Underground Hydrogen Storage Pilot Gets Funding Boost
The title of this post is the same as that of this article on Energy Live News.
This is the sub-heading.
New hydrogen storage tech could boost grid resilience and emissions cuts
These first three paragraphs add some details.
National Gas and Gravitricity have secured £500,000 from Ofgem to develop a new type of underground hydrogen storage.
The H2FlexiStore system, designed by Edinburgh-based energy storage firm Gravitricity, aims to store up to 100 tonnes of green hydrogen in lined geological shafts.
The technology, which could see a demonstrator built in 2026, is intended to offer a flexible, resilient solution to future hydrogen network needs.
The article also has an excellent graphic.
Note that it takes 55.2 MWh of electricity to generate a tonne of hydrogen, so a hundred tonnes of hydrogen would store 5.52 GWh of electricity as hydrogen.
National Gas To Trial Gravitricity’s H2 Storage Solution
The title of this post, is the same as that of this article on The Engineer.
This is the sub-heading.
Gravitricity’s H2FlexiStore system for underground hydrogen storage could see a pilot built in 2025 after National Gas secured Ofgem funding to explore the technology.
There is then a graphic, which gives a good visual explanation.
The patented system uses lined geological shafts to store up to 100 tonnes of pressurised hydrogen at 220 bar, equivalent to about 3.33GWh of energy. Unlike natural storage such as salt caverns and disused gas fields, the shafts can be sited anywhere. Gravitricity has previously stated its preference for co-locating the storage near to renewable generation and potential major consumers of hydrogen such as heavy industry.
I can see that this simple system can have a lot of diverse uses.
In Centrica Completes Work On 20MW Hydrogen-Ready Peaker In Redditch, I talked about how Centrica had refurbished a decommissioned peaker plant.
One of these stores would keep a 20 MW peaker plant running for a week.
It would also work well with a HiiROC hydrogen system.
UK – Hydrogen To Be Added To Britain’s Gas Supply By 2025
The title of this post, is the same as that of this article on Hydrogen Central.
These are the first three paragraphs.
Hydrogen to be added to Britain’s gas supply by 2025.
Hydrogen is to be pumped into Britain’s main gas pipeline by 2025 as part of a scramble to ditch fossil fuels and move to net zero.
Between 2% and 5% of the fuel flowing through the country’s transmission network will be hydrogen in two years under plans drawn up by National Gas, which owns the pipelines.
Note.
- The article says that.on a winter’s day, you’ve got seven times more energy going through the gas network than the electricity network.
- Between 2% and 5% of hydrogen, would be unlikely to mean that appliances, boilers and industrial processes would need to be changed.
- I suspect that domestic appliances and boilers would just need a good service.
- HyDeploy has shown that 20 % of hydrogen could be possible.
- The hydrogen could be added, where the natural gas enters the UK gas network.
The exercise would save a lot of carbon emissions.
How Much Electricity Would Be Needed To Create The Hydrogen?
In The Mathematics Of Blending Twenty Percent Of Hydrogen Into The UK Gas Grid, I calculated the amount of hydrogen that would be needed for 20 %, how much electricity it would need and how much carbon dioxide would not be emitted.
How Much Hydrogen Needs To Be Added?
This page on worldodometer says this about UK gas consumption.
The United Kingdom consumes 2,795,569 million cubic feet (MMcf) of natural gas per year as of the year 2017.
I will now calculate the weight of hydrogen needed to be added.
- 2,795,569 million cubic feet converts to 79161.69851 million cubic metres.
- I will round that to 79161.7 million cubic metres.
- Twenty percent is 15832.34 million cubic metres.
- A cubic metre of hydrogen weighs 0.082 Kg, which gives that in a year 1,298.25188 million kilograms will need to be added to the UK gas supply.
This is 1,298,251.88 tonnes per year, 3,556.85 tonnes per day or 148.2 tonnes per hour.
How Much Electricity Is Needed To Create This Amount Of Hydrogen?
In Can The UK Have A Capacity To Create Five GW Of Green Hydrogen?, I said the following.
Ryze Hydrogen are building the Herne Bay electrolyser.
- It will consume 23 MW of solar and wind power.
- It will produce ten tonnes of hydrogen per day.
The electrolyser will consume 552 MWh to produce ten tonnes of hydrogen, so creating one tonne of hydrogen needs 55.2 MWh of electricity.
To create 148.2 tonnes per hour of hydrogen would need 8,180.64 MW of electricity or just under 8.2 GW.
How Much Carbon Dioxide Would Be Saved?
This page on the Engineering Toolbox is entitled Combustion Of Fuels – Carbon Dioxide Emission and it gives a list of how much carbon dioxide is emitted, when a fuel is burned.
For each Kg of these fuels, the following Kg of carbon dioxide will be released on combustion.
- Methane – 2.75
- Gasoline – 3.30
- Kerosene – 3.00
- Diesel – 3.15
- Bituminous coal – 2.38
- Lignite 1.10
- Wood – 1.83
Engineering Toolbox seems a very useful web site.
I will now calculate how much carbon dioxide would be saved.
- In 2017, UK methane consumption was 79161.7 million cubic metres.
- One cubic metre of methane weighs 0.554 Kg.
- The total weight of methane used is 43,855,581.8 tonnes.
- Multiplying by 2.75 shows that 120,602,849.95 tonnes of carbon dioxide will be produced.
As twenty percent will be replaced by hydrogen, carbon dioxide emission savings will be 6,030,142.498 tonnes.
That seems a good saving, from a small country like the UK.
The UK would also reduce natural gas consumption by twenty percent or 15832.34 million cubic metres per year.
How Much Electricity Would Be Needed To Create The Hydrogen for a 5 % Blend?
I’ll now repeat the calculation for a 5 % blend,
How Much Hydrogen Needs To Be Added?
I will now calculate the weight of hydrogen needed to be added.
- UK gas consumption rounds to 79161.7 million cubic metres.
- Five percent is 3958.085 million cubic metres.
- A cubic metre of hydrogen weighs 0.082 Kg, which gives that in a year 324.56297 million kilograms will need to be added to the UK gas supply.
This is 324,563 tonnes per year, 889.21 tonnes per day or 37 tonnes per hour.
How Much Electricity Is Needed To Create This Amount Of Hydrogen?
Earlier I said this.
The electrolyser will consume 552 MWh to produce ten tonnes of hydrogen, so creating one tonne of hydrogen needs 55.2 MWh of electricity.
To create 37 tonnes per hour of hydrogen would need 2,045.16 MW of electricity or just over 2 GW.
How Much Carbon Dioxide Would Be Saved?
Earlier, I found that a Kg of methane will produce 2.75 Kg of carbon dioxide on combustion.
I will now calculate how much carbon dioxide would be saved.
- In 2017, UK methane consumption was 79161.7 million cubic metres.
- One cubic metre of methane weighs 0.554 Kg.
- The total weight of methane used is 43,855,581.8 tonnes.
- Multiplying by 2.75 shows that 120,602,849.95 tonnes of carbon dioxide will be produced.
As five percent will be replaced by hydrogen, carbon dioxide emission savings will be 6030,142.4975 tonnes.
The UK would also reduce natural gas consumption by five percent or 3958.085 million cubic metres per year.
How Much Electricity Would Be Needed To Create The Hydrogen for a 2 % Blend?
I’ll now repeat the calculation for a 2 % blend,
How Much Hydrogen Needs To Be Added?
I will now calculate the weight of hydrogen needed to be added.
- UK gas consumption rounds to 79161.7 million cubic metres.
- Two percent is 1,583.234 million cubic metres.
- A cubic metre of hydrogen weighs 0.082 Kg, which gives that in a year 129.825 million kilograms will need to be added to the UK gas supply.
This is 129,825 tonnes per year, 355.68 tonnes per day or 14.8 tonnes per hour.
How Much Electricity Is Needed To Create This Amount Of Hydrogen?
Earlier I said this.
The electrolyser will consume 552 MWh to produce ten tonnes of hydrogen, so creating one tonne of hydrogen needs 55.2 MWh of electricity.
To create 14.8 tonnes per hour of hydrogen would need 817 MW of electricity or not even a GW.
How Much Carbon Dioxide Would Be Saved?
Earlier, I found that a Kg of methane will produce 2.75 Kg of carbon dioxide on combustion.
I will now calculate how much carbon dioxide would be saved.
- In 2017, UK methane consumption was 79161.7 million cubic metres.
- One cubic metre of methane weighs 0.554 Kg.
- The total weight of methane used is 43,855,581.8 tonnes.
- Multiplying by 2.75 shows that 120,602,849.95 tonnes of carbon dioxide will be produced.
As two percent will be replaced by hydrogen, carbon dioxide emission savings will be 2,412,057 tonnes.
The UK would also reduce natural gas consumption by two percent or 1,583.234 million cubic metres per year.
Summary Of Savings And Electricity Needed
2 %
- Hydrogen To Add – 14.8 tonnes per hour
- Electricity Needed – 817 MW per year
- Carbon Dioxide Savings – 2,412,057 tonnes per year
- Natural Gas Reduction – 1,583.234 million cubic metres per year
5 %
- Hydrogen To Add – 37 tonnes per hour
- Electricity Needed – 2,045.16 MW per year
- Carbon Dioxide Savings – 6,030,142.498 tonnes per year
- Natural Gas Reduction – 3,958.085 million cubic metres per year
20 %
- Hydrogen To Add – 148.2 tonnes per hour
- Electricity Needed – 8,180.64 MW per year
- Carbon Dioxide Savings – 24,120,569.99 tonnes per year
- Natural Gas Reduction – 1,5832.34 million cubic metres per year
The Anonymous Widower 