Investigation of drying the porous wood of a cylindrical shape

Gayvas, B. I.; Dmytruk, Veronika

doi:10.23939/mmc2022.02.399

Cited by 2 publications

(1 citation statement)

References 12 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…In [5], the problem of determination of the coefficients of internal diffusion of moisture for capillary-porous materials of plant origin during filtration drying is solved based on integral transformations. The problem of mutual phase distribution in investigation of drying the capillary-porous solid of a cylindrical shape in [6] is solved using the principle of local phase equilibrium. The algorithm for numerical analysis of the mathematical model of coupled heat and mass transfer problems of drying material in pulsed drying mode is suggested in [7].…”

Section: Introductionmentioning

confidence: 99%

Numerical modeling of heat and mass transfer processes in a capillary-porous body during contact drying

Gayvas,

Markovych,

Dmytruk

et al. 2023

Math. Model. Comput.

Self Cite

View full text Add to dashboard Cite

The problem of conductive (contact) drying of a capillary-porous body in a steam-air (gas) environment by heat transfer to the material during its contact with the heated surfaces of the material is considered. A system of significantly nonlinear differential equations of heat and mass transfer to describe such a process is obtained. To solve the formulated problem of heat and mass transfer (without taking into account deformability), the method of solving nonlinear boundary value problems is applied in the form of an iterative process, at each step of which a linear boundary value problem is solved. The results of the application of the method are verified based on the popular numerical scheme used. They agree well. A numerical experiment is conducted for materials of three types of porosity. The results are presented graphically and tabularly. The regularities of contact drying of capillary-porous materials in a steam-air environment are deduced.

show abstract

Section: Introductionmentioning

confidence: 99%

Numerical modeling of heat and mass transfer processes in a capillary-porous body during contact drying

Gayvas,

Markovych,

Dmytruk

et al. 2023

Math. Model. Comput.

Self Cite

View full text Add to dashboard Cite

show abstract

Modeling mass transfer processes in multicomponent capillary-porous bodies under mixed boundary conditions

Dmytruk

2024

Math. Model. Comput.

View full text Add to dashboard Cite

In this study, we present a physicomathematical model for convective drying of a multicomponent body of the capillary-porous structure, considering moisture transfer dynamics at both macro and micro levels. Recognizing the impact of the material's local structure on drying processes, particularly in phase transformations, the model integrates the continuum-thermodynamic approach pioneered by Ya. Burak, Ye. Chaplya, and B. Gayvas. This approach addresses the interrelated mechanical, thermal, and diffusion processes occurring in heterogeneous, nonequilibrium systems, where local thermodynamic equilibrium assumptions allow equilibrium state descriptions by conjugate physical parameters. The unique dual-level approach captures moisture exchange between an individual grain and the grain bed, enabling realistic simulations of the drying process by directly accounting for phase transformations and material structure influences. The presented methodology allows simultaneous solving of mass transfer equations for the grain bed and individual grains, supported by numerical experimentation. The results reveal distinct moisture distribution patterns across the grain bed and within individual grains, with variations influenced by drying agent velocity. The novelty of this approach lies in its simultaneous treatment of grain-scale and bed-scale moisture transfer, providing a detailed perspective on moisture dynamics. This model has potential applications in optimizing industrial drying processes for capillary-porous materials, enhancing efficiency and cost-effectiveness.

show abstract

Investigation of drying the porous wood of a cylindrical shape

Cited by 2 publications

References 12 publications

Numerical modeling of heat and mass transfer processes in a capillary-porous body during contact drying

Numerical modeling of heat and mass transfer processes in a capillary-porous body during contact drying

Modeling mass transfer processes in multicomponent capillary-porous bodies under mixed boundary conditions

Contact Info

Product

Resources

About