The Great Grid Upgrade is the largest overhaul of the electricity grid in generations. Our infrastructure projects across England and Wales are helping to connect more clean, affordable energy to your homes and businesses.
The Great Grid Upgrade comprises 17 major infrastructure projects that will both scale up the grid and update our existing networks. It will enable us to carry more clean, secure energy from where it’s generated – like out in the North Sea by wind turbines – to where you need it, boosting energy security, affordability and helping the nation become more self-sufficient.
Energy threads through everything we love to do; it lets us talk to friends, listen to music, travel to work, cook our meals and so much more.
But the way we power our lives is changing. As the UK moves away from fossil fuels and increases clean energy generation, we’ll all be using more electricity than ever before.
This means we need to build new infrastructure, as well as upgrading the existing grid, to make sure this clean, green energy can be brought from where it’s generated to where it’s needed by homes and businesses.
The UK’s electricity grid was originally built to connect the coal- and gas-fired power stations that were built on the coal seams that ran down the centre of the country, through the industrial heartlands of the north of England and the Midlands.
Because we're now getting power from renewable sources, this needs to change. So significant new infrastructure is needed to connect this renewable energy from where it’s generated to where it’s needed.
In particular, the extra energy that's generated offshore will need to be brought inland for us to use, which means new transmission lines are needed to connect the offshore energy to UK homes and businesses.
Not only are Britain’s methods of generating power changing dramatically, but demand for electricity is set to double, as the boilers in our homes and the engines in our cars move from gas and petrol to electricity.
Today, the Government’s ambition is to connect an extra 40GW of offshore wind to the electricity grid by 2030, making 50GW in total. That’s nearly enough to power every home in Great Britain** and is equivalent to taking 5.2 million petrol or diesel cars off the road, or the carbon absorption of 509 million trees over one year***.
That means our network of cables, pylons and substations will need to transmit this renewable energy from where it’s generated to where it’s needed – our homes, businesses, and communities.
The existing infrastructure simply doesn't have the capacity to transport the volume of energy that will be generated offshore. As a result, we need to upgrade our onshore electricity network.
The country’s electricity grid was originally built with the purpose of transmitting electricity created from coal- and gas-fired power stations. But as the UK moves away from fossil fuels and increases clean energy generation, we’ll all be using more electricity than ever before to power our homes, businesses and transport.
This means that we’ll need to build five times more electricity transmission infrastructure by 2030 than we’ve constructed in the last 30 years, as well as making other changes to our grid, to help the UK transition to a clean energy future.
This includes new infrastructure to bring energy that’s generated offshore – like out in the North Sea by wind turbines – inland in order to connect it to the grid.
In some areas we’ll be able to upgrade the infrastructure that already exists. In other areas, we'll need to install new wires, cables and pylons.
All of this is to ensure that there’s sufficient capacity to transport the required amounts of electricity, to make sure everyone in England and Wales has access to clean, secure energy.
Put simply, power from the wind and sun is cheap, much cheaper than imported gas. A recent study found that solar and wind energy are now the most affordable sources of new electricity in 82% of the world.
Continuing our progress towards green electricity is the most effective way to ensure energy security and affordability. We’ll be less reliant on importing expensive gas to generate electricity and can use cheaper home-grown renewable power instead, lowering energy bills in the long term.
Even when you switch to a green tariff – one that promises 100% renewable electricity, or some renewable gas – the amount of renewable energy flowing into your home doesn't change. With these tariffs, your supplier will generally buy enough renewable energy to cover what you use to fund future production, or it invests in schemes to offset carbon emissions produced from the energy you use, such as planting trees.
In order for more renewable energy to be provided to homes in England and Wales, we need to upgrade the electricity grid.
A lot of the clean energy will be from renewable, natural sources such as wind, solar and hydro (water) power. The government’s British energy security strategy sets ambitions for 50GW of offshore wind power generation by 2030, with much of this coming from the North Sea but also from offshore wind farms in other coastal locations around England and Wales.
Another source of clean energy is via high-voltage undersea cables known as interconnectors, which connect the electricity systems of neighbouring countries and allow them to share surplus power. This ensures that any renewable energy isn’t wasted and makes for a greener, more secure power system at both ends.
Because power from the wind and sun is much cheaper than imported gas, continuing our progress towards green electricity means we’ll be less reliant on importing expensive gas to generate electricity and can use cheaper home-grown renewable power instead, lowering energy bills in the long term.
Because National Grid is a regulated business, the amount we charge is set by the energy regulator, Ofgem. They scrutinise investment plans on behalf of bill payers to decide on the amount that should be charged for the services provided, while also allowing us to invest in the electricity transmission network so it continues to be one of the most reliable networks in the world.
Find out more in our video What role does National Grid play in my energy bill?
As we continue to reduce our reliance on fossil fuels and increase clean energy generation, we’ll be using more electricity than ever. Things that are currently powered by gas such as heating and cooking will be powered more and more by electricity that’s generated from clean, renewable sources. That means we’ll need a grid that’s able to carry all this extra electricity to wherever we might need it.
Electricity transmission owners such as ourselves have licence and regulatory obligations to be economical and efficient, and in delivering The Great Grid Upgrade, we always carefully and transparently compare infrastructure options as a key part of developing our project proposals.
The government’s planning policy advises that overhead lines should be the strong starting presumption for electricity network developments in general, except where a proposed development will cross part of a nationally designated landscape.
The costs of alternative technologies to overhead lines can be significantly higher, with the undergrounding of cables around five to ten times more expensive. The cost of offshore solutions – cables under the sea – is also significant.
One example of where we’ve looked at this is in the East Anglia region, where the cost to consumers of delivering an equivalent offshore cabling solution would be around four times the cost of an onshore overhead line option.
It’s often assumed that projects like The Great Grid Upgrade are especially focused on the capital. But that’s simply not the case. It’s important to note that over 80% of UK electricity demand is outside of London – this is vital new infrastructure for the whole country and the electricity generated is distributed all over the country.
Our plan for overhauling the UK’s electricity grid includes proposals for infrastructure all over the country; for instance, building a new high voltage transmission line between East Yorkshire and Nottinghamshire, a high voltage electricity link between Suffolk and Kent, and an overhead line in Lincolnshire.
Some people think that clean energy generation will stop on a cloudy day, or when there isn’t much wind. While there are indeed some days without any wind power, there are other ways electricity can keep flowing.
One example is via high-voltage undersea cables, known as interconnectors, which connect the electricity systems of neighbouring countries and allow them to share surplus power. This ensures that renewable energy isn’t wasted and makes for a greener, more efficient power system.
In the future there will also be a greater opportunity for solar and wind power to be stored in batteries or storage plants, and nuclear has an important part in the clean energy mix too.
Read more about what happens when there’s no sun or wind power
You can find information about all of our current projects in the Discover The Great Grid Upgrade projects section below.
These include details of consultation events so that you can have your say on how this should happen. If a project is taking place in your local area you’re welcome to come along, find out more and tell us what you think.
We’re committed to engaging communities as we develop our proposals and do this in a number of ways:
You can find information about all of our current projects in the Discover The Great Grid Upgrade projects section below.
These include details of consultation events so that you can have your say on how this should happen. If a project is taking place in your local area you’re welcome to come along, find out more and tell us what you think.
Whether you want a nice cuppa or a hot soak, to dance the night away or get cosy at home, we all want to be able to do what we love.
And because energy threads through everything we love to do, we're on a mission to make it cleaner, fairer and more secure for everyone.
From new jobs in clean energy to the exciting technology that’s getting us closer to net zero, you’ll find regular updates from #TheGreatGridUpgrade and more on our social media channels.
** Information provided by National Grid's Market Analytics department