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Sean Nash

Electrified charcoal sponge soaks up CO2 from the air - 1 views

  • With a little bit of electric charge, the sponge-like charcoal material used in household water filters can also capture carbon dioxide from air, researchers report in the journal Nature. The advance could provide a low-cost, efficient route for removing the greenhouse gas from the atmosphere.
  • For the material, the researchers turned to an activated charcoal sponge, a porous substance with a large surface area. The material is commonly found in household purifiers to capture chemicals and toxins from water. Activated charcoal cannot efficiently capture carbon dioxide from air normally. But chemist Alexander Forse and his colleagues proposed that inserting charged, reactive particles into activated charcoal could turn it into a direct air capture sorbent.
  • The researchers charged the activated charcoal cloth in a battery-like setup. They used the cloth like one electrode in a battery, placing it in a solvent solution with an opposite electrode. When they passed electricity through the device, charged hydroxide ions accumulate in the tiny pores of the charcoal cloth.
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  • Tests showed that the resulting sorbent material rapidly captured carbon dioxide from ambient air by reacting with hydroxides.
  • One downside to the material is that its performance decreases under humidity. The researchers are working to fix that, and are also to increase the quantity of carbon dioxide that the material can capture.
    • Sean Nash
       
      Seems like a potential engineering challenge to me. I think it would be immediately interesting to figure out more of the detail of what they've done here... and run some quick feasibility tests. Can we easily replicate with available materials? Can we measure the CO2 uptake with simple probes? When testing different versions of the same material, can we compare results with a microscopic examination of the material to potentially correlate a particular construction with better performance? Could we perhaps then suggest best materials for certain circumstances? Could we even create materials that perform better?
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    "When researchers ran a charge through charcoal sponges commonly used in home water filters, they discovered a low-cost, low-energy route to remove CO2 from the air"
emmarrogers

Occurrence and fate of the herbicide glyphosate and its degradate aminomethylphosphonic... - 0 views

  • The concentrations of glyphosate ranged from <0.01 to 9.1 ng/m(3) and from <0.1 to 2.5 µg/L in air and rain samples, respectively.
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    "The concentrations of glyphosate ranged from
Sean Nash

Common plastics could passively cool and heat buildings with the seasons | ScienceDaily - 0 views

  • Researchers at Princeton and UCLA have developed a passive mechanism to cool buildings in the summer and warm them in the winter.
  • coatings engineered from common materials can achieve energy savings and thermal comfort that goes beyond what traditional building envelopes can achieve
  • "With the increase in global temperatures, maintaining habitable buildings has become a global challenge,"
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  • "In recent years there has been massive interest in cool roof coatings that reflect sunlight. But cooling walls and windows is a much more subtle and complex challenge."
  • "By coating walls and windows with materials that only radiate or absorb heat in the atmospheric window, we can reduce broadband heat gain from the ground in the summer, and loss in the winter, while maintaining the cooling effect of the sky. We believe that this idea is unprecedented, and beyond what traditional roof and wall envelopes can achieve."
  • The findings' impact is significant for two important reasons. First, the researchers show in the article that many common and low-cost building materials radiate heat in the narrowband and block broadband heat. Material such as polyvinyl fluoride, already used as siding material, could be adapted for the purpose, as could even more common plastics.
    • Sean Nash
       
      Smells like feasibility....
  • "We were really excited when we found that materials like Polypropylene, which we sourced from household plastics, selectively radiate or absorb heat in the atmospheric window." Raman noted. "These materials border on the mundane, but the same scalability that makes them common also means that we could see them thermoregulating buildings in the near future."
  • The second reason for optimism is that the potential energy impacts at the building scale are substantial. The researchers noted that seasonal energy savings with their mechanism are comparable to the benefits of painting dark roofs white. This could be useful as air conditioning cost and heat related casualties continue to soar worldwide. Mandal and Raman plan to continue this research further.
  • "The mechanism we proposed is completely passive, which makes it a sustainable way to cool and heat buildings with the seasons and yield untapped energy savings."
  • Journal Reference: Jyotirmoy Mandal, Jyothis Anand, Sagar Mandal, John Brewer, Arvind Ramachandran, Aaswath P. Raman. Radiative cooling and thermoregulation in the earth’s glow. Cell Reports Physical Science, 2024; 102065 DOI: 10.1016/j.xcrp.2024.102065
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    Don't know if you're following changes in climate, but... this might be an area for some engineering. What are the other problems involved with this field of study? Interesting to anyone?
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