Add to ORKGSince we last wrote about 'Making the Macroeconomic Case for CCS' in this journal back in 2016, much has changed in both wider UK climate policy and the approach to CCUS, as well as across the wider economy and political landscape.1 The fundamental need to examine a broader set of costs and benefits from CCUS emerging and accruing across the UK economy in ways that align with HM Treasury’s need to ensure fiscal responsibility as we considered back in 2016 remains. For example, in linking the service role of CCUS in supporting the decarbonisation and/or transition of different activities. However, the conditions and context have changed radically
Transitioning the UK economy to meet net zero emission targets could deliver substantial wider econo...
Developing understanding around how a UK carbon capture, utilisation and storage (CCUS) system, and ...
The article analyses the capability of carbon abatement technologies to be made commercially viable ...
Since we last wrote about 'Making the Macroeconomic Case for CCS' in this journal back in 2016, much...
Government departments responsible for energy and climate policy around the world, partly informed b...
In October 2021 the UK Government announced decisions on Phase 1 of the UK Cluster Sequencing for Ca...
Generally, the key insight of our research concerns the need to broaden attention from technology an...
The UK has made a binding commitment to reach net zero emissions by 2050 and Carbon Capture and Stor...
In meeting long term climate ambitions at regional and national levels, there is a need to retain an...
The UK Industrial Decarbonisation Strategy identifies carbon capture and storage (CCS) as a route to...
In this report, we explore the key findings from important new research undertaken by the Centre for...
CCS decarbonises fossil fuel power generation, is the only available method to address industrial em...
• As a signatory to the 2015 Paris Climate Change Agreement, the UK has committed to an ambitious tr...
Carbon capture and storage (CCS) is a technically feasible deep decarbonisation solution. Still it i...
The Centre for Energy Policy at the University of Strathclyde argues that the UK’s decision to scrap...
Transitioning the UK economy to meet net zero emission targets could deliver substantial wider econo...
Developing understanding around how a UK carbon capture, utilisation and storage (CCUS) system, and ...
The article analyses the capability of carbon abatement technologies to be made commercially viable ...
Since we last wrote about 'Making the Macroeconomic Case for CCS' in this journal back in 2016, much...
Government departments responsible for energy and climate policy around the world, partly informed b...
In October 2021 the UK Government announced decisions on Phase 1 of the UK Cluster Sequencing for Ca...
Generally, the key insight of our research concerns the need to broaden attention from technology an...
The UK has made a binding commitment to reach net zero emissions by 2050 and Carbon Capture and Stor...
In meeting long term climate ambitions at regional and national levels, there is a need to retain an...
The UK Industrial Decarbonisation Strategy identifies carbon capture and storage (CCS) as a route to...
In this report, we explore the key findings from important new research undertaken by the Centre for...
CCS decarbonises fossil fuel power generation, is the only available method to address industrial em...
• As a signatory to the 2015 Paris Climate Change Agreement, the UK has committed to an ambitious tr...
Carbon capture and storage (CCS) is a technically feasible deep decarbonisation solution. Still it i...
The Centre for Energy Policy at the University of Strathclyde argues that the UK’s decision to scrap...
Transitioning the UK economy to meet net zero emission targets could deliver substantial wider econo...
Developing understanding around how a UK carbon capture, utilisation and storage (CCUS) system, and ...
The article analyses the capability of carbon abatement technologies to be made commercially viable ...