Bench-Scale Development of a Novel Direct Air Capture Technology Using High-Capacity Sorbents CRITICAL NEED Direct air capture (DAC) of CO2 is a potentially scalable negative CO2 emissions technology to meet the 2°C rise in temperature to mitigate climate change....
Distributed Hydrogen Production Using Catalytic Methane Pyrolysis PROJECT PARTNERS: Stanford University Palo Alto Research Center SoCalGas CRITICAL NEED Hydrogen is currently a $122 billion industry with approximately 70 million tonnes produced annually, nearly all...
A Rapid Temperature Swing Adsorption Carbon Capture Technology For Optimal Operation of A Fossil Power Plant PROJECT PARTNERS: Svante Inc. National Energy Technology Laboratory Los Angeles Department of Water and Power SoCalGas CRITICAL NEED Power plants equipped with...
Direct Air Capture Of CO2 Using Low Regeneration Temparature Sorbents PROJECT PARTNERS: University of Wyoming SoCalGas CRITICAL NEED Direct Air Capture (DAC) of CO2 is a potentially scalable negative CO2 emissions technology to meet the 2C rise in temperature to...
Reactive Capture Of CO2 From Air Using Dual Functional Materials PROJECT PARTNERS: Columbia University Anglo-American Cormetech CRITICAL NEED Direct Air Capture (DAC) of CO2 is a potentially scalable negative CO2 emissions technology to meet the 2C rise in...
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