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Drying Technology
An International Journal
Volume 33, 2015 - Issue 8
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Original Articles

The Loss of Aroma Components of the Fruit of Vangueria infausta L. (African Medlar) After Convective Drying

Rui T. RaiceDepartment of Chemistry, Eduardo Mondlane University, Maputo, Mozambique;Department of Food Technology Engineering and Nutrition, Lund University, Lund, SwedenCorrespondence[email protected]
,
Eulália ChiauDepartment of Food Technology Engineering and Nutrition, Lund University, Lund, Sweden;Chemical Engineering Department, Eduardo Mondlane University, Maputo, Mozambique
,
Ingegerd SjoholmDepartment of Food Technology Engineering and Nutrition, Lund University, Lund, Sweden
&
Bjorn BergenstahlDepartment of Food Technology Engineering and Nutrition, Lund University, Lund, Sweden
Pages 887-895 | Published online: 11 May 2015

REFERENCES

  • Kowalski, R.; Wawrzykowski, J. Essential oils analysis in dried materials and granules obtained from Thymus vulgaris L., Salvia officinalis L. , Menta piperita L. and chamomilla recutita L. Flavour and Fragrance Journal 2008, 24, 31–35.
  • Quijano, C.E.; Salamanca, G.; Pino, J.A. Aroma volatile constituents of colombian varieties of mango (Mangifera indica L. ). Flavour and Fragrance Journal 2007, 22, 401–406.
  • Kerkhof, P.J.A.M. Correlation between process variables and aroma loss in the drying of liquid foods: Proceedings 4th International Congress. LWT–Food Science and Technology 1974, 4, 203–220.
  • Thijssen, H.A.C.; Kerkhof, P.J.A.M. Quantitative study of effects of process variables on aroma retention during the drying of liquid foods. American Institute of Chemical Engineers. Symposium Series 1977, 73, 33–46.
  • Coumans, W.J.; Karkhof, P.J.A.M.; Bruin, S. Theoretical and practical aspects of aroma retention in spry drying and freeze drying. Drying Technology 1994, 12, 99–149.
  • Roos, Y.H. Phase Transitions in Foods; Academic Press: London, 1995.
  • Wang, J.; Li, Y.Z.; Chen, R.R.; Bao, J.Y.; Yang, G.M. Comparison of volatiles of banana powder dehydrated by vacuum belt drying, freeze-drying and air-drying. Journal of Food Chemistry 2007, 104, 1516–1521.
  • Skjöldebrand, C. Convection oven frying: Heat and mass transfer between air and product. Journal of Food Science 1980, 45, 1354–1362.
  • Bell, L.N.; Hageman, M.J. Differentiating between the water activity and glass transition dependent mobility on a solid state chemical reaction: Aspartame degradation. Journal of Agricultural Food Chemistry 1994, 42, 2398–2401.
  • Beristain, C.I.; Azuara, E.; Vernon-Carter, E.J. Effect of water activity on the stability to oxidation of spray-dried encapsulated orange peel oil using mesquite gum as wall material. Journal of Food Science 2002, 67, 206–211.
  • Onwulata, C.I.; Holainger, V.H. Thermal properties and moisture sorption isotherms of spray-dried encapsulated milk fat. Journal of Food Processing and Preservation 1995, 19, 33–51.
  • Jaya, S.; Das, H. Effect of maltodextrin, glycerol monostearate and tricalcium phosphate on vacuum dried mango powder properties. Journal of Food Engineering 2004, 63, 125–134.
  • Murray, S.S.; Schoeninger, M.J.; Bunn, H.T.; Pickering, T.R.; Marlett, J.A. Nutritional composition of some wild plant foods and honey used by hadza foragers of Tanzania. Journal of Food Composition and Analysis 2001, 14, 3–13.
  • Magaia, T.; Uamusse, A.; Sjoholm, I.; Skoog, K. Proximate analysis of wild fruits of Mozambique. The Scientific World Journal 2013a, 2013, 1–6.
  • Amarteifio, J.O.; Maosase, M.O. The chemical composition of selected indigenous fruits of Botswana. Journal of Applied Science and Environment Management 2006, 10, 43–47.
  • Saka, J.D.; Msonthi, K. Nutritional value of edible fruits of indigenous wild trees in Malawi. Forest Ecology and Management 1994, 64, 245–248.
  • Raice, R.T.; Sjoholm, I.; Wang, H.-L.; Bergenståhl, B. Identification of volatile components isolated from Vangueria infausta L. (African medlar) by using GC-MS. Journal of Essential Oil Research 2015, 27, 76–81.
  • Pino, J.; Marbot, R.; Vázquez, C. Volatile components of the fruits of Vangueria madagascariensis J.F. Gmel. from Cuba. Journal of Essential Oil Research 2004, 16, 302–304.
  • Styger, E.; Rakotoarimanana, J.E.M.; Rabevohitra, R.; Fernandes, E.C.M. Indigenous fruits trees of Madagascar: Potential components of Agroforestry systems to improve human nutrition and restore biological diversity. Agroforestry Systems 1999, 46, 289–310.
  • Chiau, E.; Francisco, J.C.; Bergenståhl, B.; Sjöholm, I. Softening of dried Vangueria infausta L. (African medlar) using maltodextrin and sucrose. African Journal of Food Science 2013, 7, 382–391.
  • Perera, O.C. Selected quality attributes of dried foods. Drying Technology 1995, 23(4), 717–730.
  • Hattab, M.E.; Culioli, G.; Piovetti, L.; Chitour, S.E.; Valls, R. Comparison of various extraction methods for identification and determination of volatile metabolites from the brown alga Dictyopteris membranacea. Journal of Chromatography 2007, 1143, 1–7.
  • Sides, A.; Robards, K.; Helliwell, S. Development in extraction techniques and their application to analysis of volatiles in foods. Trends in Analytical Chemistry 2000, 19(5), 322–329.
  • Braga, A.M.P.; Pedroso, M.P.; Augusto, F.; Silva, M.A. Volatiles identification in pineapple submitted to drying in an ethanolic atmosphere. Drying Technology 2009, 27, 248–257.
  • Guadagni, R.A.; Buttery, R.G.; Harris, J. Odor intensities of hop oil constituents. Journal of Science and Food Agriculture 1966, 17, 142–144.
  • Wright, J. Creating and formulating flavours. In Food Flavor Technology; Taylor, A.J. Linforth, R.S.T. Eds.; Wiley-Blackwell: Oxford, 2010; 1–50.
  • Raice, R.T.; Sjoholm, I.; Francisco; da Cruz, J.; Bergenstahl, B. Identification of volatile components isolated from indigenous fruits of Mozambique: Maphilwa (Vangueria infausta). Procedia Food Science 2011, 1, 404–407.
  • Qian, M.C.; Wang, Y. Seasonal variation of volatile composition and odor activity value of Marion (Rubus spp. Hyb) and Thornless evergreen (R. laciniatusL.) blackberries. Journal of Food Science 2005, 70, 1–8.
  • Peter, K.C.; Acree, T.E. Gas chromatography/olfactory analysis of lychi (Litchi chinesis Sonn.). Journal of Agricultural and Food Chemistry 1998, 46, 2282–2286.
  • Peter, K.C.; Acree, T.E.; Lavin, E.H. Characterization of volatiles in rambutan fruit (Nephelium lappaceum L.). Journal of Agricultural and Food Chemistry 1998, 46, 611–615.
  • Ferreira, V.; Lopez, R.; Escudero, A.; Cacho, J.F. The aroma of Grenache red wine: Hierarchy and nature of its main odorants. Journal of Science and Food Agricultural 1998, 77, 259–267.
  • Pino, J.P.; Marbot, R. Volatile flavor constituents of acerola (Malpighia emarginata DC.) fruit. Journal of Agricultural and Food Chemistry 2001, 49, 5880–5882.
  • Bonazzi, C.; Dumoulin, E. Quality changes in food materials as influenced by drying processes. In Modern Drying Technology: Product Quality and Formulation, Vol. 3; Tsotsas, E. Mujumdar, A.S. Eds.; John Wiley & Sons: Weinheim, Germany, 2011; 1–20.
  • Azeredo, H.M.C.; Brito, E.S.; Mpreira, G.E.G.; Farias, V.L.; Bruno, L.M. Effect of drying and storagetime on the physic-chemical properties of mango leathers. International Journal of Food Science and Technology 2006, 41, 635–638.
  • Jangam, S.V.; Joshi, V.S.; Mujumdar, A.S.; Thorat, B.N. Studies on dehydration of sapota (Achras zapota). Drying Technology 2008, 26, 369–377.
  • Magaia, T.; Uamusse, A.; Sjoholm, I.; Skoog, K. Dietary fiber, organic acids and minerals in selected wild edible fruits of Mozambique. SpringerPlus 2013b, 2, 88–96.
  • Kelly, F.H.C.; Brown, D.W. Phase equilibra in system sucrose-glucose-fructose. Journal of Applied Chemistry 1967, 17, 125–140.
  • Pancoast, H.M.; Junk, W.R. Handbook of Sugars, 2nd ed.; AVI Publishing Co.: Westport, CT, 1980.
  • Bubnik, Z.; Kadlec, P. Sucrose solubility. In Sucrose, Properties and Applications; Mathlouthi, M. Reiser Cedus, P. Eds.; Blackie: Glasgow, UK, 1995.
  • Reiser, P.; Birch, G.G.; Mathlouthi, M. Physical properties. In Sucrose, Properties and Applications; Mathlouthi, M. Reiser, P. Eds.; Blackie: Glasgow, UK, 1995.
  • Hempel, S.; Fisher, J.; Paschek, D.; Sadowski, D. Activity coefficients of complex molecules by molecular simulation and Gibbs Duhem integration. Soft Materials 2012, 10, 26–41.
  • Starzak, M.; Mathlouthi, M. Temperature dependence of water activity in aqueous solutions of sucrose. Food Chemistry 2006, 96, 346–70.
  • Miyawaki, O.; Saito, A.; Matsuo, T.; Nakamura, K. Activity and activity coefficient of water in aqueous solutions and their relationships with solution structure parameters. Bioscience Biotechnology and Biochemistry 1997, 61, 466–469.
  • Walstra, P. Physical Chemistry of Foods; Marcel Dekker: New York, 2003.

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