What’s the potential of Hydropower in the UK?

Beth Howell
Written By
Published on 31 August 2022
  • Hydropower has been around for over 2,000 years
  • Hydropower only accounts for 2.1% of UK renewable energy sources
  • Hydropower plants aren’t always green 

As countries continue to work towards their net-zero-emission goals, governments are pushing for more renewable capacity, which includes creating a wider range of green energy sources to rely on.

The primary sources of renewable energy in the UK are offshore wind, onshore wind, and solar power – but what about hydropower?

Although hydropower is the fourth-largest renewable energy source in the UK, it only accounts for 2.1% of the country’s overall renewable energy mix (National Grid, 2022).

There’s a lot to know about hydropower. We’ll take you through everything in this article, from what it actually is and how it works, to whether it has a place in the UK’s future energy scene.

hydropower plant from birds eye view

Hydropower – also known as hydroelectric power or hydroelectricity – harnesses energy from the natural flow of moving water, which can then be used to generate electricity.

This is one of the oldest sources of renewable energy, dating back thousands of years. National Geographic even states that people in Greece used flowing water to turn the wheel of their mill over two thousand years ago, which was used to ground wheat into flour.

How does hydropower work?

Generally, a hydroelectric power plant has a reservoir of water, and a gate or valve that controls how much water flows out of the reservoir.

Water gains energy when it spills over the top of the dam, which is then converted into kinetic energy as it flows downhill. The water is then used to turn the blades of a turbine to generate electricity.

However, the process of creating energy from hydropower varies depending on the type of system used – we’ve listed the three most common below:

  • Impoundment facilities – This is the most common type of hydropower facility. A dam is used to control the flow of water, which is stored in a reservoir. When more energy is needed, water is released from the dam, flows through a turbine, and powers a generator as the blades of the turbine spin
  • Diversion facilities – Unlike impoundment facilities, this type of plant doesn’t use a dam. Instead, it uses a series of canals, which channel river water toward the turbines to power the generator
  • Pumped-storage facilities – This system has two water reservoirs, which are located at different inclines on a steep slope. First, water is pumped from the lower to the upper reservoir using reversible turbines when demand is low. When demand is high, the water is released downhill into the lower reservoir, driving the turbines in the other direction to generate electricity
Hydropower plant

For most countries around the world, hydropower is a cheap way of generating electricity. The International Renewable Energy Agency (IRENA) states that hydropower “has historically provided the backbone of low-cost electricity in a significant number of countries”. 

But the cost of hydropower projects can vary, mainly depending on the scale of the undertaking.

Check out the table below to get a better idea of how much the average hydropower project costs per kilowatt (kW) installed.

Maximum power outputEstimated project cost

10 MW

£18,350,000

50 MW

£91,750,000

100 MW

£183,500,000

250 MW

£458,750,000

Based on Statista’s estimate that hydropower installation cost £1,835 per kW in 2021 

These figures might not seem very “cheap”, but are reasonable compared to oil and gas refinery projects. 

The UK government spent £1.4 billion on gas and oil projects in the tax year 2021/2022 alone – and this level of investment will continue each year that we use fossil fuels. 

We also need to take hydropower operating costs into account, which also vary depending on the size of the system and the type of turbine used in the process. 

Generally, hydropower systems are reliable, with debris removal being the biggest maintenance task. 

You can find the average operational costs for different hydropower systems in the table below.

Maximum power output

Estimated annual operational costs

5 kW

£2,200

25 kW

£4,000

50 kW

£6,300

100 kW

£11,000

250 kW

£25,000

500 kW

£48,300

Hydropower only accounts for 2.1% of UK renewable energy sources, which has been the case since 2000. However, the UK is actually home to 1,561 hydropower plants – a fivefold increase since 2003.

Despite this development, other renewables, such as wind and solar power, have received much more funding from the UK government, which is why hydropower still only accounts for a fraction of the overall renewable mix.

Most of the UK’s installed hydropower capacity is located in Wales and northwest Scotland – this is because their wet and mountainous landscapes are ideal for hydropower production.

Moving forward, global hydropower capacity is predicted to grow. Rystad Energy, an independent energy research company, reported that hydropower capacity is set to exceed 1,200 gigawatts (GW) in 2022, whilst investments climb to £30 billion ($36.3 billion).

However, Hydropower.org suggests that expansion in the UK will probably be limited to small-scale projects, with the exception of pumped-storage systems.

What is small-scale hydropower?

Small-scale hydropower systems generate between 1 MW–10 MW of electricity. Unlike large-scale hydropower systems, small-scale projects can be installed in small rivers, streams, or in drinking water or wastewater networks – with minimal environmental impact on wildlife or ecosystems.

One of the advantages of small-scale hydropower systems is that most of them are run-of-river schemes, or are implemented in existing water infrastructure, which means there isn’t as much construction work needed. Not only does this keep the cost down, but it also means there’s less of an impact on the local environment.

But it doesn’t just come down to small and large hydropower plants – there are other sizes too:

TypePower outputApplicability

Pico

<5 kW

1–2 houses

Micro

5 – 100 kW

Small isolated communities

Mini

100 kW – 1 MW

Small factory or isolated communities

Small

1 – 10 MW

Small communities with the possibility to supply electricity to the regional grid

Medium

10 – 100 MW

Medium urban population centres

Large

>100 MW

Large urban population centres

ProsCons

Clean energy

Negative environmental impact

Cheaper than fossil fuels

Upfront cost

Good for going off-grid

It isn’t 100% green

Can be produced domestically

Temperamental with weather

Advantages of hydropower

  • Clean energy – Unlike fossil fuels, hydropower is generated through a renewable source: water. Harnessing energy through this natural source avoids releasing more emissions into the atmosphere, and reduces air pollution
  • Cheaper than fossil fuels – Analysis conducted by the Australian Energy Council found that countries like Canada and Norway, who rely heavily on hydropower, have the lowest household electricity prices in the OECD
  • Good for going off-grid – Utilising hydropower is one of the most reliable alternatives to mains supply for isolated properties. Although installing a hydro system can be expensive, it’ll reward you with years of free energy in return
  • Can be produced domestically – As Russia continues to threaten Europe by withholding gas supplies, countries are finding alternative energy sources to reduce their reliance on other nations. By increasing the amount of hydropower the UK generates, we’ll rely less on imports to power homes

Disadvantages of hydropower

  • Environmental impact – Despite providing a cleaner energy source, some hydropower sites can do more harm than good. Hydropower can cause environmental and social problems, as it drastically changes the local landscape and rivers it’s built on. Dams and reservoirs can reduce river flow, raise water temperature, degrade water quality, and cause sediment to build up
  • Up-front cost – Although hydropower plants provide cheap electricity, the initial cost of setting up the facility can cost billions of pounds, depending on the size of the project
  • It isn’t 100% green – Whilst some hydropower projects can produce a clean source of renewable energy, others can produce harmful emissions. In fact, roughly 10% of the world’s hydropower facilities emit as many greenhouse gases, per unit of energy, as conventional fossil-fuelled power plants. These emissions mainly stem from the decomposition of organic matter, which is either transferred to the reservoir via runoff, or is produced within the reservoir as aquatic plant and algal biomass
  • Temperamental with weather – Like any type of renewable energy, hydropower is very dependent on climatic patterns. During droughts, hydropower is less successful because there’s simply less water to generate energy. For example, Norway is currently (summer 2022) having to fall back on its natural gas supplies, as the summer droughts are impacting its hydropower output

Hydropower certainly has a place in the UK energy scene – but it won’t be as substantial as solar and wind power.

The government’s ten-point plan, which outlines how it will be investing in renewable energy over the course of the next decade, has a heavy focus on wind and solar energy. Hydropower, on the other hand, doesn’t even get a mention.

So it’s likely that hydropower will continue supplying energy in the UK, but only a fraction of the amount that wind and solar power produce.

Despite being the earliest example of renewable energy generation in human history, hydropower isn’t as popular as some other clean energy sources in the UK.

But maybe that’s not a bad thing. Despite being able to produce clean energy, some hydropower facilities do more harm than good – especially when it comes to impacting the local wildlife. If the UK does eventually ramp up its hydropower capacity, it’s worth considering how we can do it in the most environmentally friendly way possible.

Written by

Beth Howell

Beth has written for The Eco Experts for over three years, combining her journalistic skills with her knowledge of the environmental industry, garnering thousands of readers along the way.

With her articles covering a range of environmental topics – from solar panel suggestions to the future of green tech, environmental news to heat pump recommendations – Beth really does have the know-how when it comes to environmental living.

Since joining The Eco Experts team, her work has been featured in various publications, such as The BBC, Forbes, The Express, Greenpeace, and in multiple academic journals. She has also attended Grand Designs Live as a Green Living Expert, providing tailored advice to members of the public about heat pumps and solar panels.

Her level of expertise has grown vastly over the years, after delving deep into complex analysis pieces, such as The Most Polluting Industries, What Is Carbon Capture And Does It Actually Work?, and Is Renewable Energy Cheaper Than Gas?

You can contact Beth via email at bethany.howell@theecoexperts.co.uk

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