Direct Air Capture of CO2

Name: Direct Air Capture of CO2
Rating: 3 (2 reviews)

Hoda Shokrollahzadeh Behbahani · Matthew D. Green

Jun 2023 · ACS In Focus Book 2 · American Chemical Society

3.0

2 reviews

Ebook

Pages

Eligible

About this ebook

Direct air capture is a negative emission technology that captures CO2 directly from the air. It is shown to be a promising tool for fighting climate change, yet still a work in progress. Direct Air Capture of CO2 provides an overview of this technology, starting with an overview in Chapter 1 of major climate change events, moving into a comprehensive review of negative emission technologies in Chapter 2, including direct air capture. Chapter 2 covers some of the challenges associated with direct air capture and the feasibility of utilizing such a process for large-scale applications.

Chapter 3 presents a literature review of sorbents under investigation for direct air capture. The advantages and disadvantages of each approach for direct air capture are extracted from results published in the literature and are summarized along with areas of ongoing work.

Parallel to ongoing research on developing high-performing sorbents for direct air capture, companies and startups have begun testing pilot to commercial scale direct air capture plants. Chapter 4 summarizes the efforts of such institutions. Global CO2 markets under development to construct commercialization pathways for direct air capture, such as enhanced oil recovery, synthetic fuels, cement, greenhouses, and food and beverages, are also reviewed in Chapter 4.

The digital primer concludes with the authors’ view on the prospects of direct air capture technology for fighting climate change.

Information provided in all chapters is carefully referenced to relevant literature so the reader may dive deeper into the details if interested. The authors hope this digital primer will bring inspiration and ideas to young scientists.

Ratings and reviews

3.0

2 reviews

About the author

Hoda Shokrollahzadeh Behbahani is a Ph.D. candidate in the Department of Chemical Engineering at Arizona State University, focusing on the innovative field of direct air capture (DAC). She obtained her bachelor’s degree in chemical engineering from the Petroleum University of Technology, Iran. Then she completed her master's degree in chemical engineering from the University of Tehran, Iran. Hoda's research focuses on synthesizing and characterizing polymeric sorbents with sustainability applications, particularly in DAC.

Matthew D. Green is an Associate Professor in Chemical Engineering, the Director of the Center for Negative Carbon Emissions, and the Associate Director of the Biodesign Center for Sustainable Macromolecular Materials and Manufacturing. He obtained a B.S. in Chemical Engineering and Chemistry at Virginia Tech in 2007 and a Ph.D. in Chemical Engineering in 2011 at Virginia Tech. He worked as a postdoctoral researcher at the University of Delaware in the Chemical and Biomolecular Engineering Department before joining the faculty at Arizona State University in 2014. His research is focused on the design and synthesis of ion-containing copolymers for CO2 sorbents, water purification membranes, and nanocomposites. He has received several awards, including the NSF CAREER Award, NASA Early Career Faculty Award, the Young Membrane Scientist Award by the North American Membrane Society (NAMS), and a Ford Faculty Fellowship from ASU.

Rate this ebook

Tell us what you think.

Reading information

Smartphones and tablets

Install the Google Play Books app for Android and iPad/iPhone. It syncs automatically with your account and allows you to read online or offline wherever you are.

Laptops and computers

You can listen to audiobooks purchased on Google Play using your computer's web browser.

eReaders and other devices

To read on e-ink devices like Kobo eReaders, you'll need to download a file and transfer it to your device. Follow the detailed Help Center instructions to transfer the files to supported eReaders.