A conjugate fluid-porous approach to convective heat and mass transfer with application to produce drying

Khan, Furqan Ahmad; Straatman, Anthony G.

doi:10.1016/j.jfoodeng.2016.01.029

Cited by 33 publications

(24 citation statements)

References 41 publications

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“…There were a lot of numerical solutions developed by researchers on convective drying of food and other materials. The models have been developed for 1‐D Cartesian, 10,53,58,70 1‐D spherical, 66 2D, 11 and 3D 52 geometries. Few works used a CFD model for estimating the surface transfer coefficients and few of the works 25 based on experimental correlations.…”

Section: Mathematical Models Developedmentioning

confidence: 99%

“…A 3‐D model was developed for convective drying of apple by Khan and Straatman 52 . Heat and moisture transports were considered for solid pores, water, and water vapor inside the food product, therefore, it is a multiphase model.…”

Section: Mathematical Models Developedmentioning

confidence: 99%

“…This is also an assumption to solve the problem with simple manner, it may not predict the realistic picture. Few investigations have been reported in 3‐D formulations, 52 that too using simple models. On the other hand, adding further parameters and further dependence of other parameters increase the complexity of mathematical model, therefore, more lines of computer programs, more computational time, and requirement of a very good computing facility are necessary.…”

Section: Mathematical Models Developedmentioning

confidence: 99%

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Convective drying of food materials: An overview with fundamental aspect, recent developments, and summary

Chandramohan

2020

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Convective drying is an ancient technique to dry moist materials. Many experimental and numerical studies on convective drying enriched the knowledge of researchers and industrialists for further research and developments. In this study, a thorough review is made on convective drying of food materials. A brief history of convective drying, its importance, methods, applications, and statistical data are clearly reviewed. The impact of important drying parameters such as shrinkage and influence of pretreatment during convective drying have been critically appraised. Instruments used, experimental setup developed, and properties measured and estimated have been listed and analyzed. A novel technology of taking snapshots during drying using the thermal camera is discussed. Different mathematical models such as analytical and numerical methods and its present challenges are extensively reviewed and discussed. An advanced level solution for convective drying at present is explained. Gaps in numerical methods to solve convective drying problems have been discussed and effective summaries are drawn. K E Y W O R D S analytical and numerical model, computational fluid dynamics, convective drying, effect of pretreatment, shrinkage, thermal imaging 1282 | VP How to cite this article: VP C. Convective drying of food materials: An overview with fundamental aspect, recent developments, and summary.

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Section: Mathematical Models Developedmentioning

confidence: 99%

Section: Mathematical Models Developedmentioning

confidence: 99%

Section: Mathematical Models Developedmentioning

confidence: 99%

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Convective drying of food materials: An overview with fundamental aspect, recent developments, and summary

Chandramohan

2020

Heat Trans

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“…al [7] , for drying of deep-bed paddy drying process using CFD simulations. Conjugate heat and mass transfer for drying has been studied using CFD simulations by Khan and Straatman [8] .…”

Section: Introductionmentioning

confidence: 99%

Drying of Almonds II: Multiple Particles

Chilka

Ranade

2017

Indian Chemical Engineer

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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 experiments in a Mettler Toledeo Moisture Analyzer unit. Experiments were conducted to measure the moisture loss data with respect to drying time using Almond kernels. Experimental data was used to understanding drying kinetics as well as variation in moisture content with respect to their positions in a cuboid. Computational fluid dynamics (CFD) based simulations were carried out for the flow, heat transfer and drying of particles in the unit. Actual geometry of individual particles were considered in simulations, to predict the variation in velocity, heat and mass transfer coefficients for all the particles. Simulations predicted moisture loss data that matches well with the experimentally measured values. Average moisture for each layer was also compared for various intermediate drying times. Simulation results captured the overall drying process for multiple particles system adequately.The results are compared with the results obtained with drying of a single almond. The approach, models and presented results will be useful for designing large scale drying units for almonds.

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“…And other important properties such as mass diffusivity Louise E, et al [6] approximate the form of the biomass to geometry such as cylinders, spheres and hemispheres Torrez Irigoyen et al [7], thus obtaining linear and exponential models with high adjustment. Moreover, computational modeling has been a method used to study the behavior as a validation of the experimental characterization of the processes, which is why researchers such as A. Erriguible et al [8][9][10][11] did a simulation through the CFD tool to model water evaporation in porous media using the convective mechanism and developing the Navier-Stokes equations, obtaining the behaviors of pressure, temperature, mass flow and heat when using the drying models by convection in porous media.…”

mentioning

confidence: 99%

Obtaining fruit-drying curves and CFD analysis for corozo (Bactris guineensis)

Villegas¹,

Cruz²,

Altamar³

et al. 2017

ces

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The drying process for "corozo" (Bactris guineensis) is performed in order to establish the values for variables such as temperature and time, while producing adequate dehydration of this type of fruit. Two temperatures values were used, 50°C and 70°C, and a gravimetric procedure was used, with a mass baseline of 100 g, with ripe fruit. The time interval used for data collection was 5 minutes. Tests were also performed to determine the water mass diffusivity inside the fruit considering the same temperature range of the main experiment. A computational validation was also done for the drying process through a computational fluid dynamics (CFD) analysis from the physical properties of the established biomass together with the process conditions, using the mass and energy conservation models and continuity in porous media. A very similar performance was obtained between experimental tests and computational simulation, reduction of the drying time by 40% for a temperature of 70 °C when compared to 50 °C.

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A conjugate fluid-porous approach to convective heat and mass transfer with application to produce drying

Cited by 33 publications

References 41 publications

Convective drying of food materials: An overview with fundamental aspect, recent developments, and summary

Convective drying of food materials: An overview with fundamental aspect, recent developments, and summary

Drying of Almonds II: Multiple Particles

Obtaining fruit-drying curves and CFD analysis for corozo (Bactris guineensis)

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