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Application of Box–Behnken design with response surface methodology for modeling and optimizing microwave-assisted hydro-distillation of essential oil from citrus reticulata blanco peel

Tran, Thien Hien and Dao, Tan Phat and Nguyen, Duy Chinh and Lam, Tri Duc and Do, Sy Trung and Toan, Tran Quoc and Thanh Huong, Nguyen Thi and Vo, Dai-Viet N. and Bach, Long Giang and Nguyen, Trinh Duy (2019) Application of Box–Behnken design with response surface methodology for modeling and optimizing microwave-assisted hydro-distillation of essential oil from citrus reticulata blanco peel. In: International Conference on Mechanical Engineering, Materials Science and Civil Engineering, ICMEMSCE 2018, 21 - 22 December 2018 , Xiamen, China. pp. 1-6., 542 (1). ISSN 1757-8981 (Print); 1757-899X (Online)

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Abstract

In this research, microwave-assisted hydro-distillation and Response Surface Methodology were selected for optimizing factors affecting the yield of essential oil from Citrus reticulate Blanco peels. This combined process was successfully modeled and optimized using a Box–Behnken design with response surface methodology (RSM). The effects of the material and water ratios, extraction time and microwave power on the extraction essential oils, efficiency of Citrus reticulata Blanco Peel were investigated. The optimal conditions for the Citrus reticulate Blanco peels oils yield were found to be a material and water ratios were 3.1:1mL/g, extraction time was 91.24 min, microwave power at 478 (W). Furthermore, analysis of variance indicated that the proposed quadratic model successfully interpreted the experimental data with coefficients of determination of the predicted R2 of 0.9909 concurred with the adjusted R2 of 0.9826. A confirmation test of the optimal conditions verified the validity of the model, yielding an essential oil efficiency of 5.5.

Item Type: Conference or Workshop Item (Lecture)
Additional Information: Indexed by Scopus
Uncontrolled Keywords: Box-Behnken design; Citrus reticulata Blanco; Confirmation test; Microwave assisted; Microwave power; Optimal conditions; Quadratic modeling; Response surface methodology
Subjects: Q Science > QD Chemistry
Q Science > QP Physiology
T Technology > TP Chemical technology
Faculty/Division: Faculty of Chemical & Natural Resources Engineering
Depositing User: Mrs Norsaini Abdul Samat
Date Deposited: 12 Dec 2019 04:00
Last Modified: 12 Dec 2019 04:00
URI: http://umpir.ump.edu.my/id/eprint/25547
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