy, for example,
upgraded many turbines to offset the capacity loss as it added
scrubbers.
“A lot of the low-hanging fruit has already been harvested” for
efficiency improvements, said Thomas Williams, a spokesman for Duke. If
Duke and other companies are forced to cut emissions, a crucial question
for them will be what year is selected as the baseline, the year to
which the final result is compared; many will seek to make that year the
one before they replaced their turbines.
In the end, some older plants, less efficient to begin with, are more
likely to be retired and replaced with natural gas ones, industry
executives say, but younger ones judged to have decades of life left in
them are good candidates for co-firing.
Co-firing has its drawbacks. In some cases, particularly for bigger
companies, there is simply not enough wood. American Electric Power,
trying to meet Ohio’s renewable energy standard, tried wood twice at its
Picway plant south of Columbus, which was built in 1955. In 2003, it
used sawdust from a cabinet manufacturer, and in 2010, waste wood
chunks. But it dropped the test.
“The material is difficult to get in any quantity and any predictable
form,” said Mark C. McCullough, American Electric Power’s executive vice
president for generation.
Wood was “difficult to introduce in our combustion systems, if we don’t
know what to expect,” he said. The feeder system had trouble handling
the bigger chunks, he said.
The larger size of wood compared to coal is also an issue. A pound of
wood can produce only about two-thirds as much heat as a pound of coal,
and it is a lot bigger. So to produce the same amount of energy,
companies must enlarge their fuel-handling systems. And coal-fired power
plants are not used to fuel that can rot or grow fungus.
Small amounts of wood can be mixed in with coal and added to existing
equipment that pulverizes coal into powder, which is then burned, but
that limits co-firing to about 5 percent of fuel, and some companies say
that their pulverizing equipment cannot handle the wood. Other
companies have cut holes in the boiler and blown in wood, chopped into
confetti-size pieces. That requires expensive modifications, but it
allows wood to substitute for 15 percent of the coal, or sometimes more.
European utilities have experimented with heating the wood in a chamber
outside the plant, producing a fuel gas of carbon monoxide and hydrogen,
and pumping that into the boiler, but that is even more expensive.
But “close to 200 plants have conducted test burns, worldwide,” said
David L. Nicholls, a forest products technologist at the United States
Forest Service and a specialist on co-firing,
who is based in Sitka, Alaska. In the long term, experts say, to reach
carbon goals, power companies will have to capture the carbon from all
the coal they use, and probably most of the natural gas, too.
But in the meantime, Mr. Nicholls said, “You could look at co-firing as a bridge strategy.”
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