DRYING PROCESSES: APPROACHES TO IMPROVE EFFICIENCY

This monograph explores the mathematical modeling of heat and moisture transfer processes in the drying of capillary-porous materials. It presents advanced models that account for the dynamics of moisture evaporation, convective and conductive drying, and the influence of external factors such as ai...

Mô tả đầy đủ

Đã lưu trong:
Chi tiết về thư mục
Những tác giả chính: Gayvas, Bogdana, Dmytruk, Veronika, Markovych, Bogdan, Dmytruk, Anatolii, Chaplya, Yevhen
Định dạng: Online
Ngôn ngữ:Tiếng Anh
Được phát hành: PC TECHNOLOGY CENTER 2025
Những chủ đề:
Truy cập trực tuyến:https://directory.doabooks.org/handle/20.500.12854/159076.2
Các nhãn: Thêm thẻ
Không có thẻ, Là người đầu tiên thẻ bản ghi này!
_version_ 1869521914132692992
author Gayvas, Bogdana
Dmytruk, Veronika
Markovych, Bogdan
Dmytruk, Anatolii
Chaplya, Yevhen
author_browse Chaplya, Yevhen
Dmytruk, Anatolii
Dmytruk, Veronika
Gayvas, Bogdana
Markovych, Bogdan
author_facet Gayvas, Bogdana
Dmytruk, Veronika
Markovych, Bogdan
Dmytruk, Anatolii
Chaplya, Yevhen
author_sort Gayvas, Bogdana
collection Directory of Open Access Books
description This monograph explores the mathematical modeling of heat and moisture transfer processes in the drying of capillary-porous materials. It presents advanced models that account for the dynamics of moisture evaporation, convective and conductive drying, and the influence of external factors such as airflow, temperature gradients, and electric fields. Special attention is given to thermodynamic principles, diffusion mechanisms, and mechanical stresses that arise during drying, providing a comprehensive framework for understanding and optimizing drying technologies. A significant portion of the monograph is devoted to the development of nonstationary and quasi-stationary mathematical models that describe the behavior of moisture and temperature fields over time. These models incorporate the effects of phase transitions, electroosmotic forces, and capillary interactions, allowing for a detailed analysis of drying kinetics under various conditions. Numerical simulations and experimental validation are employed to assess the accuracy and applicability of the proposed approaches, offering valuable insights for both theoretical research and industrial implementation. The monograph also addresses the structural characteristics and mechanical properties of drying materials, highlighting the role of material deformation, shrinkage, and potential stress accumulation that may lead to cracking. Empirical criteria such as the Kirpichov, Nusselt, and Postnov numbers are examined as key parameters for evaluating drying efficiency and ensuring material integrity. Additionally, optimization strategies for industrial drying processes are discussed, incorporating mathematical and experimental methodologies to enhance energy efficiency and product quality. By bridging the gap between fundamental research and industrial applications, this work provides engineers, researchers, and professionals in material science and heat transfer with a solid foundation for improving and innovating drying processes. The insights presented in this book contribute to the development of more efficient, sustainable, and cost-effective drying technologies, fostering advancements in industries such as wood processing, food production, pharmaceuticals, and materials engineering.
format Online
id doab-20.500.12854ir-159076.2
institution Directory of Open Access Books
language eng
publishDate 2025
publishDateRange 2025
publishDateSort 2025
publisher PC TECHNOLOGY CENTER
publisherStr PC TECHNOLOGY CENTER
record_format ojs
spelling doab-20.500.12854ir-159076.22025-08-29T08:54:50Z DRYING PROCESSES: APPROACHES TO IMPROVE EFFICIENCY Gayvas, Bogdana Dmytruk, Veronika Markovych, Bogdan Dmytruk, Anatolii Chaplya, Yevhen Dmytruk, Veronika Gayvas, Bogdana Mathematical modeling drying electroosmotic drying unilateral drying bilateral drying isothermal drying drying kinetics convection diffusion heat and mass transfer capillary-porous material capillary effects continuum thermodynamics moisture moisture transport multi-component system phase phase transition structural model ponderomotive force sustainable technology dispersed materials gas-suspended state fluidization stress optimization deformation anisotropy numerical methods thema EDItEUR::P Mathematics and Science This monograph explores the mathematical modeling of heat and moisture transfer processes in the drying of capillary-porous materials. It presents advanced models that account for the dynamics of moisture evaporation, convective and conductive drying, and the influence of external factors such as airflow, temperature gradients, and electric fields. Special attention is given to thermodynamic principles, diffusion mechanisms, and mechanical stresses that arise during drying, providing a comprehensive framework for understanding and optimizing drying technologies. A significant portion of the monograph is devoted to the development of nonstationary and quasi-stationary mathematical models that describe the behavior of moisture and temperature fields over time. These models incorporate the effects of phase transitions, electroosmotic forces, and capillary interactions, allowing for a detailed analysis of drying kinetics under various conditions. Numerical simulations and experimental validation are employed to assess the accuracy and applicability of the proposed approaches, offering valuable insights for both theoretical research and industrial implementation. The monograph also addresses the structural characteristics and mechanical properties of drying materials, highlighting the role of material deformation, shrinkage, and potential stress accumulation that may lead to cracking. Empirical criteria such as the Kirpichov, Nusselt, and Postnov numbers are examined as key parameters for evaluating drying efficiency and ensuring material integrity. Additionally, optimization strategies for industrial drying processes are discussed, incorporating mathematical and experimental methodologies to enhance energy efficiency and product quality. By bridging the gap between fundamental research and industrial applications, this work provides engineers, researchers, and professionals in material science and heat transfer with a solid foundation for improving and innovating drying processes. The insights presented in this book contribute to the development of more efficient, sustainable, and cost-effective drying technologies, fostering advancements in industries such as wood processing, food production, pharmaceuticals, and materials engineering. Published 2025-08-29T08:54:48Z 2025-05-05T13:43:39Z 2025-08-29T08:54:48Z 2025-03-31 book 978-617-8360-09-2 https://directory.doabooks.org/handle/20.500.12854/159076.2 eng image/jpeg Attribution-NonCommercial-NoDerivatives 4.0 International https://monograph.com.ua/catalog/book/978-617-8360-09-2 PC TECHNOLOGY CENTER 10.15587/978-617-8360-09-2 10.15587/978-617-8360-09-2 105e2329-8f11-44ef-beca-adf5b71eb8f4 978-617-8360-09-2 198 Kharkiv. Ukraine open access
spellingShingle Mathematical modeling
drying
electroosmotic drying
unilateral drying
bilateral drying
isothermal drying
drying kinetics
convection
diffusion
heat and mass transfer
capillary-porous material
capillary effects
continuum thermodynamics
moisture
moisture transport
multi-component system
phase
phase transition
structural model
ponderomotive force
sustainable technology
dispersed materials
gas-suspended state
fluidization
stress
optimization
deformation
anisotropy
numerical methods
thema EDItEUR::P Mathematics and Science
Gayvas, Bogdana
Dmytruk, Veronika
Markovych, Bogdan
Dmytruk, Anatolii
Chaplya, Yevhen
DRYING PROCESSES: APPROACHES TO IMPROVE EFFICIENCY
title DRYING PROCESSES: APPROACHES TO IMPROVE EFFICIENCY
title_full DRYING PROCESSES: APPROACHES TO IMPROVE EFFICIENCY
title_fullStr DRYING PROCESSES: APPROACHES TO IMPROVE EFFICIENCY
title_full_unstemmed DRYING PROCESSES: APPROACHES TO IMPROVE EFFICIENCY
title_short DRYING PROCESSES: APPROACHES TO IMPROVE EFFICIENCY
title_sort drying processes approaches to improve efficiency
topic Mathematical modeling
drying
electroosmotic drying
unilateral drying
bilateral drying
isothermal drying
drying kinetics
convection
diffusion
heat and mass transfer
capillary-porous material
capillary effects
continuum thermodynamics
moisture
moisture transport
multi-component system
phase
phase transition
structural model
ponderomotive force
sustainable technology
dispersed materials
gas-suspended state
fluidization
stress
optimization
deformation
anisotropy
numerical methods
thema EDItEUR::P Mathematics and Science
topic_facet Mathematical modeling
drying
electroosmotic drying
unilateral drying
bilateral drying
isothermal drying
drying kinetics
convection
diffusion
heat and mass transfer
capillary-porous material
capillary effects
continuum thermodynamics
moisture
moisture transport
multi-component system
phase
phase transition
structural model
ponderomotive force
sustainable technology
dispersed materials
gas-suspended state
fluidization
stress
optimization
deformation
anisotropy
numerical methods
thema EDItEUR::P Mathematics and Science
url https://directory.doabooks.org/handle/20.500.12854/159076.2
work_keys_str_mv AT gayvasbogdana dryingprocessesapproachestoimproveefficiency
AT dmytrukveronika dryingprocessesapproachestoimproveefficiency
AT markovychbogdan dryingprocessesapproachestoimproveefficiency
AT dmytrukanatolii dryingprocessesapproachestoimproveefficiency
AT chaplyayevhen dryingprocessesapproachestoimproveefficiency