Intermittent Hot Air, Dehumidified Air, Heat Pump and Convective Cum Vacuum Microwave Drying Characteristics and Models

  • Chung Lim Law Faculty of Chemical and Environmental Engineering, The University of Nottingham, Malaysia. Campus, Broga Road, 43500 Semenyih, Selangor Darul Ehsan, Malaysia.
  • Chien Wa Chong Faculty of Chemical and Environmental Engineering, The University of Nottingham, Malaysia. Campus, Broga Road, 43500 Semenyih, Selangor Darul Ehsan, Malaysia.
  • Adam Figiel Institute of Agricultural Engineering, Wroclaw University of Environmental and Life Sciences, Chelmonskiego 37/41 Street,Wroclaw 51-630, Poland
Keywords: heat pump, intermittent hot air dehumidified air, convective cum vacuum microwave, drying characteristics, effective diffusivity

Abstract

An intermittent hot air dehumidified air dryer, a heat pump dryer and a convective vacuum microwave dryer was designed and manufactured to dried fruits product. Fresh apple, pear, ciku, papaya and mango were chosen as raw materials. The decreased of moisture ratio with drying time were modeled using semi-empirical Page equation. This model gave excellent fit for all experimental data with coefficient of determination higher than 0.9882. In addition, drying characteristics of fruits dried using convective vacuum microwave (C/VM), cyclic temperature profile (CTP), step-up temperature profile (STP) and heat pump (HP) dryers can be obtained from the analysis of model parameters. Drying characteristics versus moisture content curve were used to verify the parameter asymptotic value. Drying characteristics exhibited by various fruit samples in this study were first falling rate periods, second falling rate periods, increasing rate periods, constant rate periods and initial transient periods depending on the application of processing and tempering. The application of convective cum vacuum microwave (C/VM) in drying of fruits gave the shortest drying time compared to other drying methods. The effective diffusivity value obtained by C/VM was between 7.08 x 10-8 to 4.30 x 10-6 m/min, which is relatively high compared to fruits dried using other drying methods (2.07x 10-8 to 5.93 x 10-8 m2/min). The results revealed that the drying time for fruits undergone C/VM drying were 50% shorter compared to samples undergone CTP, STP and HP drying. Total drying time needed was between 310 to 490 minutes for drying of selected fruits using C/VM dryer.

References

1. Chua, K.J., Mujumdar, A.S., Chou, S.K., Hawlader, M.N.A., & Ho, J.C. (2000). Convective drying of banana, guava and potato pieces: effects of cyclical variations of air temperature on convective drying kinetics and colour change. Drying Technology, 18, 907-936.
2. Kaensup, W., Chutima, S., & Wongwises, S. (2002). Experimental study on drying of chilli in a combined microwave-vacuum-rotary drum dryer. Drying Technology, 20, 2067–2079.
3. Pal, U.S., Khan, M.K., & Mohanty, S.N. (2008). Heat pump drying of green sweet pepper. Drying technology, 26, 1584-1590.
4. Sham, P.W.Y., Scaman C.H., & Durance, T.D. (2001). Texture of vacuum microwave dehydrated apple chips as affected by calcium pretreatment, vacuum level, and apple variety. Journal of Food Science, 66, 1341-1347.
Published
2010-12-31
How to Cite
Law, C. L., Chong, C. W., & Figiel, A. (2010). Intermittent Hot Air, Dehumidified Air, Heat Pump and Convective Cum Vacuum Microwave Drying Characteristics and Models. ASEAN Journal of Chemical Engineering, 10(2), 10-15. Retrieved from https://journal.ugm.ac.id/v3/AJChE/article/view/8066
Section
Articles