Wood and Timber Drying
Relative humidity plays an essential role in wood drying, along with time and temperature. Normally these parameters are based on previous drying experience, with the goal being to optimize drying time while minimizing wood cracking. The process parameters are unique to the system used, with different woods and seasonal variations affecting the result. This makes wood drying a very complex process – to achieve the best results relative humidity needs to be continuously monitored.
The accuracy of relative humidity measurements really matters. It directly affects the quality of the drying process and indirectly affects facility capacity. Inaccurate measurements can cause the following problems:
- If relative humidity is inaccurately shown as too moist, wood may crack due to the overly dry conditions. Over drying also wastes energy and ties up expensive facility capacity unnecessarily.
- If relative humidity is inaccurately shown as too dry, the overly moist conditions will slow the drying process, leading to longer drying times and reduced capacity.
Three main factors help to keep measurements accurate: ensuring the measuring device is installed correctly, using the appropriate sensor, and regular calibration.
Wood is a porous material, i.e. it is hygroscopic, absorbing moisture to reach an equilibrium with the ambient environment. The mechanical properties of wood vary with the temperature, pressure and moisture content. In most applications the moisture in the wood cells must be removed to allow further processing and to protect wood from blue stain, fungi and mold, as well as from cracks and checks. The initial moisture content of green wood, i.e. freshly sawn timber, varies from 50 to 100%, depending on the species. When used as a construction material in, for instance, a normal temperate zone climate, the timber is dried to a moisture content of 18%, while for joinery and carpentry a moisture content of 10% to 15% is ideal.
Save energy and reduce costs by monitoring the humidity in your processes to avoid over-drying products and wasting energy. We have developed this drying simulator to help everyone understand the way exact humidity measurements can lead to more efficient energy use and higher yields.