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Drying Technology
An International Journal
Volume 33, 2015 - Issue 13: Selected Papers from the 19th International Drying Symposium (IDS 2014), Part 1
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Original Articles

Non-Isothermal Drying of Medicinal Plants

A. MartynenkoDepartment of Engineering, Dalhousie University, Truro, CanadaCorrespondence[email protected]
&
T. KudraDepartment of Engineering, Dalhousie University, Truro, Canada
Pages 1550-1559 | Published online: 31 Aug 2015

REFERENCES

  • Heeger, E.F. Handbuch des Arznei- and Gewurzpflanzenbaues; Verlag Harri Deutsch: Frankfurt, Germany, 1989.
  • Mujumdar, A.S. Ed. Handbook of Industrial Drying, 4th ed; CRC Press: Boca Raton, FL, 2014.
  • Chen, X.D.; Mujumdar, A.S. Drying Technologies in Food Processing; Blackwell Publishing: Oxford, UK, 2008.
  • Nsonzi, F.F.; Ramaswamy, H.S. Quality evaluation of osmo-convective dried blueberries. Drying Technology 1998, 16(3/5), 705–723.
  • Kudra, T.; Strumillo, C. Thermal Processing of Biomaterials; Gordon and Breach: Amsterdam, 1998.
  • Oliveira, F.A.R.; Oliveira, J.C. Processing Foods: Quality Optimization and Process Assessment; CRC Press: Boca Raton, FL, 1999.
  • Gunasekaran, S. Nondestructive Food Evaluation: Techniques to Analyze Properties and Quality; Marcel Dekker: New York, 2000.
  • Mujumdar, A.S. Research and development in drying: recent trends and future prospects. Drying Technology 2004, 22(1–2), 1–26.
  • Raghavan, G.V.S.; Rennie, T.J.; Sunjka, P.S.; Orsat, V.; Phaphuangwittayakul, W.; Terdtoon, P. Overview of new techniques for drying biological materials with emphasis on energy aspects. Brazilian Journal of Chemical Engineering 2005, 22(2), 195–201.
  • Duan, X.; Zhang, M.; Mujumdar, A.S. Study on a combination drying technique of sea cucumber. Drying Technology 2007, 25(12), 2011–2019.
  • Donsi, G.; Ferrari, G.; Nifro, R.; Di Matteo, P. Combination of mild dehydration and freeze drying processes to obtain high quality dried vegetables and fruits. Food and Bioproducts Processing 1998, 76(4), 181–187.
  • Xu, Y.; Zhang, M.; Mujumdar, A.S.; Zhou, L.; Sun, J. Studies on hot air and microwave vacuum drying of wild cabbage. Drying Technology 2004, 22(9), 2201–2209.
  • Luikov, A.V. Theory of Energy and Mass Transfer; Prentice-Hall Inc.: Englewood Cliffs, NJ, 1961.
  • Chua, K.J.; Mujumdar, A.S.; Chou, S.K. Intermittent drying of bioproducts—an overview. Bioresource Technology 2003, 90(3), 285–295.
  • Kumar, C.; Karim, M.A.; Joadder, M.U.H. Intermittent drying of food products: A critical review. Journal of Food Engineering 2014, 121, 48–57.
  • 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. Journal of Food Engineering 2010, 97(1), 8–16.
  • Aquerreta, J.; Iguaz, A.; Arroqui, C.; Visceda, P. Effect of high temperature intermittent drying and tempering on rough rice quality. Journal of Food Engineering 2007, 80(2), 611–618.
  • Langrish, T.A.G. Comparing continuous and cyclic drying schedules for processing hardwood timber: The importance of mechanosorptive strain. Drying Technology 2013, 31(10), 1091–1098.
  • Kowalski, S.J.; Pawlowski, A. Intermittent drying: energy expenditure and product quality. Chemical Engineering Technology 2011, 34(7), 1123–1129.
  • Chiang, A.C. Elements of Dynamic Optimization; McGraw-Hill: New York, 1992.
  • Lee, M.H.; Han, C.; Chang, K.S. Dynamic optimization of a continuous polymer reactor using a modified differential evolution algorithm. Industrial and Engineering Chemistry Research 1999, 38(12), 4825–4831.
  • Douglas, P.L.; Jones, J.A.T.; Mallick, S.K. Modeling and simulation of crossflow grain dryers. Part III. Optimization. Transactions Institution of Chemical Engineers 1994, 72, 341–349.
  • Boxtel, A.J.B.; Knol, L. A preliminary study on strategies for optimal fluid-bed drying. Drying Technology 1996, 14(3–4), 481–500.
  • Kiranoudis, C.T.; Markatos, N.C. Pareto design of conveyor-belt dryers. Journal of Food Engineering 2000, 46, 145–155.
  • Olmos, A.; Trelea, I.C.; Courtois, F.; Bonazzi, C.; Trystram, G. Dynamic optimal control of batch rice drying process. Drying Technology 2002, 20(7), 1319–1345.
  • Martynenko, A.I., Yang, S.X. Intelligent control system for thermal processing of biomaterials. In IEEE Conference on Networking, Sensing & Control; IEEE: Piscataway, NJ, 2007; 93–98.
  • Jin, X.; van der Sman, R.G.M.; van Straten, G.; Boom, R.M.; van Boxtel, A.J.B. Energy efficient drying strategies to retain nutritional components in broccoli (Brassica oleracea var. italica). Journal of Food Engineering 2014, 123, 172–178.
  • Kudra, T. Energy aspects in drying. Drying Technology 2004, 22(5), 917–932.
  • Qaas, F.; Schiele, E. Einfluss der energiekosten auf die rentabilitat im trocknungsbetrieb. Zeitschrift fur Arznei- and Gewurzpflanzen 2001, 6(3), 144–145.
  • Martynenko, A.; Yang, S.; Pan, L. Intelligent computation of moisture content in shrinkable biomaterials. Drying Technology 2007, 25(10), 1114–1123.
  • Martynenko, A. Computer Vision System for Ginseng Drying: Remote Sensing, Control and Optimization of Quality in Food Thermal Processing; VDM Verlag: Saarbrücken, Germany, 2008.
  • Chen, Y.; Martynenko, A. Computer vision for real-time measurements of shrinkage and color changes in blueberry convective drying. Drying Technology 2013, 31(10), 1114–1123.
  • Trelea, I.C.; Trystram, G.; Courtois, F. Optimal constrained nonlinear control of batch processes: Application to corn drying. Journal of Food Engineering 1997, 31(4), 403–421.
  • Djeridane, A.; Yousfi, M.; Nadjemi, B.; Boutassouna, D.; Stocker, P.; Vidal, N. Antioxidant activity of some Algerian medicinal plants extracts containing phenolic compounds. Food Chemistry 2006, 97(4), 654–660.
  • Zheljazkov, V.D.; Astatkie, T.; Jeliazkova, E. Drying and shade effects on spearmint oil yields and composition. HortScience 2014, 49(3), 306–310.
  • Labuza, T.P.; McNally, L.; Gallaher, D.; Hawkes, J.; Hurtado, F. Stability of intermediate moisture foods. 1. Lipids oxidation. Journal of Food Science 1972, 37(1), 154–159.
  • Xiao, H.W.; Law, C.L.; Sun, D.W.; Gao, Z.J. Color change kinetics of American ginseng (Panax quinquefolium) slices during air impingement drying. Drying Technology 2014, 32(4), 418–427.
  • Campeau, C.; Proctor, J.T.A.; Jackson, C.C.; Rupasinghe, H.P.V. Rust-spotted North American ginseng roots: Phenolic, antioxidant, ginsenoside and mineral nutrient content. HortScience 2003, 38(2), 179–182.
  • Bernard, M.A. Demystifying suberin. Canadian Journal of Botany 2002, 80, 227–240.
  • Zhang, Q.; Yang, S.; Mittal, G.; Yi, S. Prediction of performance indices and optimal parameters of rough rice drying using neural networks. Biosystems Engineering 2002, 83(3), 281–290.
  • Trelea, I.C.; Trystram, G.; Courtois, F. Dynamic models for drying and wet-milling quality degradation of corn using neural networks. Drying Technology 1997, 15(3–4), 1095–1102.
  • Martynenko, A.; Yang, S. Biologically inspired neural computation for ginseng drying rate. Biosystems Engineering 2006, 95(3), 385–396.
  • Benaouda, N.E.; Bannamoun, L.; Khellaf, A. Empirical and artificial neural network approach for determination of constant drying rate phase of medicinal and aromatic plants. International Journal of Energy Engineering 2014, 4(2A), 1–7.
  • Davidson, V.J.; Brown, R.B.; Landman, J.J. Fuzzy control system for peanut roasting. Journal of Food Engineering 1999, 41(3–4), 141–146.
  • Perrot, N.; Trystram, G.; Guely, F.; Chevrie, F.; Schoesetters, N.; Dugre, E. Feedback quality control in the baking industry using fuzzy sets. Journal of Food Process Engineering 2000, 23, 249–279.
  • Curvelo Santana, J.C.; Araujo, S.A.; Librantz, A.F.N.; Tambourgi, E.B. Optimization of corn malt drying by use of a genetic algorithm. Drying Technology 2010, 28(11), 1236–1244.
  • Davies, E.R. Image Processing for the Food Industry; River Edge: Singapore; World Scientific: New York, 2000.
  • Kulkarni, A.D. Computer Vision and Fuzzy-Neural Systems; Prentice-Hall: New York, 2001.
  • Martynenko, A. Computer vision system for control of drying process. Drying Technology 2006, 24, 879–888.
  • Yang, W.; Winter, P.; Sokhansanj, S.; Wood, H.; Crerer, B. Discrimination of hard-to-pop kernels by machine vision and neural networks. Biosystems Engineering 2005, 91(1), 1–8.
  • Du, C.J.; Sun, D.W. Learning techniques used in computer vision for food quality evaluation: A review. Journal of Food Engineering 2006, 72(1), 39–55.
  • Hussain, M.A.; Shafiur Rahman, M.; Ng, C.W. Prediction of pores formation (porosity) in foods during drying: Generic models by the use of hybrid neural network. Journal of Food Engineering 2002, 51(3), 239–248.
  • Fernandez, L.; Castillero, C.; Aguillera, J.M. An application of image analysis to dehydration of apple discs. Journal of Food Engineering 2005, 67(1–2), 185–193.
  • Van Dalfsen, B. Ginseng Dryer Operation. Farm Mechanization Factsheet. British Columbia Ministry of Agriculture, Abbotsford, Canada, June 1998.
  • Martynenko, A.; Brown, R.B.; Davidson, V.J. Physical and physiological factors of ginseng drying. Applied Engineering in Agriculture 2006, 22(4), 571–576.
  • 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 Science & Technology 2008, 41(10), 1962–1972.
  • Grabowski, S.; Marcotte, M.; Quan, D.; Taherian, A.R.; Zareifard, M.R.; Poirier, M.; Kudra, T. Kinetics and quality aspects of Canadian blueberries and cranberries dried by osmo-convective method. Drying Technology 2007, 25, 367–374.
  • Ramesh, M.N.; Wolf, W.; Jung, D.T.G. Influence of processing parameters on the drying of spice paprika. Journal of Food Engineering 2001, 49, 63–72.
  • El-Gindy, M.M.; Rauof, M.S.; El-Manawaty, H.H. A study on the effect of processing temperature and time on the colour loss of anthocyanin pigments in grapes. Agricultural Research Review 1972, 50(4), 281–290.
  • Rodriguez-Ramirez, J.; Mendez-Lagunas, L.; Lopez-Ortiz, A.; Sandoval Torres, S. True density and apparent density during the drying process for vegetables and fruits: A review. Journal of Food Science 2012, 77(12), R145–R154.

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