Wetting and Drying Kinetics of Building Materials

The effect of moisture in buildings is normally related with damage, which may occur due to the presence of moisture itself or due to its evaporation. The drying process plays an important role in the available moisture, both inside the material or at its surface. This paper presents the results of an experimental evaluation of the drying kinetics, considering both surface and bulk moisture transfer. Two different specimens were used: External Thermal Insulation Composite Systems (ETICS) to study surface moisture transfer and Autoclaved Cellular Concrete (ACC) to analyse the bulk moisture transfer. For both samples the drying kinetics was assessed considering different environment conditions (air temperature and humidity). Five different first-order kinetics models, available in the literature, were adjusted to describe the drying process and estimate the equilibrium moisture content of ETICS and ACC.The results point that Logarithmic and Midilli models allow the best fit and that the drying time constant is strongly affected by the moisture transfer phenomenon (at surface or bulk) and by the drying air conditions. It was also estimated the apparent molecular diffusion coefficient for ACC and its variation with temperature.

Download Full-text

DRYING KINETICS OF HOT-AIR DRIED BEEF MEAT: APPLICATION OF MATHEMATICAL MODELS, ENERGY CONSUMPTION, AND COLOR CHARACTERISTICS

Heat Transfer Research ◽

10.1615/heattransres.2018020385 ◽

2018 ◽

Vol 49 (14) ◽

pp. 1353-1366 ◽

Cited By ~ 1

Author(s):

Osman Ismail ◽

Ozlem Gökce Kocabay

Keyword(s):

Energy Consumption ◽

Mathematical Models ◽

Drying Kinetics ◽

Beef Meat ◽

Color Characteristics ◽

Hot Air ◽

Kinetics Of

Download Full-text

Drying kinetics of processed natural coffee with high moisture content

Coffee Science ◽

10.25186/cs.v12i3.1320 ◽

2017 ◽

Vol 12 (3) ◽

pp. 400 ◽

Cited By ~ 3

Author(s):

Valdiney Cambuy Siqueira ◽

Flávio Meira Borém ◽

Guilherme Euripedes Alves ◽

Eder Pedroza Isquierdo ◽

Afonso Celso Ferreira Pinto ◽

...

Keyword(s):

Moisture Content ◽

Drying Kinetics ◽

High Moisture Content ◽

High Moisture ◽

Kinetics Of

Objetivou-se, com o presente trabalho, propor um novo método de processamento e secagem, assim como avaliar o comportamento dos grãos submetidos a este processo, por meio da taxa de redução de água e do ajuste de diferentes modelos matemáticos aos dados experimentais da secagem. Os frutos colhidos no estágio maduro foram divididos em três lotes. O primeiro foi seco continuamente à temperatura de 40±1 °C. O segundo consiste na secagem do café natural até os teores de água de 0,56±0,02, 0,41±0,02, 0,28±0,02 e 0,20±0,02 decimal (base seca, b.s.), seguido de beneficiamento e secagem contínua nas temperaturas de 35±1 ºC e 40±1 ºC. O terceiro lote correspondeu à secagem contínua do café descascado e desmucilado na temperatura de 40±1 °C. Em todos os lotes, a secagem foi encerrada quando os grãos atingiram o teor de água de 0,12±0,05 (b.s.). Aos dados experimentais da secagem foram ajustados dez modelos matemáticos utilizados para representação da secagem dos produtos agrícolas. Além da representação da cinética de secagem foi avaliada a taxa de redução de água dos grãos. Conclui-se que a taxa de redução de água é maior para a temperatura de secagem de 40±1 °C, especialmente para maiores teores de água. O tempo total de secagem do café beneficiado com alto teor de água é expressivamente reduzido, quando comparado ao tempo de secagem completa do café natural. O modelo de Midilli descreve satisfatoriamente a cinética de secagem do café beneficiado.

Download Full-text

Porous Structure and Transport Properties of a Carbonized Phenolic Resin

Collection of Czechoslovak Chemical Communications ◽

10.1135/cccc19950172 ◽

1995 ◽

Vol 60 (2) ◽

pp. 172-187 ◽

Cited By ~ 2

Author(s):

Pavel Fott ◽

František Kolář ◽

Zuzana Weishauptová

Keyword(s):

Porous Structure ◽

Transport Properties ◽

Phenolic Resin ◽

Arrhenius Equation ◽

Mercury Porosimetry ◽

Micropore Volume ◽

Microporous Structure ◽

Wetting And Drying ◽

Phenolic Resins ◽

Kinetics Of

On carbonizing phenolic resins, the development of porous structure takes place which influences the transport properties of carbonized materials. To give a true picture of this effect, specimens in the shape of plates were prepared and carbonized at various temperatures. The carbonizates obtained were studied by adsorption methods, electron microscopy, and mercury porosimetry. Diffusivities were evaluated in terms of measuring the kinetics of wetting and drying. It was found out that the porous structure of specimens in different stages of carbonization is formed mostly by micropores whose volumes were within 0.06 to 0.22 cm3/g. The maximum micropore volume is reached at the temperature of 750 °C. The dependence of diffusivity on the carbonization temperature is nearly constant at first, begins to increase in the vicinity of 400 °C, and at 600 °C attains its maximum. The experimental results reached are in agreement with the conception of the development and gradual closing of the microporous structure in the course of carbonization. The dependence of diffusivity on temperature can be expressed by the Arrhenius equation. In this connection, two possible models of mass transport were discussed.

Download Full-text