Abstract:
Open sun drying is the widely used passive method for black pepper drying, but due to its
limitations such as unavailability on rainy days, lack of controllability, degradation of food
quality, loss of volatile oil, and improper drying, the active dryers have become more popular
than the open sun drying method. Among these active dryers, tray dryers are extremely popular
in medium and small-scale black pepper processing industries because they are small in size,
simple in design and lower capital cost comparative to other dryers. It is extremely important
to identify the optimum drying temperature and the hot air velocity for black pepper drying
process on a convective tray dryer to minimize the total energy while improving the quality of
the black pepper. The drying properties of black pepper were examined in a convective thermal
tray dryer during this investigation. In house built experimental setup was used to understand
the variations of moisture ratio (MR) during the drying. The experiments were carried out in
different temperatures of 50 °C, 55 °C and 60 °C and, for three different air speeds of 0.4ms
,
0.8 ms
-1
and 1.2 ms
-1
. The observed experimental results were fitted with the existing drying
models. Model coefficients and constants were evaluated by using the MS Excel software. The
Logarithmic model was discovered as the best drying model to explore the black pepper drying
on a convective hot air tray dryer with an average RMSD (root mean square deviation) of
0.0140. The total amount of time required to decrease the moisture content (MC) to 12%
(minimum secure storage MC) in dry basis under various drying settings were computed using
the logarithmic model equation. The total drying energy required to dry 1 kg of raw black
pepper for different drying conditions was calculated and, a surface plot of total drying energy
against temperature and air speed was generated. Based on the contours of the surface plot, the
drying conditions which minimize the total drying energy were determined.
Citation:
Virantha, E.A.I. (2022). Experimental investigation on black pepper drying in a hot air cabinet dryer for optimized energy performance [Master's theses, University of Moratuwa]. Institutional Repository University of Moratuwa. http://dl.lib.uom.lk/handle/123/21357