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Drying Technology
An International Journal
Volume 36, 2018 - Issue 3
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ARTICLES

Low oil content potato chips produced by infrared vacuum pre-drying and microwave-assisted vacuum frying

Ya SuState Key Laboratory of Food Science and Technology, School of Food Science and Technology, Jiangnan University, Wuxi, Jiangsu, China
,
Min ZhangState Key Laboratory of Food Science and Technology, School of Food Science and Technology, Jiangnan University, Wuxi, Jiangsu, ChinaCorrespondence[email protected]
,
Weiming ZhangNanjing Academy of Comprehensive Utilization of Wild Plants, Nanjing, Jiangsu, China
,
Chunquan LiuInstitute of Farm Product Processing, Jiangsu Academy of Agricultural Sciences, Nanjing, Jiangsu, China
&
Bhesh BhandariSchool of Agriculture and Food Sciences, University of Queensland, Brisbane, QLD, Australia
Pages 294-306 | Received 14 Nov 2016, Accepted 01 May 2017, Published online: 04 Aug 2017

References

  • Moreira, R. G.; Da Silva, P. F.; Gomes, C. The Effect of a De-Oiling Mechanism on the Production of High Quality Vacuum Fried Potato Chips. J. Food Eng. 2009, 92(3), 297–304.
  • Tarmizi, A. H.; Niranjan, K. The Possibility of Lowering Oil Content of Potato Chips by Combining Atmospheric Frying with Postfrying Vacuum Application. J. Food Sci. 2010, 75(9), E572–E579.
  • Krokida, M.; Oreopoulou, V.; Maroulis, Z.; Marinos-Kouris, D. Deep Fat Frying of Potato Strips—Quality Issues. Drying Technol. 2001, 19(5), 879.
  • Wang, L.; Zhang, M.; Fang, Z.; Xu, B. Application of Intermediate-Wave Infrared Drying in Preparation of Mushroom Chewing Tablets. Drying Technol. 2014, 32(15), 1820–1827.
  • Su, Y.; Zhang, M.; Zhang, W.; Adhikari, B.; Yang, Z. Application of Novel Microwave-Assisted Vacuum Frying to Reduce the Oil Uptake and Improve the Quality of Potato Chips. LWT - Food Sci. Technol. 2016, 73, 490–497.
  • Su, Y.; Zhang, M.; Zhang, W. Effect of Low Temperature on the Microwave-Assisted Vacuum Frying of Potato Chips. Drying Technol. 2015, 34(2), 227–234.
  • Quan, X.; Zhang, M.; Zhang, W.; Adhikari, B. Effect of Microwave-Assisted Vacuum Frying on the Quality of Potato Chips. Drying Technol. 2014, 32(15), 1812–1819.
  • Zhu, Y. Y.; Zhang, M.; Wang, Y. Q. Vacuum Frying of Peas: Effect of Coating and Pre-Drying. J. Food Sci. Technol. 2015, 52(5), 3105–3110.
  • Sothornvit, R. Edible Coating and Post-Frying Centrifuge Step Effect on Quality of Vacuum-Fried Banana Chips. J. Food Eng. 2011, 107(3–4), 319–325.
  • Kim, T.; Moreira, R. G. De-Oiling and Pretreatment for High-Quality Potato Chips. J. Food Process Eng. 2013, 36(3), 267–275.
  • Song, X.-J.; Zhang, M.; Mujumdar, A. S. Effect of Vacuum-Microwave Predrying on Quality of Vacuum-Fried Potato Chips. Drying Technol. 2007, 25(12), 2021–2026.
  • Ravli, Y.; Da Silva, P.; Moreira, R. G. Two-Stage Frying Process for High-Quality Sweet-Potato Chips. J. Food Eng. 2013, 118(1), 31–40.
  • Karizaki, V. M.; Sahin, S.; Sumnu, G.; Mosavian, M.T. H.; Luca, A. Effect of Ultrasound-Assisted Osmotic Dehydration as a Pretreatment on Deep Fat Frying of Potatoes. Food Bioprocess Technol. 2012, 6(12), 3554–3563.
  • Al-Khusaibi, M. K.; Niranjan, K. The Impact of Blanching and High-Pressure Pretreatments on Oil Uptake of Fried Potato Slices. Food Bioprocess Technol. 2011, 5(6), 2392–2400.
  • Song, X.-J.; Zhang, M.; Mujumdar, A. S. Optimization of Vacuum Microwave Pre-Drying and Vacuum Frying Conditions to Produce Fried Potato Chips. Drying Technol. 2007, 25(12), 2027–2034.
  • Ahmad Tarmizi, A. H.; Niranjan, K. Post-Frying Oil Drainage from Potato Chips and French Fries: A Comparative Study of Atmospheric and Vacuum Drainage. Food Bioprocess Technol. 2011, 6(2), 489–497.
  • Ahmad Tarmizi, A. H.; Niranjan, K. Combination of Moderate Vacuum Frying with High Vacuum Drainage—Relationship Between Process Conditions and Oil Uptake. Food Bioprocess Technol. 2012, 6(10), 2600–2608.
  • Quan, X.; Zhang, M.; Fang, Z.; Liu, H.; Shen, Q.; Gao, Z. Low Oil French Fries Produced by Combined Pre-Frying and Pulsed-Spouted Microwave Vacuum Drying Method. Food Bioprod. Process. 2016, 99, 109–115.
  • Ranjan, R.; Irudayaraj, J.; Jun, S. Simulation of Infrared Drying Process. Drying Technol. 2002, 20(2), 363–379.
  • Mongpraneet, S.; Abe, T.; Tsurusaki, T. Kinematic Model for a Far Infrared Vacuum Dryer. Drying Technol. 2004, 22(7), 1675–1693.
  • Riadh, M. H.; Ahmad, S.A. B.; Marhaban, M. H.; Soh, A. C. Infrared Heating in Food Drying: An Overview. Drying Technol. 2014, 33(3), 322–335.
  • Nuthong, P.; Achariyaviriya, A.; Namsanguan, K.; Achariyaviriya, S. Kinetics and Modeling of Whole Longan with Combined Infrared and Hot Air. J. Food Eng. 2011, 102(3), 233–239.
  • Sakai, N.; Hanzawa, T. Applications and Advances in Far-Infrared Heating in Japan. Trends Food Sci. Technol. 1994, 5(11), 357–362.
  • Xu, B.; Zhang, M.; Bhandari, B. Temperature and Quality Characteristics of Infrared Radiation–Dried Kelp at Different Peak Wavelengths. Drying Technol. 2014, 32(4), 437–446.
  • Qi, L.-L.; Zhang, M.; Mujumdar, A. S.; Meng, X.-Y.; Chen, H.-Z. Comparison of Drying Characteristics and Quality of Shiitake Mushrooms (Lentinus edodes) Using Different Drying Methods. Drying Technol. 2014, 32(15), 1751–1761.
  • Wang, H.; Zhang, M.; Mujumdar, A. S. Comparison of Three New Drying Methods for Drying Characteristics and Quality of Shiitake Mushroom (Lentinus edodes). Drying Technol. 2014, 32(15), 1791–1802.
  • Shi, J.; Pan, Z.; McHugh, T. H.; Wood, D.; Hirschberg, E.; Olson, D. Drying and Quality Characteristics of Fresh and Sugar-Infused Blueberries Dried with Infrared Radiation Heating. LWT - Food Sci. Technol. 2008, 41(10), 1962–1972.
  • Sadin, R.; Chegini, G.-R.; Sadin, H. The Effect of Temperature and Slice Thickness on Drying Kinetics Tomato in the Infrared Dryer. Heat and Mass Transfer 2014, 50(4), 501–507.
  • Mongpraneet, S.; Abe, T.; Tsurusaki, T. Accelerated Drying of Welsh Onion by far Infrared Radiation under Vacuum Conditions. J. Food Eng. 2002, 55(2), 147–156.
  • Bazyma, L. A.; Guskov, V. P.; Basteev, A. V.; Lyashenko, A. M.; Lyakhno, V.; Kutovoy, V. A. The Investigation of Low Temperature Vacuum Drying Processes of Agricultural Materials. J. Food Eng. 2006, 74(3), 410–415.
  • Aydogdu, A.; Sumnu, G.; Sahin, S. Effects of Microwave-Infrared Combination Drying on Quality of Eggplants. Food Bioprocess Technol. 2015, 8(6), 1198–1210.
  • Doymaz, I. Infrared Drying Characteristics of Bean Seeds. J. Food Process. Preserv. 2015, 39(6), 933–939.
  • Doymaz, İ. Infrared Drying of Button Mushroom Slices. Food Sci. Biotechnol. 2014, 23(3), 723–729.
  • Liu, Y.; Miao, S.; Wu, J.; Liu, J.; Yu, H.; Duan, X. Drying Characteristics and Modeling of Vacuum Far-Infrared Radiation Drying of Flos Lonicerae. J. Food Process. Preserv. 2015, 39(4), 338–348.
  • Łechtańska, J. M.; Szadzińska, J.; Kowalski, S. J. Microwave- and Infrared-Assisted Convective Drying of Green Pepper: Quality and Energy Considerations. Chem. Eng. Process. Process Intensif. 2015, 98, 155–164.
  • Supmoon, N.; Noomhorm, A. Influence of Combined Hot Air Impingement and Infrared Drying on Drying Kinetics and Physical Properties of Potato Chips. Drying Technol. 2013, 31(1), 24–31.
  • Wanyo, P.; Siriamornpun, S.; Meeso, N. Improvement of Quality and Antioxidant Properties of Dried Mulberry Leaves with Combined Far-Infrared Radiation and Air Convection in Thai Tea Process. Food Bioprod. Process 2011, 89(1), 22–30.
  • Kalita, D.; Jayanty, S. S. Reduction of Acrylamide Formation by Vanadium Salt in Potato French Fries and Chips. Food Chem. 2013, 138(1), 644–649.
  • Pan, Z.; Shih, C.; McHugh, T. H.; Hirschberg, E. Study of Banana Dehydration Using Sequential Infrared Radiation Heating and Freeze-Drying. LWT - Food Sci. Technol. 2008, 41(10), 1944–1951.
  • Zhu, Y.; Pan, Z.; McHugh, T. H.; Barrett, D. M. Processing and Quality Characteristics of Apple Slices Processed under Simultaneous Infrared Dry-Blanching and Dehydration with Intermittent Heating. J. Food Eng. 2010, 97(1), 8–16.
  • Datta, A. K.; Ni, H. Infrared and Hot-Air-Assisted Microwave Heating of Foods for Control of Surface Moisture. J. Food Eng. 2002, 51(4), 355–364.
  • AOAC. Official Methods of Analysis of AOAC International; AOAC: Virginia, 1995.
  • Chen, H.; Zhang, M.; Fang, Z. Vacuum Frying of Desalted Grass Carp (Ctenopharyngodon idellus) Fillets. Drying Technol. 2014, 32(7), 820–828.
  • Standardization Administration of P.R. China. Determination of Crude Fat in Foods, National Food Safety Standard GB/T 14772–2008; Standardization Administration of P.R. China: Peking, China, 2008.
  • Figiel, A. Drying Kinetics and Quality of Vacuum-Microwave Dehydrated Garlic Cloves and Slices. J. Food Eng. 2009, 94(1), 98–104.
  • Wang, Y.; Zhang, M.; Mujumdar, A. S. Convective Drying Kinetics and Physical Properties of Silver Carp (Hypophthalmichthys molitrix) Fillets. J. Aquat. Food Prod. Technol. 2011, 20(4), 361–378.
  • Meilgaard, M.; Civille, G. V.; Carr, B. T. Sensory Evaluation Techniques, Third Edition. CRC Press: ACnn Arbor, 1999.
  • Munoz, A. M.; Civille, G. V.; Carr, B. T. Sensory Evaluation in Quality Control. Van Nostrand Reinhold: New York, 1992; 108–139.
  • Troncoso, E.; Pedreschi, F.; Zúñiga, R. N. Comparative Study of Physical and Sensory Properties of Pre-Treated Potato Slices during Vacuum and Atmospheric Frying. LWT - Food Sci. Technol. 2009, 42(1), 187–195.
  • Swasdisevi, T.; Devahastin, S.; Sa-Adchom, P.; Soponronnarit, S. Mathematical Modeling of Combined Far-Infrared and Vacuum Drying Banana Slice. J. Food Eng. 2009, 92(1), 100–106.
  • Garayo, J.; Moreira, R. Vacuum Frying of Potato Chips. J. Food Eng. 2002, 55, 181–191.
  • Bouchon, P.; Hollins, P.; Pearson, M.; Pyle, D. L.; Tobin, M. J. Oil Distribution in Fried Potatoes Monitored by Infrared Microspectroscopy. J. Food Sci. 2001, 66(7), 918–923.
  • Fan, L.-P.; Zhang, M.; Mujumdar, A. Vacuum Frying of Carrot Chips. Drying Technol. 2005, 23(3), 645–656.
  • Janve, B.; Yang, W.; Sims, C. Sensory and Quality Evaluation of Traditional Compared with Power Ultrasound Processed Corn (Zea Mays) Tortilla Chips. J. Food Sci. 2015, 80(6), S1368–S1376.
  • Nunes, Y.; Moreira, R. G. Effect of Osmotic Dehydration and Vacuum-Frying Parameters to Produce High-Quality Mango Chips. J. Food Sci. 2009, 74(7), E355–E362.
  • Yagua, C. V.; Moreira, R. G. Physical and Thermal Properties of Potato Chips during Vacuum Frying. J. Food Eng. 2011, 104(2), 272–283.
  • Andrés-Bello, A.; García-Segovia, P.; Martínez-Monzó, J. Vacuum Frying: An Alternative to Obtain High-Quality Dried Products. Food Eng. Rev. 2011, 3(2), 63–78.
  • Da Silva, P. F.; Moreira, R. G. Vacuum Frying of High-Quality Fruit and Vegetable-Based Snacks. LWT - Food Sci. Technol. 2008, 41(10), 1758–1767.

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