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Title    New Technique Could Accelerate Waste-to-Methane Production
Date    Monday January 13 2020, @06:24AM
Author    janrinok
Topic   
from the wing-of-bat-and-eye-of-toad dept.
https://soylentnews.org/article.pl?sid=20/01/12/1851237

"exec" writes:

Arthur T Knackerbracket has found the following story:

In a recent study, environmental engineering master's student Bappi Chowdhury and his colleagues found that adding conductive materials to the waste products could potentially turn them into a reliable feedstock, allowing for a production rate of up to 70 percent more biomethane—a renewable energy source—from a mixture of fat, oil and grease and ordinary food waste in an anaerobic digester.

Energy-rich, fat-filled wastes are extremely slow to break down, forming barriers that stymie microbial digestion or floating to the surface at waste treatment facilities, which collect biomethane in the process. Despite their high energy potential—fats are composed of longer carbon chains that naturally degrade into natural gas—these substances often wind up in landfills, where they slowly degrade and are released into the atmosphere, a particular problem because methane is roughly 30 times more potent than carbon dioxide as a heat-trapping gas.

The findings could have implications for municipalities struggling with clogged sewer lines, industrial agricultural facilities dealing with animal waste or governments hoping to reduce climate impacts.

"It could solve a lot of problems," said Chowdhury, who was the lead author of the study. "It's sustainable, renewable energy, because as long as there are people, there will be food waste."

Conductive materials have long been used in waste and wastewater treatment, but only in the past decade have they been used to stimulate biomethane production.

A substance like granular activated carbon—the conductive material most effective in the new study—is better known for removing compounds that affect the smell and taste of treated water. But according to Bipro Dhar, a U of A assistant professor of environmental engineering, activated carbon can also function as a hub for microbes looking to dump or pick up electrons as part of biochemical processes.

"It can change how microbes interact," said Dhar, who supervised Chowdhury's research. "It can significantly enhance how fast we can degrade those organics and produce biomethane."

The study also involved adding food waste to the mix to improve yields. Chowdhury found an optimal recipe of 70 percent food waste—sourced from waste from the HUB Mall on the U of A's campus—and 30 percent fat, oil and grease from GHD Canada, an Ontario-based industry partner. He tested two conductive materials, granular activated carbon and magnetite, to see which worked better. The first conductive material reduced the time of decomposition from 20 to 25 days to just seven.

There's a second reason that granular activated carbon works so well. Microbes that naturally break down lipids and fats grow right on the conductive materials. A wider range of microbes remain in the mix in the digester, ensuring decomposition is more efficient than it would be on its own.

-- submitted from IRC


Original Submission

Links

  1. "following story" - https://phys.org/news/2020-01-technique-waste-to-methane-production.html
  2. "natural gas" - https://phys.org/tags/natural+gas/
  3. "carbon dioxide" - https://phys.org/tags/carbon+dioxide/
  4. "Original Submission" - https://soylentnews.org/submit.pl?op=viewsub&subid=38557

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