Events

GGR Lunchtime Webinar – Metrics for Emissions Removal Limits for Nature (MERLiN)

In this webinar,  project lead Professor Simon Tett from the University of Edinburgh will present an overview of MERLiN and its main findings. MERLiN is one of eleven components of the Greenhouse Gas Removal (GGR) programme. MERLiN is series of modelling studies designed to assess the limits of Greenhouse Gas Removal (GGR) effectiveness for prevention

GGR Lunchtime Webinar – Soils Research to deliver Greenhouse Gas REmovals and Abatement Technologies (Soils- R-GGREAT)

In this webinar,  project lead Professor Pete Smith from the University of Aberdeen will present an overview of Soils-R-GGREAT and its main findings. Soils-R-GGREAT is one of eleven science components of the Greenhouse Gas Removal (GGR) programme. Given the importance of GGR for climate stabilization, the global potential, feasibility, barriers and impacts of GGR technologies

GGR Lunchtime Webinar – New methodologies for removal of methane from the atmosphere

In this webinar, Professor Euan Nisbett from the University of Royal Holloway will present an overview of the project ‘New methodologies for removal of methane from the atmosphere’ and its main findings. It is one of eleven components of the Greenhouse Gas Removal (GGR) programme. Methane is a potent global warmer, and is the second-most

GGR Lunchtime Webinar – Greenhouse Gas Removal in the Iron and Steel Industry

In this webinar, Dr Phil Renforth from Heriot-Watt University will present an overview of the project ‘Greenhouse Gas Removal in the Iron and Steel industry’ and its main findings. It is one of eleven science components of the Greenhouse Gas Removal (GGR) programme. Iron and steel slags are a glass/semi-crystalline material rich in silicate and oxide

CANCELLED – GGR Lunchtime Webinar – Harmonising and UPgrading GREENhouse gas removal consequential Life Cycle Assessment (UP-green-LCA)

Unfortunately this webinar has had to be cancelled. If we are able to reschedule we will put the details on the website.  In this webinar, project lead Dr Adrian Williams from Cranfield University will present an overview of Up-green-LCA and its main findings. It is one of eleven science components of the Greenhouse Gas Removal (GGR)

GGR Lunchtime Webinar – Comparative assessment and region-specific optimisation of GGR

In this webinar,  Professor Niall MacDowell from Imperial College London will present an overview of the project ‘Comparative assessment and region-specific optimisation of GGR’ and its main findings. It is one of eleven science components of the Greenhouse Gas Removal (GGR) programme. At present, the technical feasibility, economics, implementation mechanisms and wider social and environmental

GGR Lunchtime Webinar – Co-delivery of food and climate regulation by temperate agroforestry (CALIBRE)

In this webinar, project lead Professor Richard Tranter from Reading University will present an overview of CALIBRE and its main findings. It is one of eleven science components of the Greenhouse Gas Removal (GGR) programme. Agroforestry is a type of agriculture which combines trees with either arable or pastoral systems. This practice allows for simultaneous growth

GGR Lunchtime Webinar – Feasibility of Afforestation and Biomass energy with carbon capture storage for Greenhouse Gas Removal (FAB GGR)

In this webinar, project lead Dr Nem Vaughan from the University of East Anglia will present an overview of FAB GGR and its main findings. It is one of eleven science components of the Greenhouse Gas Removal (GGR) programme. Current efforts to limit the negative impacts of climate change focus on reducing the amount of greenhouse

GGR Lunchtime Webinar – Assessing the Mitigation Deterrence Effects of GGRs

In this webinar, Professor Duncan McLaren from Lancaster University will present an overview of ‘Assessing the Mitigation Deterrence Effects of GGRs’ and its main findings. It is one of eleven science components of the Greenhouse Gas Removal (GGR) programme. GGR technologies have the potential to help counter global warming by lowering the concentration of greenhouse gases