Optimizing the pine wood drying process using a critical diffusion coefficient and a timed moistening impulse

Ahlborn. [WWW document]. – URL http://www.ahlborn.com. [Accessed 22 October 2021]. Ahlborn [WWW document]. – URL http://www.ahlborn.com. [Accessed 22 October 2021]. Search in Google Scholar

Crank, J. 1956. The Mathematics of Diffusion. Oxford, Clarendon Press. 347 pp. CrankJ. 1956 The Mathematics of Diffusion Oxford Clarendon Press 347 Search in Google Scholar

Feutron Klimasimulation GmbH. [WWW document]. – URL https://www.feutron.de/en/weathering-chamber/. [Accessed 22 October 2021]. Feutron Klimasimulation GmbH [WWW document]. – URL https://www.feutron.de/en/weathering-chamber/. [Accessed 22 October 2021]. Search in Google Scholar

Fick, A. 1855. Ueber Diffusion. – Pogendorff, J.C. (ed.). Annalen der Physik und Chemie, Vol. 94, 59–86. (In German). FickA. 1855 Ueber Diffusion PogendorffJ.C. (ed.). Annalen der Physik und Chemie 94 59 86 (In German). 10.1002/andp.18551700105 Search in Google Scholar

Kask, R., Mitt, R. 2021. Increasing the potential for the use of red cored gray alder, black alder and birch wood by heat treatment. (Punasüdamikuga halli lepa-, sanglepa-, ja kasepuidu kasutusvõimaluste suurendamine termilise töötlemise abil.) – KIK metsanduse programmi projekti nr. 16531 lõpparuanne, 33 pp. [WWW document]. – URL https://mi.emu.ee/teadusinfo/projektide-aruanded/kik-projektid/ [Accessed 22 October 2021]. (In Estonian). KaskR. MittR. 2021 Increasing the potential for the use of red cored gray alder, black alder and birch wood by heat treatment. (Punasüdamikuga halli lepa-, sanglepa-, ja kasepuidu kasutusvõimaluste suurendamine termilise töötlemise abil.) – KIK metsanduse programmi projekti nr. 16531 lõpparuanne, 33 pp. [WWW document]. – URL https://mi.emu.ee/teadusinfo/projektide-aruanded/kik-projektid/ [Accessed 22 October 2021]. (In Estonian). Search in Google Scholar

Mändoja, M. 2015. Wood drying simulation “TORKSIM” adjusting to actual industrial drying curve in order to improve the reliability of tension calculations and electrical humidity sensors. (Puidu kuivatuse simulatsiooniprogrammi “TORKSIM” sobitamine reaalse tööstusliku kuivatuskõveraga, eesmärgiga tõsta pinge arvutuste ja elektriliste niiskusandurite usaldusväärsust). – Bachelor thesis. Tartu, Estonian University of Life Sciences. 51 pp. (In Estonian with English summary). MändojaM. 2015 Wood drying simulation “TORKSIM” adjusting to actual industrial drying curve in order to improve the reliability of tension calculations and electrical humidity sensors. (Puidu kuivatuse simulatsiooniprogrammi “TORKSIM” sobitamine reaalse tööstusliku kuivatuskõveraga, eesmärgiga tõsta pinge arvutuste ja elektriliste niiskusandurite usaldusväärsust) – Bachelor thesis. Tartu Estonian University of Life Sciences 51 (In Estonian with English summary). Search in Google Scholar

Poljakov, A. 2013. Wood material comparison of actual moisture content monitoring data in wood dryer “Mühlböck” and “Hekotek”. (Puitmaterjali tegeliku niiskussisalduse võrdlus monitooringu andmetega puidu kuivatites “Mühlböck” ja “Hekotek”) – Master thesis. Tartu. Estonian University of Life Sciences. 125 pp. (In Estonian). PoljakovA. 2013 Wood material comparison of actual moisture content monitoring data in wood dryer “Mühlböck” and “Hekotek”. (Puitmaterjali tegeliku niiskussisalduse võrdlus monitooringu andmetega puidu kuivatites “Mühlböck” ja “Hekotek”) – Master thesis. Tartu Estonian University of Life Sciences 125 (In Estonian). Search in Google Scholar

Romann, T., Oll, O., Pikma, P., Tamme, H., Lust, E. 2014. Surface chemistry of carbon electrodes in 1-ethyl-3-methylimidazolium tetrafluoroborate ionic liquid - an in situ infrared study. – Electrochimica Acta, 125, 183–190. RomannT. OllO. PikmaP. TammeH. LustE. 2014 Surface chemistry of carbon electrodes in 1-ethyl-3-methylimidazolium tetrafluoroborate ionic liquid - an in situ infrared study Electrochimica Acta 125 183 190 10.1016/j.electacta.2014.01.077 Search in Google Scholar

Salin, J.G. 1990. Simulation of the timber drying process. Prediction of moisture and quality changes. – Doctoral thesis. Helsinki, EKONO Oy. 103 pp. SalinJ.G. 1990 Simulation of the timber drying process. Prediction of moisture and quality changes – Doctoral thesis. Helsinki EKONO Oy 103 Search in Google Scholar

Salin, J.G. 2007. Lectures. Riga, 2007. [WWW document]. – URL http://www.coste53.net/downloads/WG2/WG2-Riga/Lectures/Riga2007-Salin.pdf. [Accessed 22 October 2021]. SalinJ.G. 2007 Lectures Riga, 2007. [WWW document]. – URL http://www.coste53.net/downloads/WG2/WG2-Riga/Lectures/Riga2007-Salin.pdf. [Accessed 22 October 2021]. Search in Google Scholar

Scanntronik Mugrauer GmbH. [WWW document]. – URL www.scanntronik.de/. [Accessed 22 October 2021]. Scanntronik Mugrauer GmbH [WWW document]. – URL www.scanntronik.de/. [Accessed 22 October 2021]. Search in Google Scholar

Sova, D., Bedelean, B., Sandu, V. 2016. Application of Response Surface Methodology to optimization of wood drying conditions in a pilot-scale kiln. – Baltic Forestry, 22(2), 348–356. SovaD. BedeleanB. SanduV. 2016 Application of Response Surface Methodology to optimization of wood drying conditions in a pilot-scale kiln Baltic Forestry 22 2 348 356 Search in Google Scholar

Tamme, H. 2013. Process management framework on the example of convective drying of wood and spectroelectrochemistry. – MSc. thesis. Tartu, University of Tartu. 25 pp. TammeH. 2013 Process management framework on the example of convective drying of wood and spectroelectrochemistry – MSc. thesis. Tartu University of Tartu 25 Search in Google Scholar

Tamme, V. 2016. Development of resistance-type control methods for wood drying. – PhD thesis. Tartu, Estonian University of Life Sciences. 135 pp. TammeV. 2016 Development of resistance-type control methods for wood drying – PhD thesis. Tartu Estonian University of Life Sciences 135 Search in Google Scholar

Tamme, V., Muiste, P., Mitt, R., Tamme, H. 2011. Determination of effective diffusion coefficient and mechanical stress of pine wood during convective drying. – Baltic Forestry, 17(1), 110–117. TammeV. MuisteP. MittR. TammeH. 2011 Determination of effective diffusion coefficient and mechanical stress of pine wood during convective drying Baltic Forestry 17 1 110 117 Search in Google Scholar

Tamme, V., Muiste, P., Padari, A., Tamme, H. 2014. Modelling of resistance-type wood moisture meters for three deciduous tree species (black alder, birch, aspen) in moisture contents above fibre saturation point. – Baltic Forestry, 20(1), 157–166. TammeV. MuisteP. PadariA. TammeH. 2014 Modelling of resistance-type wood moisture meters for three deciduous tree species (black alder, birch, aspen) in moisture contents above fibre saturation point Baltic Forestry 20 1 157 166 Search in Google Scholar

Tamme, V., Tamme, H., Muiste, P. 2021. Development of experimental and theoretical methodology for optimization of quality and energy consumption of convective drying of wood (chamber drying and tunnel drying. (Puidu konvektiivkuivatuse (kamberkuivatus ja tunnelkuivatus) kvaliteedi ja energiakulu optimeerimise eksperimentaalse ja teoreetilise metoodika välja töötamine.) – KIK metsanduse programmi projekti nr. 16200 lõpparuanne, 44 pp. [WWW document]. – URL https://mi.emu.ee/userfiles/instituudid/mi/MI/Projektid/Projekt1620.pdf. [Accessed 22 October 2021]. (In Estonian). TammeV. TammeH. MuisteP. 2021 Development of experimental and theoretical methodology for optimization of quality and energy consumption of convective drying of wood (chamber drying and tunnel drying. (Puidu konvektiivkuivatuse (kamberkuivatus ja tunnelkuivatus) kvaliteedi ja energiakulu optimeerimise eksperimentaalse ja teoreetilise metoodika välja töötamine.) – KIK metsanduse programmi projekti nr. 16200 lõpparuanne, 44 pp. [WWW document]. – URL https://mi.emu.ee/userfiles/instituudid/mi/MI/Projektid/Projekt1620.pdf. [Accessed 22 October 2021]. (In Estonian). Search in Google Scholar

Tiitta, M., Tomppo, L., Lappalainen, R. 2010. Combined method for monitoring wood drying process. – Proceedings of 11th International IUFRO Wood Drying Conference, Sweden, 18–22 January. Skellefteå. 76–80. TiittaM. TomppoL. LappalainenR. 2010 Combined method for monitoring wood drying process Proceedings of 11th International IUFRO Wood Drying Conference Sweden 18–22 January Skellefteå. 76 80 Search in Google Scholar

Tremblay, C., Cloutier, A., Fortin, Y. 2000. Experimental determination of the convective heat and mass transfer coefficients for wood drying. – Wood Science and Technology, 34(3), 253–276. https://doi.org/10.1007/s002260000045. TremblayC. CloutierA. FortinY. 2000 Experimental determination of the convective heat and mass transfer coefficients for wood drying Wood Science and Technology 34 3 253 276 https://doi.org/10.1007/s002260000045. 10.1007/s002260000045 Search in Google Scholar

Tronstad, S., Sandland, K.M., Toverød, H. 2001. Drying quality of softwood based on 140 industrial tests in Norwegian sawmills and actions to improve the quality. – Proceedings of the 3 rd workshop of COST Action E15 on softwood drying to specific end-uses. Advances in the drying of wood (1999–2003). Finland, 11–13 June, Helsinki, 13 pp. TronstadS. SandlandK.M. ToverødH. 2001 Drying quality of softwood based on 140 industrial tests in Norwegian sawmills and actions to improve the quality Proceedings of the 3 rd workshop of COST Action E15 on softwood drying to specific end-uses. Advances in the drying of wood (1999–2003) Finland 11–13 June Helsinki, 13 Search in Google Scholar