Performance evaluation of a cabinet solar dryer for drying red pepper in Bangladesh

Hossain, Muhammad Zakaria; Alam, M. R.; Hossain, Faruq Bin; Sarker, Md. Sazzat Hossain; Awal, Abdul; Jahan, Nusrat

doi:10.4081/jae.2018.774

Cited by 15 publications

(7 citation statements)

References 11 publications

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“…The major problem with most of these dryers is their susceptibility to weather differences. Hybrid solar dryers work on solar energy from any of the standard sources such as fossil fuels, biomass, or electricity (Hossain et al, 2018;Nwakuba, Okafor, & Okorafor, 2020).…”

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confidence: 99%

Assessment of kinetics, effective moisture diffusivity, specific energy consumption, and percentage of thyme oil extracted in a hybrid solar‐electric dryer

Karami

Tahvilian

2020

J Food Process Engineering

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This research deals with the analysis process of thyme in a hybrid (solar‐electric) dryer. The drying process was administered using three air velocities of 1, 1.5, and 2 m/s and four temperatures of 40, 50, 60, 70°C. The drying rate developed with the increase in temperature and air velocity, therefore decreased the drying time. Ten mathematical models were applied to predict the drying kinetics of thyme. Consequently, the best model to describe the drying kinetics of thyme was Midilli model. The values activation energy and effective moisture diffusivity were ranged between 10.9 to 16.33 kJ/mol and 2.172 × 10–10 to 1.23 × 10–10 m2/s, respectively. The oil yield was significantly affected by drying situations. The essential oil of the leaves was determined by hydrodistillation. So, the highest essential oil amount equal to 2.4 CC (vol/wt) was obtained at temperature of 40°C and air velocity of 1.5 m/s.Practical ApplicationsDrying is the most significant process to maintain agricultural crops. The purpose of drying crops is the decrease of the moisture content to a level that provides secure storage over an extended term, and significant influence on the quality of dried crops. In this research, drying kinetics of Thyme at different air velocity and air temperatures in hybrid dryer were studied. Moreover, simplistic models for the simulation of the drying process were offered. Consequently, the aim of this work was to Introducing a new hybrid dryer for herbal plants, to decrease volatile loss or degradation of essential oil extracted from Thyme. It is application in medicinal plants post‐harvest technology.

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Assessment of kinetics, effective moisture diffusivity, specific energy consumption, and percentage of thyme oil extracted in a hybrid solar‐electric dryer

Karami

Tahvilian

2020

J Food Process Engineering

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“…The solar irradiation or sun constant of the project site was determined. Solar irradiation is the preatmosphere energy in direction of the radiation coming from the sun, perpendicular to the unit area at unit time (Hossain et al, 2018). According to Khan, Asif, & Stach (2017) solar irradiance is the power per unit area received from the Sun in the form of electromagnetic radiation as measured in the wavelength range of the measuring instrument.…”

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confidence: 99%

Accelerating and Mitigating Postharvest Losses in Nigeria Through an Automated Hydrid Dryer

2021

ISDE

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“…Solar dryer gives room for flexibility in the choice of the material and design based on the size of the enterprise and users' income level. Various designs can range from a simple solar cabinet dryer to indirect solar dryers and hybrids solar dryers equipped with supplementary assisted heat sources, such as thermal storage material, electricity, biomass heater, etc., to continue the drying process during the night or when the weather is not clement [18][19][20][21][22][23][24]. Additionally, Ndukwu et al [25] and Bennamoun [26] have reviewed different solar dryer designs across the African continent and concluded that different designs are now available in Africa for both direct and indirect drying chamber designs.…”

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confidence: 99%

Numerical Study of the Drying of Cassava Roots Chips Using an Indirect Solar Dryer in Natural Convection

et al. 2021

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In this work, an indirect solar dryer for drying cassava root chips was modelled and experimentally validated using the environmental conditions of Yaoundé in Cameroon and Yamoussoukro in Ivory Coast. The dryers were operational in natural convection mode. Resolution of the equations was achieved by finite differences and the 4th order of Runge–Kutta methods. A model was proposed for performing heat and mass transfer using thermophysical properties of cassava roots, and the obtained results were satisfactory for all conditions, with moisture content difference of less than 0.2 kg/kg between the experimental and theoretical results. The model showed that the core of the product takes more time to dry, which always prolongs the drying duration. The heat and mass transfer coefficients vary during the entire process of solar drying. The drying kinetics vary during the drying with values lower than 1.2 × 10−4 kg/(kg.s). The great gradients of humidity were observed in the thickness of the sample with a regular distribution of the temperature each drying time in the thickness of the sample.

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Performance evaluation of a cabinet solar dryer for drying red pepper in Bangladesh

Cited by 15 publications

References 11 publications

Assessment of kinetics, effective moisture diffusivity, specific energy consumption, and percentage of thyme oil extracted in a hybrid solar‐electric dryer

Assessment of kinetics, effective moisture diffusivity, specific energy consumption, and percentage of thyme oil extracted in a hybrid solar‐electric dryer

Accelerating and Mitigating Postharvest Losses in Nigeria Through an Automated Hydrid Dryer

Numerical Study of the Drying of Cassava Roots Chips Using an Indirect Solar Dryer in Natural Convection

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