Ming-Chien Hsiao scite author profile

Speciation of copper in the fly ash solidification process has been studied by X-ray based spectroscopies inthe present work. Fourier transformed EXAFS (extended X-ray absorption fine structural) spectra of the solidified fly ashes showed that the bond distance of Cu-O (first shell) was 1.96 A with a coordination number (CN) of about 3.0. However, in the second shell of copper atoms, the bond distance of Cu-(O)-Cu was decreased by 0.12-0.22 A during solidification, which might cause the stabilization of the CuO species in the solidified fly ash matrix. By the least-squares fits of the XANES (X-ray absorption near edge structural) spectra, fractions of the main copper species in the solidified fly ashes such as CuCl2 (0.08-0.11), Cu2O (0.07-0.09), Cu(OH)2 (0.31-0.33), and CuO (0.49-0.52) were observed. Combined EXAFS and XANES observations suggested that chemical reactions such as hydroxylation of CuCl2 and oxidation of Cu2O and/or metallic Cu might involve in the solidification process, which also led to a significant reduction of the leachability of copper from the solidified fly ashes.

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Optimized conversion of waste cooking oil to biodiesel using modified calcium oxide as catalyst via a microwave heating system

Hsiao

Kuo

Hsieh

et al. 2020

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Ultrasonic mixing and closed microwave irradiation-assisted transesterification of soybean oil

Hsiao

Lin

Chang

et al. 2010

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Ming-Chien Hsiao

Microwave irradiation-assisted transesterification of soybean oil to biodiesel catalyzed by nanopowder calcium oxide

EXAFS and XANES Studies of Copper in a Solidified Fly Ash

Optimized conversion of waste cooking oil to biodiesel using modified calcium oxide as catalyst via a microwave heating system

Ultrasonic mixing and closed microwave irradiation-assisted transesterification of soybean oil

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