EFFECT OF SIZE ON FORCED CONVECTION GREENHOUSE DRYING OF KHOA
DOI:
https://doi.org/10.15282/jmes.7.2014.15.0113Keywords:
Khoa; khoa drying; convective mass transfer coefficient; greenhouse drying; forced convection.Abstract
Khoa, a heat desiccated milk product, forms an important base for preparation of milk sweets. In this communication, an attempt is made to evaluate the convective heat and mass transfer coefficients during forced convection greenhouse drying of different sizes of khoa samples. Experiments were conducted during the month of October 2012 at Guru Jambheshwar University of Science & Technology Hisar. Khoa pieces of different dimensions with a total quantity of 100 g were dried in a roof type even span greenhouse with a floor area of 1.2 × 0.8 m2 till almost no variation in its mass was recorded. Hourly data on the mass evaporated, temperature of khoa, relative humidity and temperature inside the greenhouse structure were recorded. These data were used to determine the values of convective heat transfer coefficients by regression analysis, and the convective mass transfer coefficients were consequently evaluated. The convective heat and mass transfer coefficients were observed to increase with the decrease in khoa sample size for the given size of greenhouse. The experimental error in terms of percent uncertainty was also evaluated, and observed to vary in the range of 14.99% to 23.24%.
References
Kumar M, Prakash O, Kasana, KS, Dabur RS. Technology advancement in khoa making. Indian Dairyman. 2010;62:64-70.
Kumar M. Up-gradation of Khoa Production and Preservation Technologies. SAMRIDDHI- A Journal of Physical Science Engineering and Technology. 2013;4:37-46.
Condorí M, Saravia L. The performance of forced convection greenhouse driers. Renewable Energy. 1998;13:453-69.
Condorı́ M, Echazú R, Saravia L. Solar drying of sweet pepper and garlic using the tunnel greenhouse drier. Renewable Energy. 2001;22:447-60.
Tiwari GN, Kumar S, Prakash O. Evaluation of convective mass transfer coefficient during drying of jaggery. Journal of Food Engineering. 2004;63:219- 27.
Kumar A, Tiwari GN. Effect of shape and size on convective mass transfer coefficient during greenhouse drying (GHD) of Jaggery. Journal of Food Engineering. 2006;73:121-34.
Kumar M, Khatak P, Sahdev RK, Prakash O. The effect of open sun and indoor forced convection on heat transfer coefficients for the drying of papad. Journal of Energy in Southern Africa. 2011;22:40-6.
Kumar M. Effect of size on the convective heat and mass transfer coefficients during natural convection greenhouse drying of khoa-heat desiccated milk product. International Journal of Renewable Energy & Biofuels 2014;2014:1-11.
Kumar M, Kasana KS, Kumar S, Prakash O. Experimental investigation on convective heat transfer coefficient for khoa drying. International Journal of Current Research. 2011;3:88-93.
