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Bản tin định kỳ
Báo cáo thường niên
Tạp chí khoa học ĐHCT
Tạp chí tiếng anh ĐHCT
Tạp chí trong nước
Tạp chí quốc tế
Kỷ yếu HN trong nước
Kỷ yếu HN quốc tế
Book chapter
Bài báo - Tạp chí
117 (2020) Trang:
Tạp chí: Journal of the Taiwan Institute of Chemical Engineers
Liên kết:

Acid-activated clays play an essential role in the edible oil refining industry to remove colored pigments and
impurities to meet consumer demands and speci
fic purposes. Despite its high bleaching activity, the use of
highly corrosive acids in signi
ficant quantities for producing the activated clay raises safety and environmental concerns. Herein, we demonstrate an environmentally friendly and low-cost preparation of organoclaytype bleaching earth via aqueous phase intercalation of bentonite with natural surfactant (rarasaponin)
under microwave irradiation. The in
fluence of the rarasaponin concentrations on the textural and chemical
characteristics of the resultant organoclays was investigated with relevant techniques, including SEM, XRD,
FTIR, and N
2 sorption. The results revealed that the intercalation of rarasaponin causes a basal spacing
increase to 1.50 nm, surface area to 99.5 m
2/g, and pore volume to 0.85 cm3/g, while the cation exchange
capacity (CEC) value decreased to 19.1
§ 4.4 meq/100 g; where the untreated bentonite has a basal spacing
of 1.39 nm, a surface area of 86.8 m
2/g, a pore volume of 0.69 cm3/g, and a CEC value of 30.1 § 3.6 meq/
100 g. The RSB-2 organoclay exhibits the best bleaching activity, with ~91%
b-carotene removal efficiency
achieved in degummed palm oil compared to the untreated bentonite (72% ef
ficiency). The equilibrium
behavior of
b-carotene adsorption onto RSB-2 organoclay) was best fit with the RedlichPeterson isotherm
model, giving the theoretical maximum sorption capacity (
qmax) 78.09 mg g1, which represents the bestreported values among the investigated samples. A reusability study of the spent bleaching clay demonstrates that the adsorptive removal of b-carotene remained greater than 90% after five consecutive cycles.
The spent RSB-2 organoclays also showed no appreciable phytotoxicity toward
Arabidopsis seed germination
but a slight inhibitory activity on the root development, suggesting environmentally friendly behavior and
allowing for the land
fill disposal.

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