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Drying Technology
An International Journal
Volume 37, 2019 - Issue 10
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Original Articles

Physical and chemical properties of powder produced from spray drying of inulin component extracted from Jerusalem artichoke tuber powder

Raveeporn JirayucharoensakDepartment of Food Science and Technology, Faculty of Agro-Industry, Kasetsart University, Bangkok, Thailand; View further author information
,
Krittiya KhuenpetDepartment of Food Science and Technology, Faculty of Science and Technology, Thammasat University, Pathum Thani, Thailand; View further author information
,
Weerachet JittanitDepartment of Food Science and Technology, Faculty of Agro-Industry, Kasetsart University, Bangkok, Thailand; Correspondence[email protected]
View further author information
&
Sarote SirisansaneeyakulDepartment of Biotechnology, Faculty of Agro-Industry, Kasetsart University, Bangkok, ThailandView further author information
Pages 1215-1227 | Received 24 Feb 2018, Accepted 08 Jun 2018, Published online: 01 Oct 2018

References

  • Pszczola, D. E. Feelin` Good: Ingredients that Add Texture. Food Technol. 1997, 51, 82–86.
  • Barclay, T.; Ginic-Markovic, M.; Cooper, P.; Petrovsky, N. Inulin: A Versatile Polysaccharide with Multiple Pharmaceutical and Food Chemical Uses. J. Excip. Food Chem. 2010, 1, 27–50.
  • Roberfroid, M. B. Introducing Inulin-Type Fructans. Br. J. Nutr. 2005, 93, S13–S25.
  • Kaur, N.; Gupta, A. Applications of Inulin and Oligofructose in Health and Nutrition. J. Biosci. 2002, 27, 703–714.
  • Ohr, L. M. Nutraceuticals & Functional Foods. Food Technol. 2004, 58, 71–75.
  • Shene, C.; Cabezas, M. J.; Bravo, S. Effect of Drying Air Temperature on Drying Kinetics Parameters and Fructan Content in Helianthus Tuberosus and Cichorium Intybus. Drying Technol. 2003, 21, 945–956.
  • Vokov, K.; Erdelyi, M.; Pichler-Magyar, E. Preparation of Pure Inulin and Various Inulin-Containing Products from Jerusalem Artichoke for Human Consumption and for Diagnostic Use. In Inulin and Inulin-Containing Crops; Fuchs, A., Ed.; Elsevier: Amsterdam, 1993; pp 341–345.
  • Niness, K. R. Inulin and Oligofructose: What Are They? J. Nutr. 1999, 129, 1402S–1406S.
  • Schaller-Povolny, L. A.; Smith, D. E.; Labuza, T. P. Effect of Water Content and Molecular Weight on the Moisture Isotherms and Glass Transition Properties of Inulin. Int. J. Food Prop. 2000, 3, 173–192.
  • Roberfroid, M. B. Inulin-Type Fructans: Functional Food Ingredients. J. Nutr. 2007, 137, 2493S–2502S.
  • Meijer, W. J. M.; Mathijssen, E. W. J. M. Experimental and Simulated Production of Inulin by Chicory and Jerusalem Artichoke. Ind. Crops Prod. 1992, 1, 175–183.
  • Simonovska, B. Determination of Inulin in Foods. J. AOAC Int. 2000, 83, 675–678.
  • Van Loo, J.; Coussement, P.; Leenheer, L. D.; Hoebregs, H.; Smits, G. On the Presence of Inulin and Oligofructose as Natural Ingredients in the Western Diet. Crit. Rev. Food Sci. Nutr. 1995, 35, 525–552.
  • López − Molina, D.; Navarro − Martínez, M. D.; Melgarejo, F. R.; Hiner, A. N. P.; Chazarra, S.; Rodríguez − López, J. N. Molecular Properties and Prebiotic Effect of Inulin Obtained from Artichoke (Cynara scolymus L.). Phytochemistry 2005, 66, 1476–1484.
  • Saengkanuk, A.; Nuchadomrong, S.; Jogloy, S.; Patanothai, A.; Srijaranai, S. A. Simplified Spectrometric Method for the Determination of Inulin in Jerusalem Artichoke (Helianthus tuberosus L.) Tubers. Eur. Food Res. Technol. 2011, 233, 609–616.
  • Takeuchi, J.; Nagashima, T. Preparation of Dried Chips from Jerusalem Artichoke (Helianthus tuberosus L.) Tubers and Analysis of Their Function Properties. Food Chem. 2011, 126, 922–926.
  • Vorasoot, N.; Jogloy, S. Inulin: Non-Digestible Carbohydrate as Soluble Fiber from Kaentawan for Human Health. Kaen Kaset. 2006, 34, 85–91.
  • Tanjor, S.; Judprasong, K.; Chaito, C.; Jogloy, S. Inulin and Fructooligosacharides in Different Varieties of Jerusalem Artichoke (Helianthus tuberosus L). Kaen Kaset. 2012, 17, 25–34.
  • Judprasong, K.; Tanjor, S.; Puwastien, P.; Sungpuag, P. Investigation of Thai Plants for Potential Sources of Inulin-Type Fructans. J. Food Compost. Anal. 2011, 24, 642–649.
  • Chaito, C.; Judprasong, K.; Puwastien, P. Inulin Content of Fortified Food Products in Thailand. Food Chem. 2016, 193, 102–105.
  • Ronkart, S.; Blecker, C.; Fougnies, C.; Van Herck, J. C.; Wouters, J.; Paquot, M. Determination of Physical Changes of Inulin Related to Sorption Isotherms: An X-Ray Diffraction, Modulated Differential Scanning Calorimetry and Environmental Scanning Electron Microscopy Study. Carbohydr. Polym. 2006, 63, 210–217.
  • Khuenpet, K.; Fukuoka, M.; Jittanit, W.; Sirisansaneeyakul, S. Spray Drying of Inulin Component Extracted from Jerusalem Artichoke Tuber Powder Using Conventional and Ohmic-Ultrasonic Heating for Extraction Process. J Food Eng. 2017, 194, 67–78.
  • Srinameb, B.; Nuchadomrong, S.; Jogloy, S.; Patanothai, A.; Srijaranai, S. Preparation of Inulin Powder from Jerusalem Artichoke (Helianthus tuberosus L.) Tuber. Plant Foods Hum. Nutr. 2015, 70, 221–226.
  • Franck, A. Inulin. In Food Polysaccharides and Their Application, 2nd ed.; Stephen, A.M., Phillips, G.O., Williams, P.A., Eds.; Taylor and Francis Group, CRC Press LLC: Boca Raton, FL, 2006; pp 335–351.
  • Toneli, J. T. C. L.; Park, K. J.; Ramalho, J. R. P.; Murr, F. E. X.; Fabbro, I. M. D. Rheological Characterization of Chicory Root (Cichorium intybus L.) Inulin Solution. Braz. J. Chem. Eng. 2008, 25, 461–471.
  • Zhu, Z.; Bals, O.; Grimi, N.; Ding, L.; Vorobiev, E. Better Damage of Chicory Tissue by Combined Electroporation and Ohmic Heating for Solute Extraction. Food Bioprod. Process 2015, 94, 248–254.
  • Paseephol, T.; Small, D.; Sherkat, F. Process Optimisation for Fractionating Jerusalem Artichoke Fructans with Ethanol Using Response Surface Methodology. Food Chem. 2007, 104, 73–80.
  • Abou-Arab, A. A.; Talaat, H. A.; Abu-Salem, F. M. Physico-Chemical Properties of Inulin Produced from Jerusalem Artichoke Tubers on Bench and Pilot Plant Scale. Aust. J. Basic Appl. Sci. 2011, 5, 1297–1309.
  • Apolinário, A. C.; de Lima Damasceno, B. P.; de Macêdo Beltrão, N. E.; Pessoa, A.; Converti, A.; da Silva, J. A. Inulin-Type Fructans: A Review on Different Aspects of Biochemical and Pharmaceutical Technology. Carbohydr. Polym. 2014, 101, 368–378.
  • Marur, C. J.; Sodex, L. Microwave Drying of Plant Material for Biochemical Analysis. Braz. J. Plant Physiol. 1995, 7, 111–114.
  • Khuenpet, K.; Jittanit, W.; Sirisansaneeyakul, S. Comparison of Hot Air and Superheated Steam Drying of Jerusalem Artichoke (Helianthus tuberosus L.) Tubers and Inulin Powder Production. Trans. ASAE. 2015, 58, 1113–1125.
  • Khuenpet, K.; Jittanit, W.; Sirisansaneeyakul, S.; Srichamnong, W. Effect of Pretreatments on Quality of Jerusalem Artichoke (Helianthus tuberosus L.) Tuber Powder and Inulin Extraction. Trans. ASABE. 2015, 58, 1873–1884.
  • Ronkart, S. N.; Paquot, M.; Fougnies, C.; Deroanne, C.; Blecker, C. S. Effect of Water Uptake on Amorphous Inulin Properties. Food Hydrocolls. 2009, 23, 922–927.
  • Toneli, J.; Park, K.; Negreiros, A.; Murr, F. Spray-Drying Process Optimization of Chicory Root Inulin. Dry. Technol. 2010, 28, 369–379.
  • Paseephol, T.; Sherkat, F. Probiotic Stability of Yoghurts Containing Jerusalem Artichoke Inulins during Refrigerated Storage. J. Funct. Foods 2009, 1, 311–318.
  • Flores, F. P.; Singh, R. K.; Kong, F. Physical and Storage Properties of Spray-Dried Blueberry Pomace Extract with Whey Protein Isolate as Wall Material. J. Food Eng. 2014, 137, 1–6.
  • Rosenberg, M.; Kopelman, I. J.; Talmon, Y. A Scanning Electron Microscopy Study of Microencapsulation. J. Food Sci. 2006, 50, 139–144.
  • Tan, S. P.; Kha, T. C.; Parks, S. E.; Stathopoulos, C. E.; Roach, P. D. Effects of the Spray-Drying Temperatures on the Physiochemical Properties of an Encapsulated Bitter Melon Aqueous Extract Powder. Powder Technol. 2015, 281, 65–75.
  • Gal, S. The Need for, and Practical Applications of Sorption Data. In Physical Properties of Foods-2; Jowitt, R., Escher, F., Hallstrom, B., Mefert, H., Spiess, W., Vos G., Eds.; Elsevier Applied Science: London, 1987; pp 13–25.
  • Muzaffar, K.; Kumar, P. Moisture Sorption Isotherms and Storage Study of Spray Dried Tamarind Pulp Powder. Powder Technol. 2016, 291, 322–327.
  • Balderrama, J. G. P.; Cadima, S. C. C. Water Adsorption Isotherms of Amaranth (Amaranthus caudatus) Flour. Food Nutr. Sci. 2014, 5, 153–157.
  • Zimeri, J. E.; Kokini, J. L. The Effect of Moisture Content on the Crystallinity and Glass Transition Temperature of Inulin. Carbohydr. Polym. 2002, 48, 299–304.
  • Al-Kahtani, H.; Bakri, H. Spray Drying of Hibiscus sabdariffa L. J. Food Sci. 1990, 55, 1073–1076.
  • Sulieman, A. M. E.; Elamin, O. M.; Elkhalifa, E. A.; Laleye, L. Comparison of Physicochemical Properties of Spray-Dried Camel’s Milk and Cow’s Milk Powder. Int. J. Food. Sci. Nutr. 2012, 1, 1–19.
  • AOAC. Official Method of Analytical of AOAC International, 18th ed.; AOAC International: Maryland, USA, 2005.; Method: 923.03, 925.45, 945.16, 991.20, 991.42 and 997.08.
  • Joye, D.; Hoebregs, H.; Joye, D.; Hoebregs, H. Determination of Oligofructose, a Soluble Dietary Fiber, by High-Temperature Capillary Gas Chromatography. J AOAC Int . 2000, 83, 1020–1025.
  • Greenspan, L. Humidity Fixed Points of Binary Saturated Aqueous Solutions. J. Res. Natl. Bur. Stan. Sect. A 1977, 81A, 89–96.
  • Oswin, C. R. The Kinetics of Package Life. III. J. Chem. Technol. Biotechnol. 1946, 65, 419.
  • Caurie, M. A New Model Equation for Predicting Safe Storage Moisture Stability of Dehydrated Foods. J. Food Technol. 2007, 5, 301–307.
  • Smith, S. E. The Sorption of Water Vapor by High Polymers. J. Am. Chem. Soc. 1947, 69, 646.
  • Halsey, G. Physical Adsorption on Non‐Uniform Surfaces. J. Chem. Phys. 1948, 16, 931–937.
  • Brunauer, S.; Emmett, P. H.; Teller, E. Adsorption of Gases in Multimolecular Layers. J. Am. Chem. Soc. 1938, 60, 309–319.
  • Van den Berg, C. Development of B.E.T. like models for sorption of water of foods; theory and relevance. In Properties of Water in Foods; Simatos, D., Multon, J. L., Eds.; Martinus Nijhoff Publishers: Dordrecht, 1985; p 119.
  • Lewicki, P. P. A Three Parameter Equation for Food Moisture Sorption Isotherms. J. Food Process Eng. 1998, 21, 127–144.
  • Peleg, M. Fractals and Foods. Crit. Rev. Food Sci. Nutr. 1993, 33, 149–165.
  • Amrutha, N.; Umesh Hebbar, H.; Prapulla, S. G.; Raghavarao, K. S. M. S. Effect of Additives on Quality of Spray-Dried Fructooligosaccharide Powder. Dry. Technol. 2014, 32, 1112–1118.
  • Khuenpet, K.; Charoenjarasrerk, N.; Jaijit, S.; Arayapoonpong, S.; Jittanit, W. Investigation of Suitable Spray Drying Conditions for Sugarcane Juice Powder Production with an Energy Consumption Study. Agric. Nat. Resour. 2016, 50, 139–145.
  • Fennema, O. R. Water and Ice. In Food Chemistry, 3rd ed.; Fennema, O. R., Ed.; Marcel Dekker: New York, 1996; pp 17–94.
  • Macierzanka, A.; Szeląg, H. Microstructural Behavior of Water-in-Oil Emulsions Stabilized by Fatty Acid Esters of Propylene Glycol and Zinc Fatty Acid Salts. Colloids Surf. A. 2006, 281, 125–137.
  • Michel, P.; Ronkart, S. N.; Deroanne, C.; Fougnies, C.; Lambrechts, J. C.; Blecker, C. S. Characterization of Physical State of Spray-Dried Inulin. Food Biophys. 2007, 2, 83–92.
  • Khuenpet, K.; Jittanit, W.; Sirisansaneeyakul, S.; Srichamnong, W. Inulin Powder Production from Jerusalem Artichoke (Helianthus tuberosus L.) Tuber Powder and Its Application to Commercial Food Products. J. Food Process Preserv. 2017, 41, e13097.
  • Jilu, S.; Yingmin, J.; Yaxin, S. Development and Utilization of Jerusalem Artichoke Resources. J. Food Sci. Technol. 2003, 1, 27–29.
  • El-Hofi, A. A. Technological and Biological Uses of Jerusalem Artichoke Powder and Resistant Starch. Ann. Agric. Sci. 2005, 43, 279–291.
  • Cieślik, E.; Kopeel, A.; Praznik, W. Healthy Properties of Jerusalem Artichoke Flour (Helianthus tuberosus L.). EJPAU. 2005, 8. www.ejpau.media.pl/volume8/issue2/art-37.html
  • Saengthongpinit, W.; Sajjaanantakul, T. Influence of Harvest Time and Storage Temperature on Characteristics of Inulin from Jerusalem Artichoke (Helianthus tuberosus L.) Tubers. Postharvest Biol Technol. 2005, 37, 93–100.
  • Stanley, J. K.; Nottingham, S. F. Biology and Chemistry of Jerusalem Artichoke: Helianthus Tuberosus L. CRC Press: Boca Raton, FL, 2007.
  • Labuza, T.; Altunakar, B. Diffusion and Sorption Kinetics of Water in Foods. In Water Activity in Foods: Fundamentals and Applications; Barbosa-Cánovas, G. V., Fontana, A. J., Schmidt, S. J., Labuza, T. P., Eds.; Blackwell Publishing: Oxford, UK, 2007; pp 215–238.
  • Palipane, K. B.; Driscoll, R. H. Moisture Sorption Characteristics of in-Shell Macadamia Nuts. J. Food Eng.1993, 18, 63–76.

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