Research Status of High-Intensity Pulsed Electric Field (PEF) Equipment and its Application on Food Processing

[1] L.Y. Zhou, G.M. Liao, W.J. Zhang, et al: J. Chin. Food Vol. 9 (2009), pp.165-169 (In Chinese).

Google Scholar

[2] X.B. Sun, S. Fang, Shoudao Lu: Food Sci. Vol. 22 (2001), pp.84-86 (In Chinese).

Google Scholar

[3] D. Wang: Peach juice athermal high-voltage pulsed electric field sterilization research (2005), Dissertation of Jilin University ( In Chinese).

Google Scholar

[4] X.Z. Ying, J.P. Wang, Z.Z. Ye: Food Sci. Technol. Vol. 3 (2006), pp.4-7 (In Chinese).

Google Scholar

[5] W.M. Wu, S.J. Li, D.W. Xu: High Voltage Technol. Vol. 20 (1994), pp.3-7 (In Chinese).

Google Scholar

[6] V. Heinz, I. Alvarez, A. Angersbach et al. : Trends Food Sci. Tech. Vol. 12(2002), pp.103-111.

Google Scholar

[7] Y.Q. Li: Effects of pulsed Electric Fields on physicochemical properties of soybean protein and lipoxygenase (2007), Dissertation of Jiangnan University ( In Chinese).

Google Scholar

[8] Z. Han, X.A. Zeng, B. S Zhang, S.J. Yu: J. Food Eng. Vol. 93 (2009), p.318–323.

Google Scholar

[9] S. Asavasanti, S. Ersus, W. Ristenpart, et al. : J. Food Sci. Vol. 75 (2010), pp.433-443.

Google Scholar

[10] S. Bendicho, G.V. Barbosa-Cánovas, and O. Martín: J. Food Sci. Vol. 68 (2003), pp.952-957.

Google Scholar

[11] X.B. Huang, M.H. Ma, X.N. Zeng: China Poultry. Vol. 33 (2011), pp.16-22 (In Chinese).

Google Scholar

[12] H. Jaeger , A. Schulz, N. Karapetkov, et al.: J. Food Microbiol. Vol. 134 (2009), p.154–161.

Google Scholar

[13] J. Sun, F.D. Kong, G.R. Zu, G. Dan, J.Y. Zou: Food Sci. Vol. 25 (2004), pp.87-90 (In Chinese).

Google Scholar

[14] Á. R. Marsellés-Fontanet, O. Martín-Belloso: J. Food Eng. Vol. 83 (2007), p.452–462.

Google Scholar

[15] M.C. Pina-Pérez, A. Martínez-López, D. Rodrigo: Food Res. Int. Vol. 48 (2012), p.777–783.

Google Scholar

[16] F. Sampedro, D. J. Geveke, X. Fan, H. Q. Zhang: Innov. Food Sci. Emerg. Technol. Vol. 10 (2009), p.463–469.

Google Scholar

[17] B.Y. Xiang, M.O. Ngadi, B.K. Simpson et al.: J. Food Process. Pres. Vol. 35 (2011), pp.563-570.

Google Scholar

[18] W.Q. Wang, L. Gai, Jianping Wang: Journal of agricultural machinery Vol. 36 (2005), pp.154-156 (In Chinese).

Google Scholar

[19] A. Janositz, J. Semrau, D. Knorr: Innov. Food Sci. Emerg. Technol. Vol. 12 (2011), p.269–274.

Google Scholar

[20] J. Giner, P. Grouberman, V. Gimeno et al.: J. Sci. Food Agr. Vol. 85 (2005), p.1613–1621.

Google Scholar

[21] J. Giner, M. Ortega, M. Mesegue, et al.: J. Food Sci. Vol. 67 (2002), pp.339-345.

Google Scholar

[22] Y. Zhang, X.S. Hu, F. Chen, J.H. Wu, et al.: Food Chem. Vol. 106 (2008), p.669–676.

Google Scholar

[23] K. Zhong, X.S. Hu, J.H. Wu, et al.: Spectrosc. Spect. Anal. Vol. 29 (2009), pp.765-768.

Google Scholar

[24] D. R. Sepulveda , María M. Gó ngora-Nieto , José A. Guerrero , Gustavo V. Barbosa-Cánovas: Food Sci. Technol. Vol. 42 (2009), p.735–739.

Google Scholar

[25] J. Wang, K. Wang, S.Y. Lin et al:J. Int J Biol Macromol. Vol. 51 (2012), p.244–249.

Google Scholar

[26] K Wang, J Wang, B.L. Liu et al: J Sci Food Agric. Vol. 93 (2013), pp.1641-1648.

Google Scholar

[27] S,Y. Lin, Y. Guo, Q. You, Y.G. Yin, J.B. Liu, et al.: J. Food Biochem. Vol. 37 (2013), pp.45-52.

Google Scholar

[28] Q. Xin, X.W. Zhang, L.C. Lei: Ind. Eng. Chem. Res. Vol. 47 (2008), p.9644–9650.

Google Scholar

[29] F. Noci , J. Riener, M. Walkling-Ribeiro, D.A. Cronin, D.J. Morgan, J.G. Lyng : J. Food Eng. Vol. 85 (2008), p.141–146.

DOI: 10.1016/j.jfoodeng.2007.07.011

Google Scholar

[30] O. Martfn, B.L. Qin, F.J. Chang, G.V. Barbosa-Canovase and B.G. Swanson : J. Food Process Eng. Vol. 20 (1997), pp.317-336.

Google Scholar

[31] R. Buckow, S. Ng, S. Toepfl: Food Sci. F. Vol. 12 (2013), pp.455-467.

Google Scholar