Asked by Lord Cameron of Dillington To ask His Majesty’s Government
what assessment they have made of the geothermal potential for heat
and power in Great Britain; and what plans they have, if any, to
make use of it. The Deputy Chairman of Committees (Baroness Henig)
(Lab) My Lords, Members will notice that the clock is not working,
but I am sure they will seek to respect the time limits. Lord
Cameron of Dillington (CB) My Lords, first, I thank
everyone,...Request free trial
Asked by
of Dillington
To ask His Majesty’s Government what assessment they have made of
the geothermal potential for heat and power in Great Britain; and
what plans they have, if any, to make use of it.
The Deputy Chairman of Committees () (Lab)
My Lords, Members will notice that the clock is not working, but
I am sure they will seek to respect the time limits.
of Dillington (CB)
My Lords, first, I thank everyone, including the Minister, for
taking part in this important debate. Apparently, I am not
allowed to say anything at the end, so I thank noble Lords
now.
The importance of what we have to say is evidenced by the fact
that heating and hot water make up around 40% of the UK’s energy
consumption and nearly one-third of our greenhouse gas emissions.
That is quite a large proportion, so this area needs a lot of
focus. However, so far, compared to our continental
neighbours—who, like us, are blessed with geothermal potential—we
have done little to harness the power lying waiting for us: the
heat beneath our feet.
In Holland, they hope to meet 23% of their heat demand by 2050
using geothermal heat. I realise that we cannot hope to match
that because of our more dispersed population and our dispersed
geothermal resources—population centres and geothermal resources
do not always occur in the same place—but, with the right
policies, there is considerable potential, which I will come to
in a moment.
Meanwhile, the deep aquifer under Paris is supplying geothermal
heat to around 250,000 homes, while in Munich and its surrounding
communities some 130,000 houses now have geothermal heating.
France currently has 74 geothermal plants and aims to increase
that by 40% by 2030. The Netherlands has 21 plants and major
increases planned, and Germany has 190 plants. But in England,
only a few buildings are currently heated geothermally, although
a few schemes are currently being developed around the country.
Given the heat resources beneath our feet, it is a pretty poor
record so far.
The UK has good potential in terms of enhanced geothermal
systems—that is, 5 kilometres down, or more. A mere 2% of this
potential could cover the current UK energy demand for over 1,000
years. We have two pilot schemes in Cornwall: one near Eden and
one near Redruth. This heat is very expensive and difficult to
tap into—right now, a lot of drill bits are wearing themselves
out on our Cornish granite—but both these projects should
eventually provide large amounts of meaningful heat, not only for
direct use in homes, businesses, biospheres and hospitals, but, I
hope, with temperatures capable of driving a turbine to produce
electricity. We shall see.
While some of our very deep rocks have potential, the greatest
potential for heat lies in much shallower aquifers. The
geothermal gradient in the UK averages—I stress that word—27
degrees per kilometre, so temperatures at 1,000 metres, 3,000
metres and 5,000 metres underground are usually 40, 90 and 150
degrees centigrade respectively.
Even a small amount of heat combined with a heat pump is worth
harnessing. For instance, our family home in Scotland is heated
with a water-based heat pump using an aquifer only some 20 metres
down. It was cheaper to install than a flat surface loop in the
field, and the aquifer water temperature is 9 degrees centigrade,
compared to the normal flat ground loop temperature of 5 degrees
centigrade, which therefore minimally reduces the cost of our hot
water.
More to the point, many major population centres in the UK live
above, or are adjacent to, hot sedimentary aquifers at, say, 500
to 2,000 metres’ depth, with temperatures usually in the range of
25 to 60 degrees centigrade. These, combined with an at-scale
community heat pump, have huge potential to produce heat for
hundreds of thousands of homes, plus factories, hospitals,
greenhouses and so on.
A recent report by Dr Mullan MP identified the enormous benefits
available from such heat sources and made the point that these
resources are, luckily, predominately available in areas
suffering from a lack of economic resilience—in other words,
areas which would qualify for levelling up and where these
geothermal projects would, therefore, do the most good. But at
the moment we are doing little or nothing to tap into these
resources: the heat beneath our feet.
Cutting to the chase, we need, first, a proper, detailed
subsurface survey of all our geopotential. This geothermal atlas
should identify all the opportunities in detail, and it then
needs promoting so that businessmen, builders and local
authorities are aware of the local potential. The recent fuel
crisis must surely give properties with cheap heat potential an
advantage in the marketplace, and the marketplace needs to be
informed of that potential advantage.
Secondly, the Government must then set themselves targets for the
development of geothermal wells—so many per year to be developed.
That is what they have done in Holland. Then the Government must
promote these opportunities and put in place a firm long-term
plan of support. This sustained support is very important and
could include some form of initial grants, subsidies—perhaps in
the form of FiTs or CfDs—or investment assistance. For some
reason, energy projects do not qualify for EIS relief, which
seems to make a mockery of the Government’s ambitions to make the
UK a green and renewable energy investment hothouse.
Drilling is the most expensive bit, and in that context, with the
expertise available from our now hopefully fading oil and gas
industries, we should have an advantage. France, the Netherlands
and Germany have all used national risk insurance schemes to
attract private capital. For instance, for every £1 paid by the
French Government, £42 has been leveraged from private investors.
The Mullan report indicated that our potential investors are not
attracted by this route, and it is not for me to tell the
Government and the industry how to achieve their target number of
geothermal wells. Setting a target and delivering it are the
important bits, along with some sort of stable but long-term
support or derisking measures.
Thirdly, the UK must deregulate. It is absurd, for instance, that
in England and Wales you still need both an abstraction licence
and a discharge licence to take water out of an aquifer and put
it straight back in again. In Scotland, under general binding
rules, abstractions and discharges in an open loop system do not
need any licence or permit, provided that the water is discharged
back into the same geological formation from whence it came.
Furthermore, the planning system in a heat network zone should
encourage and facilitate the harnessing of our geothermal
resources, rather than cause delays.
Fourthly, in order to build the supply chain, the Government
should zone areas which have geothermal resources, and then put
in place in those heat network zones effective legislation
compulsorily to reduce the long-term carbon output from all new
buildings and, where possible, older ones as well. This
legislation should look to promote communal heating systems—I
really do not know why we have so few such systems in this
country—or it could promote the use of geothermally heated water
with so-called shoebox heat pumps. I always prefer to encourage
rather than compel people to do the right thing, but in the
Netherlands, which is virtually one large geothermal zone, they
have already prevented all new-build houses connecting to the gas
grid. There must be a lesson there. In this country, we are too
hooked on the gas grid.
Fifthly and finally, the UK Government must involve local
communities and get people and planners involved in heat network
zoning. This should be part of a drive to grow the demand and the
supply chain. Tapping into geothermal heat should become part of
national thinking in the architectural, planning and construction
worlds. We have geothermal resources in the UK: we have the heat
beneath our feet. We also have the drilling skills left over from
our oil and gas exploration. The UK geothermal industry is poised
to deliver growth, renewable heat and employment; it just needs a
small amount of government focus and pump priming.
3.09pm
(Con)
My Lords, I am extremely grateful to the noble Lord, of Dillington, for giving us
the opportunity to debate this subject, and to my honourable
friend for all the work he has done
in exploring its potential. I am going to approach this as a
former investment banker because I think we are looking at an
extremely investable set of projects, but one which needs some
government support at the beginning.
Once we get going and are in the state they are in on the
continent—when we know the state of the underground aquifers and
know that they are permeable —we are looking at producing a
long-term stream of income, which is essentially index linked. By
long term, I mean 100 years or so. Essentially, these projects
have low costs to keep them going. Such a project is an extremely
attractive asset for big insurance companies, pension funds and
others, but one that they are not used to. They need talking
through, educating and working into this so that they are
prepared to pay a really good price for what should be, for them,
an excellent asset. That is work I hope to encourage the
Government to do.
The second side is the initial risk. For instance, looking at
southern England, we know that there is a good layer of
carboniferous limestone. We did a lot of oil exploration in the
layers above it, so we have a pretty good picture, but we do not
know that the fracture zones are permeable. We could get down
there and find that it is all gummed up. I do not think it will
be. The British Geological Survey produced some recent mapping,
which gives me a lot of confidence that that and other strata
throughout the UK will prove to be productive, but we just do not
know.
Although we have experienced crews from the North Sea, they are
not experienced in this geology. It will take them longer to
drill the first hole than the 10th hole, by which stage it will
be falling off a log for them, as it were. You just do not know,
when you are drilling a first hole into a stratum, exactly what
it will feel like and how it will work. There are risks there,
which are likely to increase costs. For the first well, there are
very substantial equity risks. In a stable situation, you will
get one bad hole in 20 and you can insure against that. They do
this on the continent; the insurance system covers it, and you
know what the picture is. But for the first hole in a new
geological province in the UK, you just do not know.
There is a real role there for the Government to stand as a very
expensive equity investor—not to say, “We will give you a grant
or a subsidy”, but “If we are taking the risk, we want a proper
return from this. If you can do better on the commercial market,
then do better on the commercial market, but we will be the first
equity investor because we as a country need to get this
started”. If that is an attractive idea to the Government, I hope
they will agree to a meeting because I have been running around
the City looking for people who would respond positively to such
an opportunity. There appears to be no great shortage of
them.
I am optimistic that we can make this happen, even below London.
We do not know anything about what happens below London. The
first well there will be a complete unknown, but if we can show
that there is a geothermal resource beneath London, that is a
superb place to start heat networks. We can, as the noble Lord,
, said, start to chew into the
40% of our energy that is going on heating, most of which is
coming from fossil fuels. We could provide maybe up to 10% of
total UK energy demand from geothermal resources. I encourage the
Government to take this seriously and do what it takes to get it
started. It could be a complete bust, but without their help, we
will never know.
3.14pm
(Lab)
My Lords, it gives me great pleasure to follow the noble Lord,
, and I am grateful for the
opportunity that the noble Lord, of Dillington, has provided
for this debate.
My civil engineering days are decades past but I did a lot of
rock drilling in my youth. Technology has moved on, but even in
those days it was quite simple and straightforward. Of course,
the geology varied. Looking at the application to the production
of energy that we are talking about today, it has one thing in
common: there is a plentiful supply of drills, drilling and
expertise—there is plenty of water underground. It could
eventually be cheap, and of course it is safe; it is nothing like
fracking, which people get worried about. It is all to do with
water. I appreciate that the capital cost to start with is high,
as other noble Lords have said, and some of the drills may be
noisy, but on the other hand, you do not need much space, the
technology is well proven, and as we move forward and get a
plentiful supply, the costs will come down.
The other interesting thing that many people forget is that the
temperature of the water that comes out can vary dramatically. I
think that at Eden, which the noble Lord, , mentioned, it is 85 degrees
centigrade, which is pretty hot—plenty hot enough—but even lower
temperatures not so far down are hot enough for many purposes. I
live in Cornwall and in the Isles of Scilly and I have been to
see this project in Eden. The drill was, frankly, enormous, very
impressive and fast, and it is now working. The noble Lord,
, mentioned Redruth; the first
one was in fact in Penzance. Noble Lords may know that there is a
rather interesting open-air swimming pool next to the sea, part
of which is heated with geothermal water, and there is a queue of
people to go to it. There is not as much water as there might
have been because they are experimenting with air-drive and
water-drive drills, but it works, people like it, and it is
available.
We spend a lot of time in your Lordships’ House talking about
storage—hydroelectric is one solution, and underground gas
storage another—but this stuff does not need storage. You just
switch it on and off; it is a pump. There are an awful lot of
benefits here. The fact that it can provide 40% of the UK’s
energy consumption means that we really need to take this more
seriously. It can be used in many parts of the country. Cornwall
is probably the best, because the water is hottest, but it is
worth looking at many other places and—as I think the noble Lord,
, said—doing a proper mapping
of this country from a geological point of view.
This is a way forward for many of our energy needs. I would just
like to reflect on the fact that many communities in this country
say, “Let’s have a series of windmills to give us electricity for
the community”, or “Let’s have a solar farm and get cheap
electricity”. You could just as easily have one or two of these
geothermal wells to give you hot water, and that is all you need
to keep your homes warm and to get a hot bath or shower. Before
noble Lords say, “That’s not very much”, that is 40% of our
energy requirements. I hope the Minister will find a way forward
so that we can all benefit from this.
3.19pm
(LD)
My Lords, I declare my interest as a director of Peers for the
Planet. I thank the noble Lord, of Dillington, for giving us
an opportunity to debate the potential of geothermal for heat and
power in the UK. We have only to look across the channel to see
what is possible. France, Germany and the Netherlands share the
same tectonic plate as us and have harnessed this deep heat
source far more ambitiously than we have. That said, I want to
concentrate on the potential opportunity of using the shallow
geothermal energy under our feet—not necessarily as far down as
even a shallow aquifer but just the heat differential that exists
between the air and the ground.
Ground source heat pumps use ambient stored solar energy in the
ground, where temperatures remain constant 24/7, 365 days a year,
regardless of air temperature changes. The Government have
invested much energy and enthusiasm—and, I think, money—into
trials for hydrogen boilers in towns in the north-east. These are
riddled with challenges, not least that of explosions from the
leakage of a notoriously leaky gas. That is unsurprising, as
hydrogen is the first, and therefore lightest, element in the
periodic table.
I cannot help but compare the hydrogen trial to the Heat the
Streets pilot in Stithians, Cornwall, carried out by the Kensa
Group. This essentially uses the proven technology of ground
source heat pumps to see whether it can be deployed at mass scale
to retrofit whole streets with typical mixed housing stock of any
tenure; that is, in a realistic UK town or village scenario.
We are used to hearing about ground source heat pumps in a single
property where a ground loop is installed in someone’s garden.
Imagine that you can pay for a heat pump in your home without the
headache of sorting out the details of where the ground loop
would go because someone else would do that part for you. In
essence, the networked model of heat pumps is the same as the gas
grid model. A white box ground source heat pump is installed in
your home, and you pay a standing charge to connect to the
street’s underground loop infrastructure, which has already been
installed by experienced engineers. Consumers have total control
over their heating. For utility companies, it is an investment
that will last for decades, as shared borehole ground arrays have
a lifetime of up to 100 years. For landlords, it means no more
split-billing or metering requirements for tenants. I should add
that the technology can easily switch to cool homes, which is
becoming more necessary. In an FT article, the BBC’s Roger
Harrabin referred to the Stithians scheme as “simple and
elegant”. It has much to recommend it.
Such ground source heat pumps have many advantages—I shall list
only a few of the most important ones. They last a great deal
long longer than air source heat pumps, and therefore work out
cheaper in the long run, and use 40% less electricity. Most
importantly, there are advantages at an energy system level. With
demand shifting and heat batteries, networked ground source heat
pumps could reduce peak electricity demand by 37 gigawatts, which
could save up to £15 billion a year in reduced generation and
grid infrastructure costs, something that I am sure is of great
interest to the Government.
It is appropriate at this stage to welcome the heat network zones
that the Government have proposed in the Energy Bill, but they
should be extended to cover all the UK and make a stab at
identifying the right technology for the right place, working
together with local authorities.
In Committee on the Levelling-Up and Regeneration Bill, I tabled
two amendments asking for government support for pilots for a
renewable-powered new town and an existing town, both using
networked ground source heat pumps to provide heating. Does the
Minister, who I believe is pretty conversant with this
technology—probably far more so than I am—agree that properly
constructed trials are essential to carry out evidence-based
assessments for potential solutions that merit government
support? That will be essential to evaluate which projects could
meet our fast-approaching decarbonisation deadlines. I end by
saying that I intend to retable my amendments to the Levelling-Up
and Regeneration Bill on Report.
3.24pm
(GP)
My Lords—
(Con)
My Lords, I also thank the noble Lord—oh, I do apologise.
(GP)
That is all right—a glass of champagne later will make up for it.
I thank the noble Lord, of Dillington, for this
debate, as it will give us the chance to show the world just how
rubbish this Government are on climate change and cheap energy.
They are eco-stupid. I cannot in five minutes begin to explain
how deep that eco-stupidity goes.
For example, they have just scrapped £11.6 billion of the climate
pledge and at the same time are giving £11.4 billion as a tax
break to oil giants to extract more fossil fuels. How is that
common sense when climate change is making life more difficult
for millions of people? We have been discussing the Illegal
Migration Bill. The number of people moving around the planet now
will be as nothing when climate change hits faster. People will
not be able to live where they want to if they cannot farm or
find water there.
Part of the Government’s problem is an inability to see the
global impact of climate change and our role in it. Part of it is
the straightforward corruption of several million pounds of
donations to the Conservative Party buying influence, North Sea
oil licences and the demolition of our net-zero target. This
resistance to all things green is often disguised as innate
conservatism, but it is pure hypocrisy. They love open-cast coal
mines and giant fracking wells but find large windmills an ugly
addition to our traditional landscape.
Self-reliance used to be a conservative value, but that was
before the party was dominated by billionaires and the vested
interests of the fossil fuel industries. A village that generates
its own power with a few wind turbines or a solar farm undermines
corporate power and the ability to extract huge profits from
consumers. Community energy becomes a real possibility with new
technology, such as geothermal. This Government are resisting
that as they see a threat to the profits of the oil and gas
industries. The UK is ranked last for heat-pump installation out
of 21 European countries. That is shameful.
We are constantly told by the Minister that we are doing really
well on the environmental stuff, but the Environment Minister at
Defra, the noble Lord, , told us recently that the
problem is not that the Government are hostile to the environment
but that the Prime Minister is simply uninterested. That is more
concerning. If they at least had some interest, they would
understand the problems we are facing.
Our failure to deal with energy demand is exactly why we expect
to import more gas in the coming decade. That failure is costing
consumers a lot of money. Insulation, along with technologies
such as geothermal, could cut those costs dramatically. Other
countries can see the long-term savings and strategic benefits of
being more reliant on their own clean energy sources and less
reliant on volatile, foreign-owned fossil fuels. Above all, they
can see the end of fossil fuel use and are making it happen
faster. They are not applying the brakes in the way that our
Government are.
Why not have a street-by-street, town-by-town, city-by-city
switch to heat pumps? We did it with the massive switchover from
town gas to natural gas. It can be done. Why not talk to people
in towns and villages with the right geology about going
geothermal in powering their homes and communities and why not
ensure that those communities benefit financially from investment
in geothermal plant? It is a win-win for communities, people and
the planet.
I have been in your Lordships’ House for 10 years, banging on
about ways to make energy cheaper and reduce people’s costs in
their homes by putting in insulation and about how to make us a
better country in terms of our impact on the rest of the world.
Somehow, the message just does not get through. Can the Minister
tell me what language to use to make this Government listen? If
they are not even listening to the head of the UN, António
Guterres, who says that carrying on with oil and gas production
is economic and moral madness, who are they listening to? Who on
earth can get through to this Government that they are on the
wrong path and must stop as soon as possible?
3.29pm
(Con)
It is such a privilege to both precede and follow the noble
Baroness, Lady Jones. I am sure the Minister welcomes having one
or two additional points to answer from the noble Baroness, but
maybe I am the only Conservative whom she would support for doing
something for the environment. When I was Minister for Energy in
1990, we had the first round of the non-fossil fuel obligation,
which introduced renewable energy into the UK through a
competitive round of tendering.
Geothermal power was at the heart of that. It has been important
since the days of the Camborne School of Mines and its hot dry
rocks project, which was the precursor to the United Downs Deep
Geothermal Power project. That continues to this day in Redruth,
Cornwall. At the time, it was important for the Government to
encourage that technology to be developed and provide the right
framework for it to be taken forward. I hope that we will both be
able to celebrate its start with a glass of English sparkling
wine—I prefer that to champagne. I agree with the noble Baroness
that we should have gone a long way further in the ensuing 30
years, but it was an important start. It was important for United
Downs in particular, because that project, by mid-2023, has the
opportunity to generate between 1 and 3 megawatts through its
power plant. It will be sold to the national grid via the UK’s
first power purchase agreement for deep geothermal electricity
with Ecotricity.
I support geothermal energy, but it is important to continue the
debate and look at a number of points. In response to the noble
Lord, , the British Geological Survey
has undertaken quite a significant geological survey, but more
work can be done. I would be grateful if the Minister could
update us on whether the Government could support its further
mapping of the geothermal heat potential in Great Britain. It is
undoubtedly significant and the resource could contribute to
meeting a substantial proportion of the country’s heat demand. As
we have heard, the temperature gradient below the surface
increases by an average of 25 to 30 degrees Celsius per kilometre
depth, indicating good potential for heat extraction throughout
the United Kingdom.
The key issue, which we have known about from that time, is
economic viability. We need to look at that, so I would be
grateful if the Minister would comment on his and the
Government’s view of the economic viability of geothermal
projects at the moment—their exploration costs, drilling
expenses, installation costs and the potential revenue from heat
or power generation. Technical feasibility is also important,
because drilling depth and reservoir permeability are critical
factors. We do not have the advantages of many of our
neighbouring countries, but there are significant opportunities
for ground source heat pumps nevertheless, as we just heard.
Lithium is also relevant to this important debate. The United
Kingdom has significant potential for lithium production and
exploration. Lithium-bearing brine deposits and potential
hard-rock lithium sources are most prominent in Cornwall and,
through the projects that we have been discussing, have the
potential to produce both lithium and renewable heat and power. I
very much hope that we do not ignore their benefits for this
country and ensure that we not only manufacture the batteries
used in electric vehicles and energy storage systems in the UK
but develop the lithium resources that are so critical to their
success. They come from the work that we have been discussing
today in the context of geothermal electricity and energy. If the
Minister could comment on that in closing, it would be much
appreciated.
3.34pm
(LD)
My Lords, I am delighted that the noble Lord, of Dillington, has given us
the important opportunity of this debate. I will focus my remarks
on shallow geothermal, although deep geothermal is also highly
efficient and has a low visual impact and no noise or emissions
when installed. One cannot say that about wind turbines.
Eighteen years ago, my husband and I built a little wooden house
in Aberdeenshire for family holidays. We installed shallow ground
source heating, which began my love affair with capturing heat
from the ground and cutting electricity bills while contributing
to saving the planet. It has never let us down, even when the air
temperature was well below zero. At that time, few contractors
could install such a system, but we found one—although we used a
Swiss heat exchanger as there were no British ones then. The
contractor complained that it was hard to get skilled installers
and there was no help from the Government to train them.
Today, that technology has developed and is even more important
as we aim for net zero. Hydrogen will not be our saviour when we
stop burning gas for space and water heating, as it takes six
units of electricity to get one unit of hydrogen. In contrast,
one unit of electricity will get us four units of heat from the
ground.
What is the answer on the scale we need? My family’s individual
solution had a higher upfront cost than most people can afford,
so others in off-grid locations in rural areas will need some
government support. In streets where houses have little or no
garden, in terraces where individual air source heat pumps cannot
be installed and in blocks of flats, the answer is ground source
heat networks, as my noble friend Lady Sheehan said. Networks
provide a utility in the street to which homes can connect as
easily as connecting to the gas mains. The Kensa Group, the
British manufacturer and installer, has just completed a
demonstrator project, supplying the first village in the world,
Stithians in Cornwall, with its own clean heat network. My noble
friend explained how it works. The company is growing and
creating many jobs, although the UK is a long way behind France,
the Netherlands and Germany, so opportunities for UK growth are
being lost. We are well behind the curve again.
Although deep geothermal is currently costly, costs are coming
down as technology develops. Pilot schemes are happening in areas
with the most potential heat gain, such as Manchester and
Stoke-on-Trent, but shallow ground source is appropriate in all
locations. Just as wind and photovoltaic technologies were
supported by the Government to help them scale up, the ground
source industry needs the same. We also need funding for training
installers. Crucially, the energy efficiency of ground source
will reduce future pressure on the national grid, but only if we
realise its full potential. The technology is cost effective in
the long term: deep ground source infrastructure will last for
100 years, and shallow for at least 25 years, compared to 15
years for air source. The industry is aiming for subsidy-free
growth by the end of this decade, but it needs help now to enable
it to get there, just like solar and wind did before, so what can
the Government do?
First, when will the Government decide on the future homes
standard so that the market knows that no new homes will be
connected to gas from 2025 and when will gas boilers in existing
homes be phased out? Secondly, despite their lower energy
efficiency, gas boilers are still cheaper to run because of the
artificially large disparity between electricity and gas prices.
The Government could tackle that; will they? Thirdly, most heat
pumps will be installed in existing properties, so we need a
proper incentive for GSHPs. The current five schemes have poor
uptake and are badly designed for ground source. Will the
Government work with the industry to develop a scheme to help the
GSHP industry become subsidy free by 2028?
The Commons Environmental Audit Committee concluded that the
Government were too slow to exploit the potential of geothermal
and had not integrated it into the net- zero strategy. Will the
Minister respond to that challenge, particularly in light of the
need for improving the energy security of this country given
recent events? Nobody can take away the heat beneath our feet in
our own ground—not Russia, nor China—but we have to exploit
it.
3.39pm
(Lab)
My Lords, I, too, am grateful to the noble Lord, , for setting up this debate.
Geothermal energy offers opportunities as a sustainable and
reliable energy solution. We all know that, with possibly one or
two exceptions, a decarbonised power system is the key to us
achieving net zero. This means that our Government, whoever they
are, must give focus to different low-carbon solutions. The
current Government are simply not doing enough of this.
One of the potential solutions is geothermal energy. It is
regarded as environmentally friendly because of its lower
greenhouse gas emissions compared with carbon-based sources,
minimal air pollution, efficient energy conversion, lower water
use than other conventional technologies and reduced land
requirements. It is also considered a renewable source of energy
that harnesses the earth’s natural heat to generate power. This
heat is continually renewed through geological processes, such as
radioactive decay, and residual heat from the planet’s
formation.
It is argued that geothermal energy projects not only contribute
to emissions reductions but provide job opportunities across the
supply chain. As has been said, in Germany the geothermal
industry has generated €14.9 billion for the economy and created
24,000 jobs this century. In the Netherlands, which was also
cited by the noble Lord, , there are claims that for
each direct geothermal job a further two or three indirect jobs
are also created. According to the International Energy Agency’s
2021 geothermal Annual Report, this country has an estimated
43,700 GSHP systems installed which generate approximately 1,330
gigawatt hours of energy per year, which is less than 0.3% of the
annual UK heat demand. By comparison, Germany had more than
440,000 systems installed in 2020, while France had around
210,000 systems.
What is geothermal energy? We have heard that shallow geothermal
systems typically involve the use of ground source heat pumps to
modify the temperature obtained from the resource, but just last
week it was reported that the Government’s boiler upgrade scheme
managed to award only half the number of grants to help
households it targeted switch from boilers to heat pumps. The £70
million left over from this policy due to grants not being issued
cannot be used in future years and will be returned to the
Treasury.
In order to meet the UK’s climate change targets, the Government
want to install 600,000 low-carbon heat pumps annually, but the
current rate is about one-ninth of that. In December 2022, the
House of Lords Environment and Climate Change Committee launched
an inquiry into the boiler upgrade scheme and found that the
scheme was seriously failing to deliver on its objectives, with a
disappointingly low take-up of grants. The committee called on
the Government to take a number of steps: to provide clear
guidance and information to industry and consumers regarding
viable options for low-carbon home heating; to roll over the
remaining budget from the first year of the scheme into the
second year; and to establish a review to consider an extension
to the scheme. Have the Government responded to these asks from
the committee?
Deep geological systems are, as the name implies, at greater
depth where the heat is more intense but cost significantly more
to produce. By way of an example—we have also heard Redruth being
cited—there is an active project in Auckland in the north-east of
England. It will involve geothermal energy being sourced four
miles underground. The water temperature is 73 degrees centigrade
at Auckland Castle, and there is the aim of ensuring that Bishop
Auckland becomes the first fully decarbonised town. That is
exactly the sort of project the Government should be investing in
if levelling up is to have a real practical meaning, particularly
in former mining communities such as those in the north-east.
The House of Commons Environmental Audit Committee has judged
that the Government have been slow to exploit the potential of
geothermal energy and have not integrated it fully into the
net-zero strategy. It went on to argue that the Government appear
to be holding back a sector which could have a transformative
effect upon the UK’s capacity to meet climate goals and grow the
economy. With the Government missing their target towards
achieving their aims, without a change of direction, geothermal
energy will remain a peripheral influence.
3.44pm
The Parliamentary Under-Secretary of State, Department for Energy
Security and Net Zero () (Con)
My Lords, first, I join noble Lords in thanking the noble Lord,
, for securing this debate on a
fascinating and exciting topic. I do not think there is any
difference between us. I think we all share a passion for
renewable energy and for the green transition. That undoubtedly
includes geothermal energy which is, as noble Lords have pointed
out, a significant store of energy beneath our feet.
Before I get on to the topic of the debate, as always, I greatly
enjoyed the contribution from the noble Baroness, Lady Jones. It
was typically entertaining; it was of course total nonsense but
very entertaining none the less. I have a couple of facts for the
noble Baroness. We have not scrapped our contribution to
international climate funds, and we do not give tax breaks, as
she described it, to fossil fuel producers. In fact, the opposite
is the case: they pay increased levels of taxation compared with
other businesses. I am very proud of our decarbonisation record,
which is in fact the best of all the G7 countries. Of course, the
noble Baroness is perfectly entitled to push us to go further and
faster, but let us not pretend that we are not doing anything. We
have the best record in the G7, and it is much better than in
some of the countries where the Greens are in government—I could
point out Germany as an example.
However, back to the subject of the debate, the Government
recognise the massive potential of geothermal energy in many
parts of the UK. It has the potential to deliver low-carbon heat
and power, as well as many critical minerals such as lithium. In
the British Energy Security Strategy, the Government set out that
they would explore renewable energy opportunities afforded by our
geography and geology, including geothermal. I reassure the noble
Lord, , that geothermal technologies
that generate power are in fact eligible for contracts for
difference awards, which is the Government’s main mechanism for
supporting low-carbon electricity generation.
I can also inform my noble friend that evidence from my
department suggests that geothermal is one of the cheaper
emerging technologies that are eligible for the contracts for
difference scheme. That builds on the point from my noble friend
that we are also exploring a
range of other support mechanisms to de-risk and bring down the
high capital cost of drilling down—there is a lot of risk there
for private investors.
The UK’s first geothermal plant that will generate electricity,
located at the United Downs site in Cornwall, is set to start
generating next year. It is expected to deliver a baseload
capacity of 12 megawatts, roughly the equivalent of 12 onshore
wind turbines, which will rise to 25 megawatts by 2028—a project
supported by the Government.
The most significant potential for geothermal energy within the
UK lies in extracting geothermal heat for use with heat pumps in
district heating or heat networks, as a number of noble Lords
mentioned. This resource is more widespread, closer to the
surface and more economic to extract. Accessing geothermal heat
at scale will rely on the existence of heat networks to
distribute the heat—the noble Baroness, Lady Walmsley, was right
about that.
I did not quite understand the point the noble Baroness made
about heat network zoning; she suggested that we should spread it
to the whole of the country but of course we are extending it to
all the country. I apologise if that was the noble Baroness, Lady
Sheehan. The noble Baroness often calls on us to work with local
authorities; the Energy Bill will give local authorities the
power to designate heat network zones throughout the whole of
England in particular—obviously it is devolved in the devolved
nations—but it will be up to local authorities to decide whether
they wish to designate heat network zones in their areas. We will
of course support them in central government, and we are in talks
and discussions with a number of local authorities —dozens of
them—that are interested in doing exactly that.
I am also grateful to the noble Lord, , and the noble Baroness, Lady
Sheehan, for highlighting the importance of heat networks and
zoning. As I said, the Energy Bill will enable all of local
government to designate heat network zones.
I am also grateful for the support, on this occasion, from the
noble Baroness, Lady Jones, for community heating and enabling
towns to bring this forward. That is indeed why the Government
have provided funding to many local authorities through the Heat
Networks Delivery Unit to support them to develop heat networks
in their own towns. These heat networks will of course also need
to correspond to the suitable geological conditions; I can
confirm to my noble friend that we have in fact
supported the north-east LEP to commission research into the
potential contribution that deep geothermal technologies could
make in the United Kingdom.
The British Geological Survey has been a lead author of that
study, which is due to be published later this month—I am sure
that the noble Lord will be interested to read it. It has
considered many of the options for supporting the industry that
the noble Lord, , summarised in his excellent
opening speech. The Government will use it to consider the next
steps to support what at the moment is a nascent industry. That
includes the provision of easy access to geological data. It will
contribute to our understanding of the possible benefits and the
options for achieving them, and it will inform future policy
development.
We are actively supporting and encouraging the development of
geothermal heating projects through the current Green Heat
Network Fund, which supports the development of low-carbon heat
networks. The noble Lord, , correctly referred to the
tremendous potential of Cornwall. Through the fund that I have
mentioned, the Government have announced £22 million of funding
to Cornwall Council to develop the Langarth Deep Geothermal Heat
Network, connecting to the United Downs deep geothermal site.
This will be the UK’s first heating system to use deep geothermal
energy and it will heat nearly 4,000 local homes and public
facilities.
I am pleased to tell my noble friend that the Government support his
view that this opportunity can deliver benefits for communities
across the country. The Government have previously awarded funds
of £5.9 million and £4.3 million through the Heat Networks
Investment Project to shallow geothermal schemes in Gateshead and
Seaham, respectively. The noble Lord, , referred to the opportunities
in our home region, in the north-east of England. On his way home
to Tynemouth, he could stop off in Gateshead and look at one of
the government-funded schemes that is delivering excellent heat
network funding for a mine water recovery project. In fact, if he
looks over to his right when he crosses the Tyne Bridge, he will
almost be able to see the project from the train—another
government-supported project that is delivering precisely the
benefits that he suggested.
I am also happy to confirm to the noble Baroness, Lady Sheehan,
that there is value in supporting new renewable heat sources to
come forward. One of the major benefits of the Heat Networks
Investment Project has been the range of networks that have been
supported through its funding.
My noble friend asked me about the economics
of deep geothermal. He is right: at present, the cost of
extracting the heat is uncertain, due to the uncertainties
associated with the geology until it is tested. Uncertainty in
capital costs, operational costs and revenues means that very few
projects have been shown to be financially viable without
government support. The potential for costs to reduce with scale
is also uncertain and it depends on what we will learn from some
of the early projects that I have mentioned that we are already
supporting with considerable government funding.
My noble friend also made a very good point about the potential
for battery-grade lithium extraction from the waters pumped by
geothermal plants. That shows great promise. Some predict that
geothermal lithium extraction could account for up to a quarter
of domestic demand and help drive transport
decarbonisation—another happy benefit of some of the geothermal
schemes. Geothermal Engineering in Cornwall has been successful
in securing £12 million from the Government’s Automotive
Transformation Fund for precisely that purpose.
I thank again the noble Lord, , for securing this debate
today as well as all other noble Lords for their insightful
contributions. As I set out today, the Government recognise the
tremendous potential of geothermal energy in many parts of the UK
and we remain committed, as set out in the British energy
security strategy, to explore the renewable energy opportunities
afforded by our geography and geology, including geothermal.
Despite the challenges currently experienced by the sector, we
believe that there is an opportunity for geothermal energy to be
one of the wide range of technologies that we can deploy to help
us to meet our climate change targets and provide energy
security—and, you never know, in the meantime, we might even keep
the noble Baroness, Lady Jones, happy.
|
