American Manganese Inc.: American Manganese Advisory Board Member Dan McGroarty Appointed to U.S. Department of Energy s Critical Materials Institute Advisory Board
AMY or the
Company ) is pleased to announce that Dan McGroarty,
American Manganese Advisory Board member, has been appointed as one of three private-sector members of the U.S. Department of Energy s (DOE) Critical Materials Institute (CMI) Advisory Board. McGroarty will serve a two-year term on the Advisory Board, which reports to CMI Director, Dr. Tom Lograsso. Dan is a tremendous asset to the American Manganese team, helping us navigate the Company to becoming an industry team member of the CMI, and demonstrating for the U.S. Defense Logistics Agency AMY s ability to solve a strategic critical mineral challenge, in our Wenden Stockpile reclamation and advanced material processing bench-scale project, said Larry Reaugh, President and CEO of American Manganese. I believe Dan s appointment to the CMI Advisory Bo
American Manganese Advisory Board Member Dan McGroarty Appointed to U.S. Department of Energy s Critical Materials Institute Advisory Board
ACCESSWIRE
SURREY, BC / ACCESSWIRE / May 11, 2021 / American Manganese Inc. (TSXV:AMY)(OTCQB:AMYZF)(FSE:2AM) (
AMY or the
Company ) is pleased to announce that Dan McGroarty,
American Manganese Advisory Board member, has been appointed as one of three private-sector members of the U.S. Department of Energy s (DOE) Critical Materials Institute (CMI) Advisory Board. McGroarty will serve a two-year term on the Advisory Board, which reports to CMI Director, Dr. Tom Lograsso. Dan is a tremendous asset to the American Manganese team, helping us navigate the Company to becoming an industry team member of the CMI, and demonstrating for the U.S. Defense Logistics Agency AMY s ability to solve a strategic critical mineral challenge, in our Wenden Stockpile reclamation and advanced material processing bench-scale project, said Larry Reaugh, Pre
IDAHO FALLS â Every year, it takes millions of gallons of water to clean, peel and slice Idahoâs potatoes before theyâre processed into any number of products from tater tots and animal feed to industrial starch.
As a result, Idaho potato processors must treat and dispose of a large amount of wastewater that contains organic matter, silt and sand.
But now, new research from Idaho National Laboratory suggests that potato wastewater might serve well as a low-cost food source for a special bacterium that could be used to recycle high-tech devices, industrial catalysts and other sources of rare earth elements.
SRTI Park launches global virtual hackathon
Registration of ideas is until May 27, 2021
The top 15 ideas will take part in a virtual 48-hour hackathon that will accelerate opportunities in sustainable energy and move the UAE forward to the next 50 years
The Sharjah Research Technology and Innovation Park (SRTI Park) has announced that it is looking for participants to take part in a 48-hour global hackathon to co-create innovative solutions to urgent energy challenges.
Participants can take part in teams of up to four people or individually, and come with innovative ideas in one or more of the following categories: Decarbonization, Renewable Energies, Energy Efficiency, Energy Storage, Sustainable Mobility, Circular Economy. A total of 15 of the best ideas will be chosen from among all participants to go through to the 48-hour hackathon. A panel of experts will guide the finalists in the development of a prototype business model for their ideas. The climax of the hackathon will
Potato wastewater could feed bacteria used to recycle high tech devices
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IDAHO FALLS Every year, it takes millions of gallons of water to clean, peel and slice Idaho’s potatoes before they’re processed into any number of products from tater tots and animal feed to industrial starch.
As a result, Idaho potato processors must treat and dispose of a large amount of wastewater that contains organic matter, silt and sand.
But now, new research from Idaho National Laboratory suggests that potato wastewater might serve well as a low-cost food source for a special bacterium that could be used to recycle high tech devices, industrial catalysts and other sources of rare earth elements.