Effect of Acid Treatment on the Structure of Natural Zeolite from the Shankhanai Deposit
Tanirbergenova S. Tugelbayeva D. Zhylybayeva N. Aitugan A. Tazhu K. Moldazhanova G. Mansurov Z.
September 2025Multidisciplinary Digital Publishing Institute (MDPI)
Processes
2025#13Issue 9
Natural clinoptilolite from the Shankhanai deposit (Kazakhstan) was modified via acid and thermal treatments to improve its physicochemical and catalytic properties. The zeolite was activated using 10% nitric acid alone, nitric acid followed by thermal treatment (600 °C), and a mixed acid solution (10% HNO3 + 5% CH3COOH) followed by mild thermal treatment (280 °C). Structural, textural, and thermal changes were characterized by XRD, FTIR, BET, TGA, SEM, and EDX. Nitric acid treatment increased the BET surface area from 4.95 to 59.9 m2/g but reduced crystallinity, whereas the dual-acid approach enhanced porosity and acidity while preserving framework integrity. Preliminary catalytic testing in thiophene hydrodesulfurization (HDS) revealed improved conversion (up to 20.7%) in the absence of active metals, confirming the potential of modified clinoptilolite as a catalyst support. The dual-acid method presents a promising, eco-friendly pathway for producing thermally stable and catalytically active zeolitic materials, suitable for selective hydrodesulfurization of thiophene.
acid activation , catalyst support , clinoptilolite , hydrodesulfurization (HDS) , microporosity , mixed acid treatment , modified zeolite , natural zeolite , Shankhanai deposit , surface area , thiophene removal
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The Institute of Combustion Problems, Almaty, 050000, Kazakhstan
The Institute of Combustion Problems
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