LONDON --
A plan for a 50-MW capacity pumped storage facility capable of
generating up to 500 MWh of energy has been approved by the local
council, the developer has announced. The facility will be built in the
Glyn Rhonwy cluster of abandoned slate quarries near Llanberis in north
Wales.
The plan is significant in that pumped storage, which stores energy
in water reservoirs and delivers it on demand, was previously
considered only economically viable on a large scale, like the 1800 MW
Dinorwig facility in northern Wales, which has been in operation since
1984 and was the last major commercial pumped storage facility built in
England and Wales.
The Glyn Rhonwy project’s developer, Quarry Battery Company (QBC),
predicts a new generation of pumped storage facilities built on a much
smaller scale, arguing that they are economically viable and
environmentally more acceptable than another Dinorwig-sized facility.
QBC’s managing director Dave Holmes said, “Our facility compares well
in terms of CAPEX per MWh. The usual scale quoted is £1.5-2.5 million
(€1.78-2.96 million)/MW; we estimate that ours will be about £2
million/MW.” Despite the economies of scale associated with large-scale
development, Holmes said a small site can be just as cheap to develop as
a large one. “The reason,” he said, “is that we’ve been choosy about
sites. Often, with a large site, you’re in the armpit of a mountain and
you have to build a huge dam. There’s less engineering work in a quarry
because there are already holes in the ground.”
Planning and Community Impact
Holmes says QBC looked “all over the place” for the right quarry. If
the rock was highly fractured, he explained, there could be leakage
issues and the reservoirs would need to be lined with cement; a volcanic
or earthquake-prone area would also be problematic. Glyn Rhonwy emerged
as the best choice as it featured a typical Welsh slate formation – the
same geology as Dinorwig, Holmes said, “without too many geological
issues.” QBC will be able to build the majority of the dams from slate
excavated from the site, reducing the amount of new material needed.
Also attractive was that the local council “was looking for an
innovative way” to dispose of the site, Holmes said. Glyn Rhonwy had
been a slate quarry for 200 years when it was acquired by the Ministry
of Defence, which used it as a bomb storage facility. “When that
[facility] fell down in heavy snow with bombs inside,” Holmes said, “it
was turned into a bomb disposal facility. They chucked bombs into the
quarries at the back, one of which we’re using.” In the 1960s and ‘70s
the facility was cleared out: “They drained the lake, took out every
bomb and blew them up with dynamite, then gave the site to the council
where it stayed on the books for 30 years with nothing done with it,” he
continued.
“At the time we got involved, the new plan was to put a ski dome on
the side of the hill and build an international hotel-type resort. None
of the locals wanted that,” he said. In response to this plan, the
community had entered a rival “dummy” bid designed to showcase the
deficiencies of the resort hotel proposal. At that point QBC contacted
community representatives and proposed a downhill mountain biking course
on the site, “and on the inside we’d do pumped storage,” Holmes said.
In 2009 the council agreed to sell the land to QBC if the company
received planning permission, which was awarded on 2 September 2013.
The ecological assessment also took some time, Holmes explained.
Because multiple tunnels across the site are used by bats, new habitats
will need to be built for them when the tunnels are flooded. The
quarries are also a breeding ground for the chough (a rare variety of
crow), peregrine falcon and kestrel, so noise abatement measures will be
necessary during breeding times (although Holmes pointed out that
pumped storage facilities are relatively quiet because the turbine is 80
metres underground). And QBC has promised to plant trees and “manage
the landscape better than it has been managed,” said Holmes.
Environmental group the Open Spaces Society has said the proposed facility will be an eyesore, and the Snowdonia Society,
a charity focused on protecting the Snowdonia national park near the
quarry site, has raised environmental concerns about the construction
process, but Holmes said the park authorities have agreed to the plan.
“In a bigger project where you’d be flooding valleys and building
pylons, environmental concerns would be larger,” he said. “Here we’re
not damming valleys or flooding land. There’s already slate waste all
over, and having another lake isn’t going to change a landscape already
dominated by these features.”
QBC has promised to pay £250,000 (€296,000) into a community benefit
trust controlled by local representatives, with a £10,000 top-up each
year and an annual increase of 2.5 percent in order to keep pace with
inflation. The company expects to pay around £500,000 in taxes each
year. “This is like having 400 new houses in the community,” Holmes
said, “with none of the associated pressure on schools, trash, traffic,
roads etc. It will be very good for the community.”
The Technology
Holmes calls the quarry project a “gravity battery” – one that can
store 500 MWh of power and, at a generating capacity of 50 MW, will have
a 12-hour battery life. It will use 1.1 million tonnes of water, QBC
says.
Pumped storage plants use two water reservoirs, one at a higher
altitude. The “battery” is charged by pumping water to the upper
reservoir for storage; at peak times the water is released, flowing down
through a hydro generator turbine. Proposed for Glyn Rhonwy is a
reversible, variable speed Francis turbine.
The plant will take off-peak power from the National Grid and use it
to pump water up the hill to the second reservoir, where it will be
stored until needed. Pumped storage is flexible: it can be turned on and
off quickly, so it can absorb power when there’s too much on the grid;
when there’s too little, the plant can come online fast, capture the
high price and turn off again. “Pump when prices are low and generate
when prices are high” is Holmes’ maxim.
But with pumped storage, losses in the pump turbine unit mean that
“you don’t get out as much energy as you put in,” says Holmes. For every
4 kWh of power the plant consumes, it will be able to sell 3 kWh back.
So to make the plant work economically, it will need to buy power more
cheaply than it sells it – about 25 percent cheaper in order to break
even, according to hydropower analysts.
http://www.renewableenergyworld.com/rea/news/article/2013/09/the-time-is-right-for-small-pumped-storage-in-the-uk-developer-says
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