Avramidis, Stavros
Department of Wood Science, Faculty of Forestry
Faculty (G+PS eligible/member)
Wood-water relations and sorption thermodynamics.; Fluid flow, heat transfer, and molecular diffusion; Modeling steady-state and dynamic non-isothermal diffusion in wood.; Application of fractals and machine learning to modeling wood physical properties.; Molecular modeling of the wood nano-pore network in the cell wall.; Industrial wood kiln drying optimization and development of new drying strategies.; Radio frequency vacuum (RFV) heating and drying of wood and wood products.; Dielectric wood phytosanitation.; Wood thermal modification.; Wood-water relations and sorption thermodynamics. , Fluid flow, heat transfer, and molecular diffusion, Modeling steady-state and dynamic non-isothermal diffusion in wood., Application of fractals and machine learning to modeling wood physical properties., Molecular modeling of the wood nano-pore network in the cell wall., Industrial wood kiln drying optimization and development of new drying strategies., Radio frequency vacuum (RFV) heating and drying of wood and wood products., Dielectric wood phytosanitation., Wood thermal modification.