PT Journal
AU Durica, P
   Juras, P
   Staffenova, D
   Rybarik, J
TI Lightweight Wood-Based Wall: The Long-Time Evaluation of Heat-Air-Moisture Transport
SO Communications - Scientific Letters of the University of Zilina
PY 2016
BP 68
EP 76
VL 18
IS 4
DI 10.26552/com.C.2016.4.68-76
WP https://komunikacie.uniza.sk/artkey/csl-201604-0011.php
DE platform frame; wood; experiment; HAM; moisture; thermal conductivity
SN 13354205
AB Five lightweight timber-frame wall sections with various thermal insulations and outdoor coating colors have been exposed to real outdoor boundary climate conditions since 2010. The indoor boundary conditions were set as constant. This article compares measured temperatures inside individual sections of the wall fragment to non-steady Heat-Air-Moisture (HAM) simulations in WUFI and ESP-r. The wall sections differ from each other in used thermal insulation: mineral wool, glass wool and hemp. Another difference is in color of outdoor surface: yellow, white and dark grey. Some wall compositions are equipped with vapor retarder. Each section has attached some thermal sensors.
ER