Počet záznamov: 1
Calculation of the heat energy needed for melting of the ice in wood materials for veneer production
SYS 0070172 LBL 00000naa^^22^^^^^^^^450 005 20190402093405.8 100 $a 20131010a m y0sloc0103 ba 101 $a eng 102 $a SK 200 1-
$a Calculation of the heat energy needed for melting of the ice in wood materials for veneer production $f Nenčo S. Delijski, Ladislav Dzurenda, Veselin Brezin 215 $c Graf. 320 $a Lit. 330 $a An approach for the calculation of the specific heat energy, qice, needed for melting of the ice in the wood has been suggested. The approach takes into account to a maximum degree the physics of the processes of thawing of the ice, formed by both the bounded and the free water in the wood. It reflects the influence of the temperature, wood moisture content, wood density, and for the first time also of the influence of the fiber saturation point of each wood specie on qice during wood defrosting and the influence of the temperature on the fiber saturation point of frozen and non-frozen wood. An equation for the easy determination of the specific heat energy, qfw, needed for the melting of the ice, which is formed by the free water in the wood has been derived, depending on the basic density of the wood rb, the wood moisture content u, and the fiber saturation point ufsp. An equation for the determination at u≥ ufsp of the specific heat energy qbw, needed for the melting of the ice, which is formed by the bounded water in the wood has been derived as well, depending on rb, u, ufsp, and the initial temperature of the frozen wood tw0. The specific heat energy qice equals to qfw + qbw. For the calculation of the qfw and qbw according to a suggested approach and according to the mathematical description of qfw and qbw a software program has been prepared in MS Excel 2010. With the help of the program calculations have been carried out for the determination of qfw and qbw for oak, beech, pine and poplar frozen wood with moisture content ufsp ≤ u ≤ 1.0 kg·kg−1 at a temperature range for tw0 from – 20 °C to – 1 °C. 463 -1
$1 001 sldk_un_cat*0068712 $1 011 $a 1336-3824 $1 200 1 $a Acta facultatis xylologiae Zvolen $e vedecký časopis Drevárskej fakulty $v Roč. 55, č. 2 (2013), s. 21-32 541 1-
$a Výpočet spotreby tepla na rozmrazovanie ľadu v drevených materiáloch pre výrobu dyhy 610 $9 sldk_un_auth*0006764 $a zamrznuté drevo $X frozen wood 610 $9 sldk_un_auth*0026925 $a rozmrazovanie dreva $X wood defrosting 610 $9 sldk_un_auth*h031157 $a ľad $X ice 610 $9 sldk_un_auth*0029540 $a merná tepelná spotreba energie $X specific heat energy consumption 610 $9 sldk_un_auth*0008725 $a merná tepelná kapacita $X specific heat capacity 610 $9 sldk_un_auth*h041107 $a konvenčná hustota $X basic density 610 $9 sldk_un_auth*h015167 $a bod nasýtenia vlákien $X fiber saturation point 675 $a 630*81 $v 1. stred. $z slo 675 $a 674 $v 1. stred. $z slo 700 -1
$3 sldk_un_auth*p0039304 $a Delijski $b Nenčo S. $f 1945- $4 070 701 -1
$3 sldk_un_auth*p0016139 $a Dzurenda $b Ladislav $f 1955- $p TUZDFOD $4 070 $T Katedra obrábania dreva 701 -1
$3 sldk_un_auth*p0043419 $a Brezin $b Veselin $4 070 801 -0
$a SK $b ZV001 $c 20131010 $g AACR2
Počet záznamov: 1