That is a very important question. It is not just 2030 that I am concerned about, but 2025. Nuclear currently accounts for 18% of electricity generation. The current closure rate of plants means that by 2025, nuclear will go from 18% down to 10%, so we will lose 8% of energy supply in the next three years alone. We will not be able to cover that gap; the hon. Gentleman is absolutely right. We are behind the curve here, which is why the Bill is vital. No one should vote against it tonight, because to do so would simply be to kick the can further down the road.
Nuclear also provides a fantastic opportunity to level up. Think of the jobs that it can provide: no one who lives near an area in which there is a nuclear power plant is against nuclear. Hinkley C in Somerset, relatively near my constituency, provides 30,000 jobs, of which 70% are local. It offers enormous potential for creating a sustainable pipeline of skill and talent for the future.
On the RAB funding model, others have asked during the debate, “What about other technologies?” The RAB model has also been established and received strong support from investors in other large infrastructure projects. Indeed, RAB-based funding has provided the funding mechanism for numerous financings of offshore wind transmission cables and infrastructure, as well as Legal & General’s financing for Mutual Energy’s Gas to the West gas network expansion project in Northern Ireland.
Yet the real advantages of this new funding system will come in relation to emerging innovative nuclear energy technologies. As anyone who is interested in reaching net zero will be aware, plans to develop third-generation nuclear reactors are well under way, with British companies such as Rolls-Royce leading the way. Some of those innovations—I have mentioned small modular nuclear reactors—have been designed to be able to be mass-manufactured at one site, powered by an SMR nuclear power plant, and then shipped domestically or internationally, massively reducing the cost. That brilliant technology will have the added benefit, I believe, of helping to power hydrogen electrolysers, which are highly more efficient if they are given a supply of heat. In turn, those will be able to decarbonise sectors that are the most difficult to decarbonise—the hard-to-abate groups that energy cannot touch, which need liquid fuel. The potential for nuclear heat and energy to generate hydrogen I think has the potential, in turn, to generate a clean energy revolution.
Those exciting technologies look to radically shake up the international energy supply system, but it is only through an adequate and appropriate funding model that we can take full advantage of their possibilities. As we have seen with the recent rise in global energy prices, energy security must be at the forefront of all our minds when debating policy. One of the best ways to avoid the
situations that the world currently faces is by having a diversified energy supply, nuclear included. Additionally, it is only through the correct development and deployment of innovative technologies that we can both secure our energy supply system and achieve our net zero obligations. Net zero by 2050 is the ultimate mission for our generation and one that we must achieve as quickly, efficiently and effectively as possible. The RAB funding mechanism provides a clear path for nuclear to play its part in that mission.
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