@article{TEXTUAL,
      recid = {14484},
      author = {Taylor, Washington and Marston, Brad and Rosner, Robert  and Wurtele, Jonathan},
      title = {Atmospheric Carbon Dioxide Removal: A Physical Science  Perspective},
      journal = {PRX Energy},
      address = {2025-01-27},
      number = {TEXTUAL},
      abstract = {Novel carbon dioxide removal (CDR) technologies are  increasingly being considered as potentially useful tools  to combat climate change. For specific atmospheric carbon  dioxide management targets to be achieved, large-scale CDR  strategies may be needed, even with aggressive efforts to  reduce carbon dioxide emissions in the coming decades. This  American Physical Society report breaks down the physical  requirements necessary for large-scale implementation of  CDR technologies, demonstrating the challenges inherent to  incorporating CDR into any carbon dioxide management  portfolio. It also provides a technical overview of new and  current CDR approaches and evaluates their fundamental  physical constraints. Based on the technical overview, the  report makes several recommendations for the U.S. federal  government and industry. These include ensuring that the  potential for CDR does not compromise ongoing actions to  reduce carbon emissions. The report observes, however, that  while large-scale CDR technologies require a lot of energy  and material resources, they might be needed in combination  with emission reduction strategies to achieve specific  climate goals. Research and development on CDR should be  selectively pursued, despite the many challenges described  in the report.},
      url = {http://knowledge.uchicago.edu/record/14484},
}