Analyst Note - Direct Air Capture (DAC): Key Technology for Decarbonization
The need to reduce greenhouse gas (GHG) emissions has become the need of the hour as the effects of climate change are being increasingly felt through more intense storms, wildfires, and floods.
Direct air capture (DAC) is expected to have high potential with regard to achieving an exceptional advantage in terms of CO2 reduction. There are several ways to remove carbon from the atmosphere, including technical methods that directly remove CO2 from the atmosphere or replicate natural processes like growing trees and improving soil’s ability to retain carbon.
BIS Advanced Materials, Chemicals & Fuels offer valuable and critical insights to its potential clients on the underlying trends and technologies which are disrupting various segments of the chemicals and materials ecosystem. Our objective is to help business leaders stay updated about the opportunities, innovations, and emerging technologies in the chemicals and materials industry.
The need to reduce greenhouse gas (GHG) emissions has become the need of the hour as the effects of climate change are being increasingly felt through more intense storms, wildfires, and floods.
Direct air capture (DAC) is expected to have high potential with regard to achieving an exceptional advantage in terms of CO2 reduction. There are several ways to remove carbon from the atmosphere, including technical methods that directly remove CO2 from the atmosphere or replicate natural processes like growing trees and improving soil’s ability to retain carbon.
BIS Advanced Materials, Chemicals & Fuels offer valuable and critical insights to its potential clients on the underlying trends and technologies which are disrupting various segments of the chemicals and materials ecosystem. Our objective is to help business leaders stay updated about the opportunities, innovations, and emerging technologies in the chemicals and materials industry.