Drying of Almonds II: Multiple Particles

Abstract: Computational modeling is an efficient and effective tool for modeling of drying process for food products. Developing validated computational models for drying processes is essential to build energy efficient drying units, producing uniform quality of dried products. This work presents drying behavior of almonds with a specific focus on understanding interaction among multiple almonds. Eight (2x2x2) particles, and twenty-seven (3x3x3) particles arranged in the shape of a cuboid were used to conduct drying exp… Show more

“…It is therefore essential to develop fully coupled model equations for flow, temperature, moisture variation and solids temperature representing processes occurring in a tray dryer which need to be solved simultaneously. Based on our earlier work for single and multiple particles (Chilka and Ranade [9,10] ), it showed that temperature equilibrium within the almond particle was achieved quickly. The Biot number for heat transfer and mass transfer for almonds is 0.17 and 2.1, respectively.…”

“…The higher the Lewis number, the faster the mass transfer as compared to heat transfer will be. is the correction factor applied to the heat transfer coefficient h p , with the value obtained from the single and multiple particle study (Chilka and Ranade). D is the effective diffusivity estimated using Equation , and k is the almond thermal conductivity.…”

“…To capture the corresponding varying drying characteristics, estimation of temperature dependent variables is essential. Experiments and modelling of a single almond kernel, as described in Chilka and Ranade, [9,10] was used to estimate the effective diffusivity at different temperatures. Using the drying data at different temperatures, effective diffusivity as a function of temperature expressed using the Arrhenius law was obtained.…”

“…Transport properties that are crucial for drying characteristics are heat and mass transfer coefficients. The experiments and modelling of multiple particles by Chilka and Ranade [10] were used to determine the average heat transfer coefficient values for an almond kernel, which were extended for modelling of bulk drying characteristics.…”

“…Almonds are the food product considered in this study. In our earlier work (Chilka and Ranade [9,10] ), a detailed analysis for drying of single and multiple almond particles was carried out. Drying behaviour of a single almond particle, eight, and twentyseven almond particles arranged in 2 Â 2 Â 2 and 3 Â 3 Â 3 configurations were studied.…”

CFD modelling of almond drying in a tray dryer

“…It is therefore essential to develop fully coupled model equations for flow, temperature, moisture variation and solids temperature representing processes occurring in a tray dryer which need to be solved simultaneously. Based on our earlier work for single and multiple particles (Chilka and Ranade [9,10] ), it showed that temperature equilibrium within the almond particle was achieved quickly. The Biot number for heat transfer and mass transfer for almonds is 0.17 and 2.1, respectively.…”

“…The higher the Lewis number, the faster the mass transfer as compared to heat transfer will be. is the correction factor applied to the heat transfer coefficient h p , with the value obtained from the single and multiple particle study (Chilka and Ranade). D is the effective diffusivity estimated using Equation , and k is the almond thermal conductivity.…”

“…To capture the corresponding varying drying characteristics, estimation of temperature dependent variables is essential. Experiments and modelling of a single almond kernel, as described in Chilka and Ranade, [9,10] was used to estimate the effective diffusivity at different temperatures. Using the drying data at different temperatures, effective diffusivity as a function of temperature expressed using the Arrhenius law was obtained.…”

“…Transport properties that are crucial for drying characteristics are heat and mass transfer coefficients. The experiments and modelling of multiple particles by Chilka and Ranade [10] were used to determine the average heat transfer coefficient values for an almond kernel, which were extended for modelling of bulk drying characteristics.…”

“…Almonds are the food product considered in this study. In our earlier work (Chilka and Ranade [9,10] ), a detailed analysis for drying of single and multiple almond particles was carried out. Drying behaviour of a single almond particle, eight, and twentyseven almond particles arranged in 2 Â 2 Â 2 and 3 Â 3 Â 3 configurations were studied.…”

CFD modelling of almond drying in a tray dryer

Flows with Phase Change

Computational modelling for decarbonised drying of agricultural products: Sustainable processes, energy efficiency, and quality improvement