Add to ORKGIt has been hypothesized that "anomalous" transient moisture sorption in wood at high relative humidities is due to slow sorption of moisture in the cell walls. A mathematical model describing this phenomenon has been developed, which fits well the two-stage sorption (Fickian and non-Fickian) visible in experimental data and uses parameters with clear physical meaning. The values of these parameters can be derived by simple means. Thickness effects and other non-Fickian behavior are examined
Water vapour sorption (WVS) experiments on grained Norway spruce wood (Picea abies) at low relative ...
During the last three decades the macroscopic formulation of moisture transport in wood below the fi...
This paper is the second in a series of papers reporting on experiments in nonisothermal diffusion o...
This paper presents a study and a refinement of the sorption rate model in a so-called multi-Fickian...
Moisture transport and sorption in wood may not be accurately described by Fick's law of diffusion. ...
This paper concerns transient sorption measurements in two intervals (54 to 75% and 75 to 84% relati...
A model for non-Fickian moisture transfer in wood is presented. The model considers the transfer of ...
In the cellular structure of wood, bound-water diffusion and water-vapor diffusion interact via sor...
Wood is a porous, hygroscopic material that can take up water both within cell walls (cell-wall wate...
ACLInternational audienceThe independent domain theory is used to analyze the influence of sorption ...
This study was undertaken to estimate the effect of openings between cell walls on combined bound wa...
The mechanisms of moisture diffusion in wood are not yet fully understood, due to the complex and hi...
Moisture sources in the building envelope are, in order of magnitude: rain penetration, moisture bro...
The assumption that non-stationary sorption processes associated with wood canbe evaluated by analys...
This paper concerns transient sorption measurements in two intervals (54 to 75% and 75 to 84% relati...
Water vapour sorption (WVS) experiments on grained Norway spruce wood (Picea abies) at low relative ...
During the last three decades the macroscopic formulation of moisture transport in wood below the fi...
This paper is the second in a series of papers reporting on experiments in nonisothermal diffusion o...
This paper presents a study and a refinement of the sorption rate model in a so-called multi-Fickian...
Moisture transport and sorption in wood may not be accurately described by Fick's law of diffusion. ...
This paper concerns transient sorption measurements in two intervals (54 to 75% and 75 to 84% relati...
A model for non-Fickian moisture transfer in wood is presented. The model considers the transfer of ...
In the cellular structure of wood, bound-water diffusion and water-vapor diffusion interact via sor...
Wood is a porous, hygroscopic material that can take up water both within cell walls (cell-wall wate...
ACLInternational audienceThe independent domain theory is used to analyze the influence of sorption ...
This study was undertaken to estimate the effect of openings between cell walls on combined bound wa...
The mechanisms of moisture diffusion in wood are not yet fully understood, due to the complex and hi...
Moisture sources in the building envelope are, in order of magnitude: rain penetration, moisture bro...
The assumption that non-stationary sorption processes associated with wood canbe evaluated by analys...
This paper concerns transient sorption measurements in two intervals (54 to 75% and 75 to 84% relati...
Water vapour sorption (WVS) experiments on grained Norway spruce wood (Picea abies) at low relative ...
During the last three decades the macroscopic formulation of moisture transport in wood below the fi...
This paper is the second in a series of papers reporting on experiments in nonisothermal diffusion o...