Ultrasonic-assisted Extraction of Total Flavonoid from Peanut Hull using Ionic Liquid Solution

Authors

  • Shaoying Zhang
  • Yanbo Li
  • Ziying Liu
  • Xiaoke Zhang
  • Meiyan Wang
  • Danrui Zhao

Keywords:

peanut hull, total flavonoid, ionic liquid, ultrasonic

Abstract

The total flavonoid of peanut hull was extracted usingionic liquid (1-butyl-3- methylimidazolium bromide) combined withultrasonic. The result showed that total flavonoid yield ofpeanut hull increased with the concentration enhancement of ionic liquid andreached to a higher value at 1.2 mol/L of ionic liquid. Andtotal flavonoid yield was higher when the peanut hull was treated withlower frequency or larger power ultrasonic as well. It first increased and thendecreased with ultrasonic treatment time extension or temperature increase. Themost suitable condition for extraction of total flavonoid from peanut hull was1.2 mol∕L of ionic liquid, 300W of Ultrasonic power, and 45 kHz of ultrasonic frequency, and the peanut hull was treated for 8 min at 60℃. Under the best condition, the total flavonoid yield of peanut hull was 3.967 mg/g.

References

Zhong Zhuo Ya, Yang Qi, Li Xiao Ming, Luo Kun, Liu Yang, Zeng Guang Ming. (2012) Preparation of peanut hull-based activated carbon by microwave-induced phosphoric acid activation and its application in Remazol Brilliant Blue R adsorption. Industrial Crops and Products, 37 (1):178-185.

Zhao Xiaoyan , Chen Jun , Du Fangling. (2012). Potential use of peanut by-products in food processing: a review. J Food Sci Technol, 49 (5): 521-529.

Chen Allen Y., Chen Yi Charlie. (2013). A review of the dietary flavonoid, kaempferol on human health and cancer chemoprevention. Food Chemistry, 138(4):2099-2107.

Zheng Yi, Li Yong, Wang Weidong. (2014). Optimization of ultrasonic-assisted extraction and in vitro antioxidant activities of polysaccharides from Trametes orientalis. Carbohydrate Polymers, 111: 315-323.

Vázquez M.F.Barrera, Comini L.R., Martini R.E., Montoya S.C.Núñez, Bottini S., Cabrera J.L.(2015).Ultrasonic-assisted extraction of anthraquinones from Heterophyllaea pustulata Hook f. (Rubiaceae) using ethanol–water mixtures. Industrial Crops and Products, 69:278-283.

Domínguez Irene , Emilio J. , Domínguez González Ãngeles. (2014). Liquid extraction of aromatic/cyclic aliphatic hydrocarbon mixtures using ionic liquids as solvent: Literature review and new experimental LLE data. Fuel Processing Technology, 125: 207-216.

Li Qingyong, Wang Wenchao, Liu Yuhui, Chen Binbin. (2015). Ionic liquid-aqueous solution ultrasonic-assisted extraction of three kinds of alkaloids from Phellodendron amurense Rupr and optimize conditions use response surface.Ultrasonics Sonochemistry, 24:13-18.

Qin Lanzhi, Chen Hongzhang. (2015). Enhancement of flavonoids extraction from fig leaf using steam explosion. Industrial Crops and Products, 69:1- 6.

Huang Wen, Xue An, Niu Hai, Jia Zhen, Wang Jiawen. (2009). Optimised ultrasonic-assisted extraction of flavonoids from Folium eucommiae and evaluation of antioxidant activity in multi-test systems in vitro. Food Chemistry, 114(3):1147-1154.

Xiao Weihua, Han Lujia, Shi Bo. (2008). Microwave-assisted extraction of flavonoids from Radix Astragali. Separation and Purification Technology, 62 (3):614-618.

Abid, M., Jabbar, S., Wu, T., Hashim, M. M., Hu, B., Lei, S., Zhang, X., Zeng, X. X. (2013). Effect of ultrasound on different quality parameters of apple juice.Ultrasonics Sonochemistry, 20, 1182-1187.

Duan Ming Hui, Luo Meng, Zhao Chun Jian, Wang Wei, Zu Yuan Gang, Zhang Dong Yang, Yao Xiao hui, Fu Yu Jie. (2013). Ionic liquid-based negative pressure cavitation-assisted extraction of three main flavonoids from the pigeonpea roots and its pilot-scale application. Separation and Purification Technology, 107:26-36.

Koda S., Taguchi K., Futamura K. (2011). Effects of frequency and a radical scavenger on ultrasonic degradation of water-soluble polymers. Ultrason Sonochem, 18 (1): 276-281.

Zhou Jinying, Pan Runtian, Zhu Xuejing, Zhu Shuilan, Liu Guangxian, Min Hua, Feng Jianxiong. (2014). Optimization of Flavanone Extraction from Peanut Shell by Ultrasonic Wave. Journal of Food Science and Technology, 32 (6): 42-45.(in Chinese)

Villamiel Mar, Jong Peter de. (2000). Inactivation of Pseudomonas fluorescens and Streptococcus thermophilus in Trypticase® Soy Broth and total bacteria in milk by continuous-flow ultrasonic treatment and conventional heating. Journal of Food Engineering, 45 (3):171-179.

Kim Ji Sang, Kang Ok Ju, Gweon Oh Cheon. (2013). Comparison of phenolic acids and flavonoids in black garlic at different thermal processing steps. Journal of Functional Foods, 5 (1):80-86.

Downloads

Published

2015-04-29

Issue

Section

Articles

How to Cite

Ultrasonic-assisted Extraction of Total Flavonoid from Peanut Hull using Ionic Liquid Solution. (2015). Asian Journal of Agriculture and Food Sciences, 3(2). https://ajouronline.com/index.php/AJAFS/article/view/2581

Similar Articles

21-30 of 111

You may also start an advanced similarity search for this article.