A comparative study of dewatering of Pinus radiata sapwood using supercritical CO2 and conventional forced air-drying via in situ magnetic resonance microimaging (MRI)
A comparison of moisture loss from Pinus radiata sapwood by conventional forced air-drying and a novel supercritical carbon dioxide (scCO2) dewatering process has been examined in situ using magnetic resonance microimaging. Air-drying results in the nonuniform removal of moisture within the wood volume, leading to a dry core and wet perimeter where water evaporated, whereas the scCO2 dewatering process resulted in moisture expulsion more uniformly throughout the volume of the specimen, especially so within the earlywood.
%0 Journal Article
%1 meder2015comparative
%A Meder, Roger
%A Franich, Robert A.
%A Callaghan, Paul T.
%A Behr, Volker C.
%D 2015
%J Holzforschung
%K mri peer
%N 9
%P 1137-1142
%R 10.1515/hf-2014-0134
%T A comparative study of dewatering of Pinus radiata sapwood using supercritical CO2 and conventional forced air-drying via in situ magnetic resonance microimaging (MRI)
%V 69
%X A comparison of moisture loss from Pinus radiata sapwood by conventional forced air-drying and a novel supercritical carbon dioxide (scCO2) dewatering process has been examined in situ using magnetic resonance microimaging. Air-drying results in the nonuniform removal of moisture within the wood volume, leading to a dry core and wet perimeter where water evaporated, whereas the scCO2 dewatering process resulted in moisture expulsion more uniformly throughout the volume of the specimen, especially so within the earlywood.
@article{meder2015comparative,
abstract = {A comparison of moisture loss from Pinus radiata sapwood by conventional forced air-drying and a novel supercritical carbon dioxide (scCO2) dewatering process has been examined in situ using magnetic resonance microimaging. Air-drying results in the nonuniform removal of moisture within the wood volume, leading to a dry core and wet perimeter where water evaporated, whereas the scCO2 dewatering process resulted in moisture expulsion more uniformly throughout the volume of the specimen, especially so within the earlywood.},
added-at = {2018-01-18T11:49:16.000+0100},
author = {Meder, Roger and Franich, Robert A. and Callaghan, Paul T. and Behr, Volker C.},
biburl = {https://www.bibsonomy.org/bibtex/2cc793406340faf2601ea9050e0942432/vrbehr},
doi = {10.1515/hf-2014-0134},
interhash = {d3570ff853e437e299206ae7d2598de1},
intrahash = {cc793406340faf2601ea9050e0942432},
issn = {0018-3830},
journal = {Holzforschung},
keywords = {mri peer},
month = {11},
number = 9,
pages = {1137-1142},
timestamp = {2018-01-19T15:53:41.000+0100},
title = {A comparative study of dewatering of Pinus radiata sapwood using supercritical CO2 and conventional forced air-drying via in situ magnetic resonance microimaging (MRI)},
volume = 69,
year = 2015
}