Effect of red mud additive on the performance of clay barriers for radioactive waste disposals: an experimental study

Extensive use of radioactive materials has led to the production of low-level nuclear waste that emits dangerous gamma rays which pollute the environment. Low-level nuclear waste is usually disposed in landfills to prevent damage from organisms exposed to gamma rays. These landfills are usually cove...

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Bibliographic Details
Published in:Arabian journal of geosciences 2022-09, Vol.15 (17), Article 1467
Main Authors: Salati, Abbas, Isfahani, Hajar Share, Rowshanzamir, Mohammed Ali, Azhari, Amin
Format: Article
Language:English
Subjects:
Additives
Analytical methods
Attenuation
Attenuation coefficients
Bentonite
Clay
Damage prevention
Earth and Environmental Science
Earth science
Earth Sciences
Electron microscopy
Emission analysis
Emissions control
Energy
Energy levels
Extinction coefficient
Gamma radiation
Gamma rays
Hydraulic permeability
Hydraulics
Iron and steel industry
Landfill
Landfills
Mud
Original Paper
Performance enhancement
Permeability
Permeability coefficient
Radiation protection
Radioactive materials
Radioactive waste disposal
Radioactive wastes
Red mud
Scanning electron microscopy
Simulation
Specific gravity
Steel industry
Waste disposal sites
X-ray spectroscopy
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Summary:Extensive use of radioactive materials has led to the production of low-level nuclear waste that emits dangerous gamma rays which pollute the environment. Low-level nuclear waste is usually disposed in landfills to prevent damage from organisms exposed to gamma rays. These landfills are usually covered and capped with bentonite clay due to their desirable properties such as long-term chemical stability, low hydraulic permeability, easy access, and low price. This clay cover is responsible for controlling the emission of gamma rays and preventing hydraulic permeability. In this study, red mud powder additive as a waste product of steel industry with high specific gravity has been added to the bentonite clay in 0, 15, 30, and 45 percentages, to improve the performance of radiation protection and hydraulic conductivity prevention. For this, the effect of red mud and bentonite mixtures are investigated on the improvement of linear attenuation coefficient ( μ ) and hydraulic permeability coefficient ( K ) using experimental, theoretical, and simulation methods. Nal(Tl) detector with Cobalt 60 source for the experimental procedure, XCOM database for theoretical approach, and MCNP code for simulation methods have been used, in two energy levels of 1173 keV and 1332 keV. Energy-dispersive X-ray spectroscopy (EDS) and scanning electron microscopy (SEM) analyses are performed to identify fine particles and chemically analyze bentonite and red mud. The results show that bentonite with 45% red mud with a linear attenuation coefficient of 10.32 m -1 had the best performance at the two energy levels.
ISSN:1866-7511
1866-7538
DOI:10.1007/s12517-022-10755-6