Comparative evaluation of chemical and bio techniques for uranium leaching from low grade sandstone rock sample, Abu Thor, southwestern Sinai, Egypt

Ferruginous sandstone considered as a one of the economically significant uranium mineralized areas in the southwestern part of the Sinai that located at the lower member of Um Bogma Formation in Abu Thor area. The studied sample was characterized geologically as a sandstone rock contain 450 mg/kg o...

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Published in	Journal of radioanalytical and nuclear chemistry Vol. 331; no. 12; pp. 5675 - 5689
Main Authors	Attia, Reda M., Sallam, Osama R., Abbas, Abd Elhadi A., Kawady, Nilly A.
Format	Journal Article
Language	English
Published	Cham Springer International Publishing 01.12.2022 Springer Springer Nature B.V
Subjects	Bacterial leaching Chemistry Chemistry and Materials Science Diagnostic Radiology Diffusion layers Green technology Hadrons Heavy Ions Inorganic Chemistry Leaching Methods Nuclear Chemistry Nuclear Physics Physical Chemistry Sandstone Shrinking core model Uranium Bioleaching Uranium Kinetics Shrinking core Akaline and acid leaching
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Abstract	Ferruginous sandstone considered as a one of the economically significant uranium mineralized areas in the southwestern part of the Sinai that located at the lower member of Um Bogma Formation in Abu Thor area. The studied sample was characterized geologically as a sandstone rock contain 450 mg/kg of uranium. This work is aimed to compare between eco-friendly bioleaching and conventional leaching processe. The uranium bioleaching efficiency achieved 80% by using a native fungal strain; Aspergillus nidulans as a green technology with the optimimum conditions as; 3 pH value, 3% pulp density, 7 days incubation period, and 30 °C incubation temperatures. Whereas the traditional technique using alkaline and sulphuric acid leaching attained 68.5% and 95% respectively at the best condition. Finally, the shrinking core model was represented the layer diffusion process by acquiring apparent activation energy 18.28 and 16.82 kJ/mol for carbonate and sulphuric acid leaching, respectively.
AbstractList	Ferruginous sandstone considered as a one of the economically significant uranium mineralized areas in the southwestern part of the Sinai that located at the lower member of Um Bogma Formation in Abu Thor area. The studied sample was characterized geologically as a sandstone rock contain 450 mg/kg of uranium. This work is aimed to compare between eco-friendly bioleaching and conventional leaching processe. The uranium bioleaching efficiency achieved 80% by using a native fungal strain; Aspergillus nidulans as a green technology with the optimimum conditions as; 3 pH value, 3% pulp density, 7 days incubation period, and 30 °C incubation temperatures. Whereas the traditional technique using alkaline and sulphuric acid leaching attained 68.5% and 95% respectively at the best condition. Finally, the shrinking core model was represented the layer diffusion process by acquiring apparent activation energy 18.28 and 16.82 kJ/mol for carbonate and sulphuric acid leaching, respectively. Abstract Ferruginous sandstone considered as a one of the economically significant uranium mineralized areas in the southwestern part of the Sinai that located at the lower member of Um Bogma Formation in Abu Thor area. The studied sample was characterized geologically as a sandstone rock contain 450 mg/kg of uranium. This work is aimed to compare between eco-friendly bioleaching and conventional leaching processe. The uranium bioleaching efficiency achieved 80% by using a native fungal strain; Aspergillus nidulans as a green technology with the optimimum conditions as; 3 pH value, 3% pulp density, 7 days incubation period, and 30 °C incubation temperatures. Whereas the traditional technique using alkaline and sulphuric acid leaching attained 68.5% and 95% respectively at the best condition. Finally, the shrinking core model was represented the layer diffusion process by acquiring apparent activation energy 18.28 and 16.82 kJ/mol for carbonate and sulphuric acid leaching, respectively. Ferruginous sandstone considered as a one of the economically significant uranium mineralized areas in the southwestern part of the Sinai that located at the lower member of Um Bogma Formation in Abu Thor area. The studied sample was characterized geologically as a sandstone rock contain 450 mg/kg of uranium. This work is aimed to compare between eco-friendly bioleaching and conventional leaching processe. The uranium bioleaching efficiency achieved 80% by using a native fungal strain; Aspergillus nidulans as a green technology with the optimimum conditions as; 3 pH value, 3% pulp density, 7 days incubation period, and 30 °C incubation temperatures. Whereas the traditional technique using alkaline and sulphuric acid leaching attained 68.5% and 95% respectively at the best condition. Finally, the shrinking core model was represented the layer diffusion process by acquiring apparent activation energy 18.28 and 16.82 kJ/mol for carbonate and sulphuric acid leaching, respectively.
Audience	Academic
Author	Attia, Reda M. Abbas, Abd Elhadi A. Sallam, Osama R. Kawady, Nilly A.
Author_xml	– sequence: 1 givenname: Reda M. surname: Attia fullname: Attia, Reda M. email: chredamohamed@yahoo.com organization: Nuclear Materials Authority – sequence: 2 givenname: Osama R. surname: Sallam fullname: Sallam, Osama R. organization: Nuclear Materials Authority – sequence: 3 givenname: Abd Elhadi A. surname: Abbas fullname: Abbas, Abd Elhadi A. organization: Nuclear Materials Authority – sequence: 4 givenname: Nilly A. surname: Kawady fullname: Kawady, Nilly A. email: nillykawady@yahoo.com organization: Nuclear Materials Authority
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Snippet	Ferruginous sandstone considered as a one of the economically significant uranium mineralized areas in the southwestern part of the Sinai that located at the... Abstract Ferruginous sandstone considered as a one of the economically significant uranium mineralized areas in the southwestern part of the Sinai that located...
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SubjectTerms	Bacterial leaching Chemistry Chemistry and Materials Science Diagnostic Radiology Diffusion layers Green technology Hadrons Heavy Ions Inorganic Chemistry Leaching Methods Nuclear Chemistry Nuclear Physics Physical Chemistry Sandstone Shrinking core model Uranium
Title	Comparative evaluation of chemical and bio techniques for uranium leaching from low grade sandstone rock sample, Abu Thor, southwestern Sinai, Egypt
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