Add to ORKGDirect Air Capture (DAC) is increasingly being discussed as a possibility to limit climate change. In this study, a possible rollout of the DAC technology at German coastal areas is analysed based on an existing climate neutrality scenario. For the year 2045 the resulting costs as well as land, water and energy consumption are examined. It is concluded that a realization of the DAC technology in Germany might be possible from a technical point of view. However, there is a high demand for land and energy. Since a rollout is needed to start in 20 years at the latest, the required discussion and evaluation should be initiated as quickly as possible
To meet ambitious climate goals, of keeping global warming below 2°C, past emissions need to be remo...
As the catastrophic effects of climate change are felt throughout our global society, we must take i...
Direct air capture (DAC) is critical for achieving stringent climate targets, yet the environmental ...
Climate change mitigation scenarios that meet the Paris Agreement's objective of limiting global war...
Negative emission technologies will likely be needed to achieve the European Commission's goal of gr...
Direct air carbon capture (DAC) technologies can substantially lower the CO2 concentrations in the a...
A significant reduction in greenhouse gas emissions will be necessary in the coming decades to enabl...
Fact sheet about direct air capture (DAC), a carbon capture technology that will reduce and remove c...
Direct air capture (DAC) can remove CO2 directly from the atmosphere and therefore can be used to re...
The mitigation of climate change requires fast reductions in greenhouse gas emissions and calls for ...
The feasibility of large-scale biological CO2 removal to achieve stringent climate targets remains u...
The increase in CO2 concentration in the atmosphere has prompted the research community to find solu...
Direct Air Capture with Carbon Storage (DACCS) technologies represent one of the most significant po...
Building a carbon-neutral world needs to remove the excess CO$_2$ that has already been dumped into ...
In its latest assessment report the IPCC stresses the need for carbon dioxide removal (CDR) to count...
To meet ambitious climate goals, of keeping global warming below 2°C, past emissions need to be remo...
As the catastrophic effects of climate change are felt throughout our global society, we must take i...
Direct air capture (DAC) is critical for achieving stringent climate targets, yet the environmental ...
Climate change mitigation scenarios that meet the Paris Agreement's objective of limiting global war...
Negative emission technologies will likely be needed to achieve the European Commission's goal of gr...
Direct air carbon capture (DAC) technologies can substantially lower the CO2 concentrations in the a...
A significant reduction in greenhouse gas emissions will be necessary in the coming decades to enabl...
Fact sheet about direct air capture (DAC), a carbon capture technology that will reduce and remove c...
Direct air capture (DAC) can remove CO2 directly from the atmosphere and therefore can be used to re...
The mitigation of climate change requires fast reductions in greenhouse gas emissions and calls for ...
The feasibility of large-scale biological CO2 removal to achieve stringent climate targets remains u...
The increase in CO2 concentration in the atmosphere has prompted the research community to find solu...
Direct Air Capture with Carbon Storage (DACCS) technologies represent one of the most significant po...
Building a carbon-neutral world needs to remove the excess CO$_2$ that has already been dumped into ...
In its latest assessment report the IPCC stresses the need for carbon dioxide removal (CDR) to count...
To meet ambitious climate goals, of keeping global warming below 2°C, past emissions need to be remo...
As the catastrophic effects of climate change are felt throughout our global society, we must take i...
Direct air capture (DAC) is critical for achieving stringent climate targets, yet the environmental ...