Experimental study of drying mushrooms (volvariella volvacea, pleurotus ostreatus, lentinula edodes, pleurotus eryngeii, agaricus bisporus, flammulina velutipes)

Authors

  • Trinh Van Dung Faculty of Chemical Engineering, Ho Chi Minh City University of Technology, Vietnam
  • Luong Thanh Danh Faculty of Chemical Engineering, Ho Chi Minh City University of Technology, Vietnam

Corressponding author's email:

trinhdung@hcmut.edu.vn

Keywords:

dynamic parameters of drying, drying mushroom, volvariella volvacea, pleurotus ostreatus, lentinula edodes, pleurotus eryngeii, agaricus bisporus, flammulina velutipes

Abstract

This paper presents the results of experimental study on drying popular edible mushrooms (volvariella volvacea, pleurotus ostreatus, lentinula edodes, pleurotus eryngeii, agaricus bisporus, flammulina velutipes). This study determines the dynamic parameters of drying by experiment corresponding to those mushrooms such as:

Critical moisture (Uth,%):3.14; 7.92; 9.0; 9.0; 5.94; 8.4;

Equilibrium moisture (U*, %): 0.05; 0.025; 0.70; 0.25; 0.25; 0.205;

Constant drying rate (No, g/g dry solid.min): 2.35; 7.98; 2.30; 4.11; 2.32; 13.23.

From those results, drying time (τ) is also given, bases on 2-period-drying model (constant-rate and falling-rate period):  . The difference between calculated τTT and experimental τTN drying time is approximately (1.0 ¸ 9.3)%. The results show that this model can be used to calculate the process and design dryer to preserve those mushrooms. In addition, the study also showed that if the ones are dried at 50°C, the drying time will be significantly shorten, especially, when drying at two temperatures: 50°C for the first two hours and 70°C for the rest.

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References

FAOSTAT, 2017

V. S. Grzhivo, “Nutritional value and chemical composition of canned food”, Moscow: Pishchepromizdat, p. 207, 1997.

A. S. Holmansky, A. Z. Tilov, and E.Yu. Sorokina, “Physico-chemical modeling of the process of drying vegetables and fruits”, Modern problems of science and education, Moscow, No 5, p. 8, 2012.

P. Diamantopoulou and A. Philippoussis, "Cultivated mushrooms: preservation and processing”, Handbook of vegetable preservation and processing. CRC press, p. 495-525, Florida, 2015.

H. M. Ghodake, T. K. Goswami, and A. Chakraverty, "Mathematical modeling of withering characteristics of tea leaves.", Drying Technology, vol. 24, no. 2, p. 159-164, 2006.

G. Xanthopoulos, G. Lambrinos, and H. Manolopoulou, “Evaluation of thin-layer models for mushroom (Agaricus bisporus) drying”, Drying Technology, vol. 25, no. 9, p. 1467–1477, 2007.

G. C. Wakchaure and et al, "Kinetics of thin layer drying of button mushroom.", Journal of Agricultural Engineering, vol. 47, no. 4, p. 41-46, 2010.

Trinh Van Dung, “Applied Informatics in Chemical Technology - Biology – Food”, VNU HCMC, 317 p., 2016.

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Published

30-07-2018

How to Cite

[1]
Trinh Van Dung and Luong Thanh Danh, “Experimental study of drying mushrooms (volvariella volvacea, pleurotus ostreatus, lentinula edodes, pleurotus eryngeii, agaricus bisporus, flammulina velutipes)”, JTE, vol. 13, no. 4, pp. 38–42, Jul. 2018.

Issue

Vol. 13 No. 4 (2018)

Section

Research Article

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