Vibro-Fluidized Bed Drying of Pumpkin Seeds: Assessment of Mathematical and Artificial Neural Network Models for Drying Kinetics

Dhurve, Priyanka; Tarafdar, Ayon; Arora, Vinkel Kumar

doi:10.1155/2021/7739732

Cited by 20 publications

(6 citation statements)

References 48 publications

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“…This is due to an increased heat transfer between the temperature and the samples, which accelerates the movement of water inside them. The findings were consistent with those of other studies (Dhurve et al, 2021; Nguyen et al, 2019; Sahoo et al, 2022; Tarafdar et al, 2021).…”

Section: Resultssupporting

confidence: 93%

Drying kinetics and thermodynamic properties of Uzun pistachios dried by convective drying

Öztekin

Aktaş

Dolgun

et al. 2022

Food Processing Preservation

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The purpose of this research was to determine the drying characteristics of Uzun variety pistachios in a convectional dryer with air velocity of 1 m/s at 50, 55, 60, and 65°C. Through the end of drying, moisture transfer from in‐hull, and in‐shell pistachio samples was defined by using the diffusion model of Fick. The Arrhenius‐type relationship was used to establish the temperature dependence of the effective moisture diffusivity. The activation energy of in‐hull and in‐shell pistachios was determined to be 56.04 and 34.18 kJ/mol, respectively. Five well‐known models, that is, the logarithmic, page, two‐term, Midilli et al., and approximation of diffusion models were fit to data of moisture ratio. The Midilli et al., and the two‐term models were chosen to accurately describe the hot‐air drying behavior of in‐hull and shell pistachio samples. As shelf‐life criteria, the water activity (aw) values of fresh and dried pistachios were determined at different ambient air temperatures. The enthalpy (ΔH) and entropy (ΔS) values of the pistachio samples decreased with increasing the air temperature, while Gibbs‐free energy (ΔG) increased as the air temperature increased. Novelty impact statement Pistachio kernel has rich nutritional significance for the human diet due to its 50%–60% fat content and unsaturated fatty acid and, the drying is the most important post‐harvest process in the pistachio industry. Pistachio kernels must be dried below aw of 0.82 and 0.70 for short‐ and long‐term storage and to avoid fungal development, respectively. This work evaluates the drying conditions and presents a mathematical model for hot‐air drying of pistachio nuts and, the results show that drying of pistachio can be carried out in industrial convective dryers.

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Section: Resultssupporting

confidence: 93%

Drying kinetics and thermodynamic properties of Uzun pistachios dried by convective drying

Öztekin

Aktaş

Dolgun

et al. 2022

Food Processing Preservation

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“…To achieve higher drying rate, a constant airflow velocity (4 m s −1 ) was maintained throughout the experiment. An airflow velocity greater than 4 m s −1 did not significantly affect the drying process and also demands more energy (Dhurve et al, 2021). The performance of the system was evaluated by digesting 10 kg FW with an initial moisture content of 79.15%.…”

Section: Methodsmentioning

confidence: 99%

Optimisation of process parameters of a thermal digester for the rapid conversion of food waste into value-added soil conditioner

Kumar

Gupta

Yadav³

2023

Waste Manag Res

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A novel thermal digester for converting food waste (FW) into nutrient-rich soil conditioner was designed and explored. The process variables, that is, temperature, the volume of the digestion chamber and the rotational speed of the digester were optimised using response surface methodology (RSM). The study revealed that the digester temperature of 150°C and rotational speed of 40 RPM required minimum time (180 minutes) for attaining the equilibrium moisture with a minimum energy consumption of 0.218 kWh kg−1. The process resulted in 80 ± 2.5% reduction in total volume of the FW. Detailed characterisation revealed that the end product was comparable to the organic fertiliser as per the Fertiliser Association of India norms. The digestion helps in breakdown of cellulose content of FW into hemicellulose which supports formation of primary and secondary walls, seed storage carbohydrates, and facilitates plant growth. 1H-Nuclear magnetic resonance (1H-NMR) spectra of the end product revealed mineralisation of organics during digestion. Decrease in ultraviolet (UV) absorbance value at 280 nm also revealed the humification of the end product. X-ray diffraction (XRD) analysis disclosed extremely low crystallinity and non-recalcitrant nature of the end product. A low humification index value (HI-3.43), high fertilising index (FI-4.8), and clean index (CI-5.0) revealed that the end product could safely be utilised as an organic fertiliser. The cost–benefit analysis revealed that thermal digestion technique is profitable and economically viable with benefit–cost ratio (BCR) of 1.35. The study offers a unique approach for the rapid and hassle-free production of value-added soil conditioner from FW.

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“…The mass transfer coefficient states the resistance offered to moisture transport from the food material to the drying medium and can be expressed as shown in Equations 17-19 (Dhurve et al, 2021):…”

Section: Biot Number and Convective Mass Transfer Coefficientmentioning

confidence: 99%

Drying kinetics and mass transfer parameters of mung beans dried using a convective dryer

SIQUEIRA,

CRIPPA,

MABASSO

et al. 2024

Food Sci. Technol (Campinas)

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Convective drying of mung bean seeds was conducted to investigate drying kinetics and mass transfer parameters at temperatures of 40, 50, 60, 70, and 80°C and a fixed air velocity of 1.2 m s-1. Drying characteristics were determined by drying rate, moisture ratio, diffusion coefficient, activation energy, Biot number, and mass transfer coefficient. Drying models such as Newton, Page, Henderson and Pabis, Logarithmic, Midilli, Two-term, and Diffusion approximation were applied and fitted to the moisture ratio of the experimental data. The drying rate was significantly affected by the drying temperature. The Midilli model was considered the most suitable for experimental drying curves. The effective moisture diffusivity ranged from 3.19×10-9 to 10.76×10-9 m2 s-1, with an activation energy of 59.78 kJ mol-1. Similar to the mass transfer coefficient, the Biot number increased with increasing drying temperature. The simultaneous transfer of heat and mass was controlled by diffusion and surface.

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Vibro-Fluidized Bed Drying of Pumpkin Seeds: Assessment of Mathematical and Artificial Neural Network Models for Drying Kinetics

Cited by 20 publications

References 48 publications

Drying kinetics and thermodynamic properties of Uzun pistachios dried by convective drying

Drying kinetics and thermodynamic properties of Uzun pistachios dried by convective drying

Optimisation of process parameters of a thermal digester for the rapid conversion of food waste into value-added soil conditioner

Drying kinetics and mass transfer parameters of mung beans dried using a convective dryer

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