WOOD RESEARCH Volume 70, Number 3, 2025
MATEUSZ SZAR, JAROSŁAW KOZAK, BEATA SIEKIERKA, WOJCIECH SPISAK, GRZEGORZ BOCZKAL, ŠTEFAN BOHÁČEK, DANIELA MAJERČÁKOVÁ, and ANDRZEJ CHLEBICKI

ROCK-CELLULOSE COMPOSITES IN SOIL VENTILATION DUCTS FOR COMPACTED SOILS. Short notes

Soil Ventilation Ducts (SVDs), produced from a rock–cellulose composite was prepared by mixing short-fibre cellulose with granite gravels, compressed into cylindrical briquettes. The SVDs were tested in compacted soil (compaction > 2.1 MPa) to assess their effect on water infiltration dynamics. The results confirmed the efficiency of SVD in enhancing soil water infiltration both under natural rainfall conditions and in controlled experiments increasing the volumetric water content from 35% to nearly 70%, while no change was observed in the control. Additionally, results from a controlled experiment demonstrate that the application of SVD substantially enhanced water infiltration. Registered absorption time of 4.7 litres of water on surface area of 615.75 cm² was 1440 min for the control (without SVD), 14.5 min at 15 cm SVD length, 2.5 min at 30 cm SVD length, and 2 min at 45 cm SVD length, indicating a strong positive relationship between SVD length and infiltration efficiency.

WOOD RESEARCH Volume 69, Number 4, 2024
MATEUSZ SZAR, JAROSŁAW KOZAK, BEATA SIEKIERKA, WOJCIECH SPISAK, ANDRZEJ CHLEBICKI, DANIELA MAJERČÁKOVÁ, and FILIP ŠUBÍN

INNOVATIVE CELLULOSE ADSORBER TO INCREASE TREE PROTECTION AGAINST HARMFUL EFFECTS OF ROAD DE-ICING SALT

The study examines the adsorption capacity of compressed cellulose fibres in cylindrical pellets intended for protecting plants and soils from road salt. The innovative adsorbers use short-fibre cellulose waste, which is unsuitable for recycling and is compressed under pressure ranging from 0.1 to 12.0 MPa. Various cylindrical adsorbers were tested and characterised using the Evaporation surface coefficient (ESC). The most efficient absorber with a diameter of 19 mm and a length of 26 mm at a humidity of 6.76% adsorbed brine to 87%. Cellulose adsorbers outperformed previously described Salix viminalis willow chips in de-icing salt capture efficiency (Spisak et al. 2020)