Swift and deep decarbonisation of electricity generation is central to enabling a timely transition to net-zero emission energy systems. While future power systems will likely be dominated by variable renewable energy (VRE) sources, studies have identified a need for low-carbon dispatchable power such as nuclear. We use a costoptimising power system model to examine the technoeconomic case for investment in new nuclear capacity in the UK’s net-zero emissions energy system and consider four sensitivity dimensions: the capital cost of new nuclear, the availability of competing technologies, the expansion of interconnection and weather conditions. We conclude that new nuclear capacity is only cost-effective if ambitious cost and construc...
The UK has an ambitious target of an 80% reduction in carbon dioxide emissions by 2050, to be reache...
We employ an electricity system model to determine the least-cost transition necessary to meet a giv...
Data supporting this publication can be obtained on request from cep-lab@imperial.ac.ukCopyright © 2...
| openaire: EC/H2020/730403/EU//INNOPATHS Funding Information: This work was supported by the INNOPA...
This paper explores the effect of having a nuclear baseload in a 100% carbon-free electricity system...
AbstractMitigating climate change is driving the need to decarbonize the electricity sector, for whi...
Addressing climate change requires de-carbonizing future energy supplies in the increasingly energy ...
We summarize the findings of a new Massachusetts Institute of Technology (MIT) study on the future o...
The energy system in industrialized countries is changing in what can be seen as an example of the t...
We summarize the findings of a new MIT study on the future of nuclear energy. The context for the st...
Addressing climate change requires de-carbonizing future energy supplies in an increasingly energy-d...
Nuclear power plants are commonly operated as baseload units due to their low variable costs, high i...
With the recent growth in concern about climate change, advocates of nuclear electricity have claime...
In 10 years it'll be outdated, costing more than other energy alternatives and raising UK electric b...
| openaire: EC/H2020/765515/EU//ENSYSTRATo achieve the goal of deep decarbonization of the electrici...
The UK has an ambitious target of an 80% reduction in carbon dioxide emissions by 2050, to be reache...
We employ an electricity system model to determine the least-cost transition necessary to meet a giv...
Data supporting this publication can be obtained on request from cep-lab@imperial.ac.ukCopyright © 2...
| openaire: EC/H2020/730403/EU//INNOPATHS Funding Information: This work was supported by the INNOPA...
This paper explores the effect of having a nuclear baseload in a 100% carbon-free electricity system...
AbstractMitigating climate change is driving the need to decarbonize the electricity sector, for whi...
Addressing climate change requires de-carbonizing future energy supplies in the increasingly energy ...
We summarize the findings of a new Massachusetts Institute of Technology (MIT) study on the future o...
The energy system in industrialized countries is changing in what can be seen as an example of the t...
We summarize the findings of a new MIT study on the future of nuclear energy. The context for the st...
Addressing climate change requires de-carbonizing future energy supplies in an increasingly energy-d...
Nuclear power plants are commonly operated as baseload units due to their low variable costs, high i...
With the recent growth in concern about climate change, advocates of nuclear electricity have claime...
In 10 years it'll be outdated, costing more than other energy alternatives and raising UK electric b...
| openaire: EC/H2020/765515/EU//ENSYSTRATo achieve the goal of deep decarbonization of the electrici...
The UK has an ambitious target of an 80% reduction in carbon dioxide emissions by 2050, to be reache...
We employ an electricity system model to determine the least-cost transition necessary to meet a giv...
Data supporting this publication can be obtained on request from cep-lab@imperial.ac.ukCopyright © 2...