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About ASU Center for Negative Carbon Emissions
The Center for Negative Carbon Emissions (CNCE) at Arizona State University (ASU) is a research center focused on developing technologies and strategies to reduce the levels of carbon dioxide (CO2) in the atmosphere.
Mission and Focus: CNCE's mission is to advance technologies that capture CO2 directly from ambient air. The goal is to develop scalable, efficient, and cost-effective methods to reduce atmospheric CO2 levels, contributing to the mitigation of climate change.
Research and Innovation: The center conducts cutting-edge research in areas such as direct air capture (DAC) of CO2, carbon capture and storage (CCS), and carbon utilization. This includes the development of new materials, processes, and systems to capture and utilize CO2.
Collaboration: CNCE collaborates with other academic institutions, industry partners, government agencies, and non-governmental organizations. These collaborations aim to accelerate the development and deployment of negative carbon technologies.
Education and Outreach: In addition to research, CNCE is involved in education and outreach activities. This includes training the next generation of scientists and engineers, as well as engaging with the public and policymakers to increase awareness and understanding of negative carbon technologies.
Leadership: The center is led by experts in the field of carbon capture and climate science. Their work is guided by a commitment to scientific excellence and a focus on real-world impact.
Alignment with Global Goals: CNCE's work aligns with broader global efforts to reduce greenhouse gas emissions and limit global warming. By developing technologies to remove CO2 from the atmosphere, the center contributes to the pursuit of a sustainable and resilient future.
Overall, the ASU Center for Negative Carbon Emissions plays a vital role in advancing the science and technology of negative carbon emissions. Through research, collaboration, education, and outreach, the center works to develop solutions that can help address one of the most pressing challenges of our time: climate change.
This research explores the topic of making liquid fuels from CO2 captured from air to create a feedstock for making liquid fuels through the fischer-tropsch process. The high energy density and ability to store and transport liquid hydrocarbons presents a transformative option for a carbon-neutral future.