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Up in Smoke – How Changes in Egyptian Farming Can Help Preserve the Pyramids

(From Archive) Originally posted Nov 11, 2014 – LOGAN, Utah – Along the fertile banks of the Nile River, a researcher from Utah State University is finding ways to turn a useless agricultural byproduct into something valuable, while improving the region’s air quality in the process.

Foster Agblevor

USTAR professor of biological engineering Foster Agblevor and his colleagues are developing a new method to break down and reuse some of the toughest and most abundant stuff on the planet – agricultural plant waste.

At many of Egypt’s rice, cotton and banana farms, plant residues including leaves and stems are simply burned in the fields – a practice that contributes to a growing air quality problem that impacts the nation’s public health and threatens to deteriorate its ancient monuments.

To help solve the problem, Agblevor has secured a $121,000 grant from the National Science Foundation to develop new catalysts that can be used to break down plant waste into compounds that can be used to make bio-based plastics and other value-added products.

“The open burning of agricultural waste produces particulate matter, volatile organic compounds and polycyclic aromatic hydrocarbons that are carcinogenic,” said Agblevor. “It also leads to air pollution and can cause asthma in children. Additionally, when the incomplete biomass combustion products settle on the pyramids, they make the limestone building blocks brittle, which will gradually destroy the pyramids and other ancient monuments.”

Agblevor will work with Egyptian researchers at the National Research Council in Cairo who will be responsible for developing new catalysts while the U.S. team works to improve the pyrolysis process. The researchers will also use oils produced from fractional catalytic pyrolysis to make bio-based polyurethane foam and novolac polymers that are commonly used to make home insulation, adhesives, varnishes and oil-based paints.

biomass

USTAR professor of biological engineering Foster Agblevor is seen holding oil extracted from plant material. Agblevor is developing methods to turn agricultural plant waste into oils and compounds that can be used to make bio-based plastics.


“Overall this research will demonstrate how to generate new and high-value plastic products from agricultural wastes that are widely available in Egypt and the U.S.,” said Agblevor. “The conversion of theses agricultural residues to bio-based materials has the potential to start new industries and create employment opportunities in rural Egypt and here in the U.S.”

The project will also involve the participation of women scientists including Dr. Maha Ibrahim; it will help train Egyptian junior researchers and involve a Utah-based graduate student.

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Media Contact:
Matt Jensen
College of Engineering – Utah State University
435-797-8170
matthew.jensen@usu.edu 
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