Will Our Gas Supplies Hold Up This Winter?
I am prompted to ask this question because of this article in The Times, which is entitled ‘Really High Gas Prices’ Loom For UK As Europe Faces Winter Rationing.
These are a few thoughts.
UK Gas-Fired Power Station Capacity
This entry in Wikipedia is entitled List Of Natural Gas Power Stations In The United Kingdom.
This statement summarises the capacity.
There are currently 32 active gas fired combined cycle power plants operating in the United Kingdom, which have a total generating capacity of 28.0 GW.
This section is entitled Decline Of Gas For Power In The United Kingdom, where this is said.
In 2016 gas fired power stations generated a total of 127 TWh of electricity. Generation has dropped to 119 TWh in 2017, 115 TWh in 2018, 114 TWh in 2019 and 95 TWh in 2020. The decline is largely due to the increase in renewable sources outweighing the decline of coal, and an overall reduction in demand.
Putting these pictures as a table and applying a simple numerical analysis technique gives the following.
- 2016 – 127 TWh
- 2017 – 119 TWh – Drop of 8TWh
- 2018 – 115 TWh – Drop of 4 TWh
- 2019 – 114 TWh – Drop of 1 TWh
- 2020 – 95 TWh – Drop of 19 TWh
In four years the amount of electricity generated each year by gas-fired power stations has dropped by an amazing 8 TWh on average per year.
Factors like the increase in renewables and an overall reduction in demand will still apply.
I wouldn’t be surprised to see a continuous reduction of electricity generated by gas of 8 TWh per year.
Figures like these could be possible.
- 2021 – 87 TWh
- 2022 – 79 TWh
- 2023 – 71 TWh
- 2024 – 63 TWh
- 2025 – 55 TWh
- 2026 – 47 TWh
- 2027 – 39 TWh
I have stopped these figures at 2027, as one major event should happen in that year, as Hinckley Point C is planned to switch on in June 2027, which will contribute 3.26 GW. or 28.5 TWh per year.
In Will We Run Out Of Power This Winter?, I also summarised the energy that will be produced by the various projects, that were signed off recently in the Contracts for Difference Allocation Round 4′, where I said this.
Summarising the figures for new capacity gives.
- 2022 – 3200 MW
- 2023 – 1500 MW
- 3024 – 2400 MW
- 2025 – 6576 MW
- 2026 – 1705 MW
- 2027 – 7061 GW
This totals to 22442 MW.
Note that a 1 GW power source would generate 8.76 TWh of electricity per year.
One problem we may have is too much electricity and as we are not blessed with much storage in the UK, where will be able to put it?
In a strange way, Vlad the Mad may solve the problem, by cutting off Europe’s gas.
Jackdaw Gas Field
This document on the Shell web site is the standard information sheet for the Jackdaw field development.
This is the short description of the development.
The Jackdaw field is an uHPHT reservoir that will be developed with a not permanently
attended WHP. Four wells will be drilled at the Jackdaw WHP. Produced fluids will be
exported via a subsea pipeline to the Shearwater platform where these will be processed
before onward export via the Fulmar Gas Line and the Forties Pipeline System.
The proposed development may be summarised as follows:
- Installation of a new WHP
- Drilling of four production wells
- Installation of a new approximately 31 km pipeline from the Jackdaw WHP to the Shearwater platform
- Processing and export of the Jackdaw hydrocarbons via the Shearwater host platform
First production expected between Q3 – Q4 2025.
Note.
- Production could start in just over three years.
- This gas will come ashore at the Bacton gas terminal in Norfolk.
- Bacton has two gas interconnectors to Europe; one to Belgium and one to The Netherlands, so is ideally connected to export gas to Europe.
Given the high gas prices, I am sure any company would pull out all the stops to shorten the project development time.
HyDeploy
I described HyDeploy, which is a project to blend up to 20 % of hydrogen into the distributed natural gas in HyDeploy.
In The Mathematics Of Blending Twenty Percent Of Hydrogen Into The UK Gas Grid, I worked how much electricity would be needed for HyDeploy’s target blending of hydrogen.
It was 8.2 GW, but!
- It would save a lot of carbon emissions.
- Boilers and other appliances wouldn’t have to be changed, although they would probably need a service.
- It would significantly cut the amount of natural gas we need.
- It might even be a product to export in its own right.
I certainly feel that HyDeploy is a significant project.
Gas Imports And Existing Fields
This entry in Wikipedia is entitled Energy in the United Kingdom.
In this section, which is entitled Natural Gas, this is said.
United Kingdom produced 60% of its consumed natural gas in 2010. In five years the United Kingdom moved from almost gas self-sufficient (see North Sea gas) to 40% gas import in 2010. Gas was almost 40% of total primary energy supply (TPES) and electricity more than 45% in 2010. Underground storage was about 5% of annual demand and more than 10% of net imports.
Gasfields include Amethyst gasfield, Armada gasfield, Easington Catchment Area, East Knapton, Everest gasfield and Rhum gasfield.
Consider.
- We know that the amount of gas used for generating electricity is reducing , due to the increase in renewables and an overall reduction in demand.
- The cost of both gas imports and exports are rising.
- In two years time the Jackdaw gas field should be producing gas.
Would it be sensible to squeeze as much gas out of the existing fields, as by the time they run out, renewables, an overall reduction in demand, the Jackdaw gasfield and other factors will mean that we will have enough gas and electricity for our needs.
The Anonymous Widower 