References

• Barbosa-Cánovas , G. V. and Altunakar , B. 2006 . “ Pulsed electric fields processing of foods: An overview ” . In Pulsed electric fields technology for the food industry. Fundamentals and applications , Edited by: Raso , J. and Heinz , V. 3 – 21 . New York, NY : Springer .
   Google Scholar
• Barbosa-Cánovas , G. V. , Fernández-Molina , J. J. and Swanson , B. G. 2001 . Pulsed electric fields: A novel technology for food preservation . Agro Food Industry Hi-Tech , 12 : 9 – 14 .
   Web of Science ®Google Scholar
• Barbosa-Cánovas , G. V. , Ghani-Abaali , A. , Juliano , P. and Knoerzer , K. 2011 . “ Introduction to innovative food processing technologies: Background, advantages, issues, and need for multiphysics modeling ” . In Innoovative food processing technologies: Advances in multiphysics simulation , Edited by: Knoerzer , K. , Juliano , P. , Roupas , P. and Versteeg , C. 3 – 21 . Hobocken : Wiley-Blackwell .
   Google Scholar
• Barssoti , L. , Merle , P. and Cheftel , J. C. 1999 . Food processing by pulsed electric fields. I. Physical aspects . Food Reviews International , 15 : 163 – 180 .
   Web of Science ®Google Scholar
• Bendicho , S. , Barbosa-Cánovas , G. V. and Martín , O. 2002 . Milk processing by high intensity pulsed electric fields . Trends in Food Science and Technology , 13 : 195 – 204 .
   Web of Science ®Google Scholar
• Bermúdez-Aguirre , D. and Barbosa-Cánovas , G. V. 2011 . “ Recent advances in emerging nonthermal technologies ” . In Food engineering interfaces , Edited by: Aguilera , J. M. , Barbosa-Cánovas , G. V. , Simpson , R. , Welti-Chanes , J. and Bermúdez-Aguirre , D. 285 – 323 . New York : Springer .
   Google Scholar
• Braakman , L. 2003 . Breakthrough in pasteurisation-pulsed electric fields . Food Engineering and Ingredients , 28 : 34 – 38 .
   Google Scholar
• Buckow , R. , Schroeder , S. , Berres , P. , Baumann , P. and Knoerzer , K. 2010 . Simualation and evaluation of pilot-plant pulsed electric field (PEF) processing . Journal of Food Engineering , 101 : 67 – 77 .
   Web of Science ®Google Scholar
• Butz , P. , Needs , E. C. , Baron , A. , Bayer , O. , Geisel , B. , Gupta , B. … & and Tauscher , B. 2003 . Consumer attitudes to high pressure food processing . Food Agriculture and Environment , 1 : 30 – 34 .
   Google Scholar
• Cardello , A. V. , Schutz , H. G. and Lesher , L. L. 2003 . Consumer concerns and expectations about novel food processing technologies: effects on product liking . Appetite , 40 : 217 – 233 .
   PubMed Web of Science ®Google Scholar
• Cardello , A. V. , Schutz , H. G. and Lesher , L. L. 2007 . Consumer perceptions of food processed by innovative and emerging technologies: a conjoint analytic study . Innovative Food Science and Emerging Technologies , 8 : 73 – 83 .
   Web of Science ®Google Scholar
• Chern , W. , Kaneko , N. and Tarakcioglu , G. B. 2003 . Willingness to pay for PEF-processed orange juice: evidence from an auction experiment Paper presented at the annual meeting of Agricultural and Applied Economics Associations, Montreal, Canada
   Google Scholar
• Clark , P. 2006 . Pulsed electric field processing . Food Technology , 60 : 66 – 67 .
   Web of Science ®Google Scholar
• da Cruz , A. G. , Fonseca-Faria , J. D.A. , Isay-Saad , S. M. , André-Bolini , H. M. , SantAna , A. S. and Cristianini , M. 2010 . High pressure processing and pulsed electric fields: potential use in probiotic dairy foods processing . Trends in Food Science and Technology , 21 : 483 – 493 .
   Web of Science ®Google Scholar
• de Haan , S. W.H. 2007 . “ Circuitry and pulse shapes in pulsed electric field treatment of food ” . In Food preservation by pulsed electric fields , Edited by: Lelieveld , H. L.M. , Notermans , S. and de Haan , S. W.H. 43 – 69 . Cambridge : Woodhead .
   Google Scholar
• de Haan , S. W.H. and Willcock , P. R. 2002 . Comparison of the energy performance of pulse generation circuits for PEF . Innovative in Food Science and Emerging Technologies , 3 : 349 – 356 .
   Google Scholar
• Dunn , J. E. 2001 . “ Pulsed electric field processing: An overview ” . In Pulsed electric fields in food processing: Fundamental aspects and applications , Edited by: Barbosa-Cánovas , G. V. and Zhang , Q. H. 1 – 30 . Lancaster : Technomic .
   Google Scholar
• Fiala , A. , Wouters , P. C. , van den Bosch , E. and Creyghton , Y. L.M. 2001 . Coupled electrical-fluid model of pulsed electric field treatment in a model food system . Innovative Food Science and Emerging Technologies , 2 : 229 – 238 .
   Google Scholar
• Gerlach , D. , Alleborn , N. , Baars , A. , Delgado , A. , Moritz , J. and Knorr , D. 2008 . Numerical simulations of pulsed electric fields for food preservation: A review . Innovative Food Science and Emerging Technologies , 9 : 408 – 417 .
   Web of Science ®Google Scholar
• Gómez-López , V. M. , Ragaert , P. , Debevere , J. and Devlieghere , F. 2007 . Pulsed light for food decontamination: a review . Trends in Food Science and Technology , 18 : 464 – 473 .
   Web of Science ®Google Scholar
• Góngora-Nieto , M. M. , Pedrow , P. D. , Swanson , B. G. and Barbosa-Cánovas , G. V. 2003 . Energy analysis of liquid whole egg pasteurized by pulsed electric fields . Journal of Food Engineering , 57 : 209 – 216 .
   Web of Science ®Google Scholar
• Góngora-Nieto , M. M. , Sepúlveda , D. , Pedrow , P. , Barbosa-Cánovas , G. and Swanson , B. 2002 . Food processing by pulsed electric fields: treatment delivery, inactivation level, and regulatory aspects . LWT-Food Science and Technology , 35 : 375 – 388 .
   Web of Science ®Google Scholar
• Heinz , V. , Toepfl , S. and Knorr , D. 2003 . Impact of temperature on lethality and energy efficiency of apple juice pasteurization by pulsed electric fields treatment . Innovative Food Science and Emerging Technologies , 4 : 165 – 175 .
   Google Scholar
• Huang , K. and Wang , J. 2009 . Designs of pulsed electric fields treatment chambers for liquid foods pasteurization process: A review . Journal of Food Engineering , 95 : 227 – 239 .
   Web of Science ®Google Scholar
• Jaeger , H. , Meneses , N. and Knorr , D. 2009 . Impact of PEF treatment inhomogeneity such as electric field distribution, flow characteristics and temperature effects on the inactivation of E. coli and milk alkaline phosphatase . Innovative Food Science and Emerging Technologies , 10 : 470 – 480 .
   Web of Science ®Google Scholar
• Knorr , D. , Froehling , A. , Jaeger , H. , Reineke , K. , Schlueter , O. and Schoessler , K. 2011 . Emerging technologies in food processing . Annual Review of Food Science and Technology , 2 : 203 – 235 .
   PubMed Web of Science ®Google Scholar
• Lindgren , M. , Aronsson , K. , Galt , S. and Ohlsson , T. 2002 . Simulation of the temperature increase in pulsed electric field (PEF) continuous flow treatment chambers . Innovative Food Science and Emerging Technologies , 3 : 233 – 245 .
   Google Scholar
• Lung , R. B. , Masanet , E. and McKane , A. The role of emerging technologies in improving energy efficiency: Examples from the food processing industry . Paper presented at the Industrial Energy Technologies Conference . New Orleans, LA
   Google Scholar
• Martín-Belloso , O. and Elez-Martínez , P. 2005 . “ Food safety aspects of pulsed electric fields ” . In Emerging technologies for food processing , Edited by: Sun , D. W. 183 – 217 . San Diego, CA : Elsevier .
   Google Scholar
• Meneses , N. , Jaeger , H. , Moritz , J. and Knorr , D. 2011 . Impact of insulator shape, flow rate and electrical parameters on inactivation of E. coli using a continuous co-linear PEF system . Innovative Food Science and Emerging Technologies , 12 : 6 – 12 .
   Web of Science ®Google Scholar
• Min , S. , Evrendilek , G. A. and Zhang , Q. H. 2007 . Pulsed electric fields: Processing system, microbial and enzyme inhibition, and shelf life extension of foods . IEEE Transactions on Plasma Science , 35 : 59 – 73 .
   Web of Science ®Google Scholar
• Mireaux , M. , Cox , D. N. , Cotton , A. and Evans , G. 2007 . An adaptation of repertory grid methodology to evaluate Australian consumers’ perception of food products produced by novel technologies . Food Quality and Preference , 18 : 834 – 848 .
   Web of Science ®Google Scholar
• Morren , J. , Roodenburg , B. and de Haan , S. W.H. 2003 . Electrochemical reactions and electrode corrosion in pulsed electric field (PEF) treatment chambers . Innovative Food Science and Emerging Technologies , 4 : 285 – 295 .
   Google Scholar
• Mosqueda-Melgar , J. , Raybaudi-Massilia , R. M. and Martín-Belloso , O. 2008 . Non-thermal pasteurization of fruit juices by combining high-intensity pulsed electric fields with natural antimicrobials . Innovative Food Science and Emerging Technologies , 9 : 328 – 340 .
   Web of Science ®Google Scholar
• Nafchi , A. M. , Bhat , R. and Karim-Alias , A. 2012 . “ Pulsed electric fields for food preservation: An update on technological progress ” . In Progress in food preservation , Edited by: Bhat , R. , Karim-Alias , A. and Paliyath , G. 277 – 295 . Oxford : Wiley-Blackwell .
   Google Scholar
• Nielsen , H. B. , Sonne , A. M. , Grunert , K. G. , Banati , D. , Pollák-Tóth , A. , Lakner , Z. … and Peterman , M. 2009 . Consumer perception of the use of high-pressure processing and pulsed electric field technologies in food production . Appetite , 52 : 115 – 126 .
   PubMed Web of Science ®Google Scholar
• Olsen , N. V. , Grunert , K. G. and Sonne , A. M. 2010 . Consumer acceptance of high-pressure processing and pulsed-electric field: a review . Trends in Food Science and Technology , 21 : 464 – 472 .
   Web of Science ®Google Scholar
• Pagán , R. , Esplugas , S. , Góngora-Nieto , M. M. , Barbosa-Cánovas , G. V. and Swanson , B. G. 1998 . Inactivation of Bacillus subtilis spores using high intensity pulsed electric fields in combination with other food conservation technologies . Food Science and Technology International , 4 : 33 – 44 .
   Web of Science ®Google Scholar
• Pereira , R. N. and Vicente , A. A. 2010 . Environmental impact of novel thermal and non-thermal technologies in food processing . Food Research International , 43 : 1936 – 1943 .
   Web of Science ®Google Scholar
• Pizzichemi , M. 2009 . Pulsed electric field inactivation of microbial cells: the use of ceramic layers to increase the efficiency of treatment . Nuclear Physics B – Proceedings Supplements , 197 : 374 – 377 .
   Google Scholar
• Puértolas , E. , López , N. , Condón , S. , Álvarez , I. and Raso , J. 2010 . Potential applications of PEF to improve the red wine quality . Trends in Food Science and Technology , 21 : 247 – 255 .
   Web of Science ®Google Scholar
• Puértolas , E. , Luengo , E. , Álvarez , I. and Raso , J. 2012 . Improving mass transfer to soften tissues by pulsed electric fields: Fundamentals and applications . Annual Review of Food Science and Technology , 3 : 263 – 282 .
   PubMed Web of Science ®Google Scholar
• Rajkovic , A. , Smigic , N. and Devlieghere , F. 2010 . Contemporary strategies in combating microbial contamination in food chain . International Journal of Food Microbiology , 141 : 29 – 42 .
   PubMed Web of Science ®Google Scholar
• Raso , J. , Manas , P. , Pagan , R. and Sala , F. J. 1999 . Influence of different factor son the output power transferred into medium by ultrasound . Ultrasonics Sonochemistry , 5 : 157 – 162 .
   PubMed Web of Science ®Google Scholar
• Rastogi , N. K. 2003 . Application of high-intensity pulsed electric fields in food processing . Food Reviews International , 19 : 229 – 251 .
   Web of Science ®Google Scholar
• Rodenburg , B. , de Haan , S. W.H. , van Bostel , L. B.J. , Hatt , V. , Wouters , P. C. , Coronel , P. and Ferreira , J. A. 2010 . Conductive plastic film electrodes for pulsed electric field (PEF) treatment – A proof of principle . Innovative Food Science and Emerging Technologies , 11 : 274 – 282 .
   Web of Science ®Google Scholar
• Rodenburg , B. , Morren , J. , Berg , H. E. and de Haan , S. W.H. 2005a . Metal release in a stainless steel pulsed electric field system. Part I. Effect of different pulse shapes; theory and experimental method . Innovative Food Science and Emerging Technologies , 6 : 327 – 336 .
   Web of Science ®Google Scholar
• Rodenburg , B. , Morren , J. , Berg , H. E. and de Haan , S. W.H. 2005b . Metal release in a stainless steel pulsed electric field system. Part II. The treatment of orange juice; related to legislation and treatment chamber lifetime . Innovative Food Science and Emerging Technologies , 6 : 337 – 349 .
   Web of Science ®Google Scholar
• Sack , M. , Sigler , J. , Frenzel , S. , Eing , C. , Arnold , J. , Michelberger , T. … and Müller , G. 2010 . Research on industrial-scale electroporation devices fostering the extraction of substances from biological tissue . Food Engineering Reviews , 2 : 147 – 156 .
   Web of Science ®Google Scholar
• Saldaña , G. , Álvarez , I. , Condón , S. and Raso , J. Microbiological aspects related to the feasibility of PEF technology for food pasteurization . Critical Reviews in Food Science and Nutrition , in press, doi: 10.1080/10408398.2011.638995
   Google Scholar
• Saldaña , G. , Puértolas , E. , Álvarez , I. , Meneses , N. , Knorr , D. and Raso , J. 2010 . Evaluation of a static treatment chamber to investigate kinetics of microbial inactivation by pulsed electric fields at different temperatures at quasi-isothermal conditions . Journal of Food Engineering , 100 : 349 – 356 .
   Web of Science ®Google Scholar
• Saldaña , G. , Puértolas , E. , Monfort , S. , Raso , J. and Álvarez , I. 2011 . Defining treatment conditions for pulsed electric field pasteurization of apple juice . International Journal of Food Microbiology , 151 : 29 – 35 .
   PubMed Web of Science ®Google Scholar
• Saulis , G. 2010 . Electroporation of cell membranes: The fundamental effects of pulsed electric fields in food processing . Food Engineering Reviews , 2 : 52 – 73 .
   Web of Science ®Google Scholar
• Sepúlveda , D. R. , Góngora-Nieto , M. M. , San-Martín , M. F. and Barbosa-Cánovas , G. V. 2005 . Influence of treatment temperature on the inactivation of . Listeria innocua by pulsed electric fields. LWT-Food Science and Technology , 38 : 167 – 172 .
   Web of Science ®Google Scholar
• Siegrist , M. 2008 . Factors influencing acceptance of innovative food technologies and products . Trends in Food Science and Technology , 19 : 603 – 608 .
   Web of Science ®Google Scholar
• Sitzmann , W. and Münch , E. W. 1988 . Das ELCRACK Verfahren: Ein neues Verfahren zur Verarbeitung tierischer Rohstoffe . Die Fleischmehlindustrie , 40 : 22 – 28 .
   Google Scholar
• Sobrino-López , A. and Martín-Belloso , O. 2010 . Review: Potential of high-intensity pulsed electric field technology for milk processing . Food Engineering Reviews , 2 : 17 – 27 .
   Web of Science ®Google Scholar
• Sonne , A. M. , Grunert , K. G. , Olsen , N. V. , Granli , B. S. , Szabó , E. and Banati , D. 2012 . Consumer's perception of HHP and PEF food products . British Food Journal , 114 : 85 – 107 .
   Web of Science ®Google Scholar
• Teissie , J. , Golzio , M. and Rols , M. P. 2005 . Mechanisms of cell membrane electropermeabilziation: A minireview of our present (lack of?) knowledge . Biochemica et Biophysica Acta , 1724 : 270 – 280 .
   PubMed Web of Science ®Google Scholar
• Toepfl , S. 2011 . Pulsed electric field food treatment – Scale up from lab to industrial scale . Procedia Food Science , 1 : 776 – 779 .
   Google Scholar
• Toepfl , S. , Heinz , V. and Knorr , D. 2006 . “ Applications of pulsed electric fields technology for the food industry ” . In Pulsed electric fields technology for the food industry. Fundamentals and applications , Edited by: Raso , J. and Heinz , V. 197 – 221 . New York, NY : Springer .
   Google Scholar
• Toepfl , S. , Heinz , V. and Knorr , D. 2007 . “ History of pulsed electric field treatment ” . In Food preservation by pulsed electric fields , Edited by: Lelieveld , H. L.M. , Notermans , S. and de Haan , S. W.H. 9 – 39 . Cambridge : Woodhead .
   Google Scholar
• Toepfl , S. , Mathys , A. , Heinz , V. and Knorr , D. 2006 . Review: Potential of high hydrostatic pressure and pulsed electric fields for energy efficient and environmentally friendly food processing . Food Reviews International , 22 : 405 – 423 .
   Web of Science ®Google Scholar
• Wouters , P. C. , Álvarez , I. and Raso , J. 2001 . Critical factors determining inactivation kinetics by pulsed electric field food processing . Trends in Food Science and Technology , 12 : 112 – 121 .
   Web of Science ®Google Scholar
• Zhang , Q. , Barbosa-Cánovas , G. V. and Swanson , B. G. 1995 . Engineering aspects of pulsed electric field pasteurization . Journal of Food Engineering , 25 : 261 – 281 .
   Web of Science ®Google Scholar