Z E M C H 2 0 1 2 I n t e r n a t i o n a l C o n f e r e n c e
718
Kwon J. S., Jang C. H., Jung H., Song T. H., 2009, ‘Effective thermal conductivity of
various filling materials for vacuum insulation panels,’ International Journal of Heat and
Mass Transfer, 52, pp. 5525-5532.
Kwon J. S., Jang C. H., Jung H., Song T. H., 2010, ‘Vacuum maintenance in vacuum
insulation panels exemplified with a staggered beam VIP,’ Energy and Buildings, 42, pp.
590-597.
Kim J. H. and Kim J. T., 2009, ‘Vacuum Insulation Panels for Building Envelope
Application,’ Proceedings of the Korea Institute of Ecological Architecture and
Environment, Seoul, Korea; pp. 243-247.
Korea Standards Association(KSA), 2002, KS F2277: Thermal insulation-Determination
of steady-state thermal transmission properties, Korea Standards Association.
Lausten J., 2008, Energy efficiency requirements in building codes, energy efficiency
policies for new buildings, IEA Information paper.
Moosmann A., Simmler H., Heinemann U., Cauberg H., Johannesson G., Erb M.,
Vacuum insulation in the Building Sector – System and Applications (Subtask B), A
Report for the IEA/ECBCS Annex 39 High Performance Thermal Insulation for Buildings
and Building Systems 2005.
<
; [accessed 07.10.11].
Nussbaumer T., Bundi R., Tanner C., 2005, ‘Thermal analysis of a wooden door system
with integrated vacuum insulation panels,’ Energy and Buildings, 37, pp.1107-1113.
Simmler H. and Brunner S., 2005, ‘Vacuum insulation panels for building application:
basic properties, aging mechanisms and service life,’ Energy and Buildings, 37, pp.
1122–1131.
Simmler H., Brunner S., Heinemann U., Schwab H., Kumaran K., Mukhopadhyaya P., et
al., 2005, Vacuum insulation panels – study on VIP-components and Panels for Useful
life time Prediction in Building Applications (Subtask A). A Report for the IEA/ECBCS
Annex 39 High Performance Thermal Insulation for Buildings and Building Systems
2005.
<
; [accessed 07.10.11].
Thorsell T. and Kallebrink I., 2005, ‘Edge loss minimization in vacuum insulation panels.
In: Proceedings of 7th symposium on building physics in the Nordic countries, Reykjavik,
Iceland.
Tenpierik M., van Der Spoel W., Cauberg H., 2008, ‘Analytical model for predicting
'thermal bridge effects due to vacuum insulation panel barrier envelope,’ Bauphysik, 30,
pp.38–45.
Tenpierik M. and Cauberg H., 2007, ‘Analytical models for calculating thermal bridge
effects caused by thin high barrier envelopes around vacuum insulation panels,’ Building
Physics, 30, pp.185–215.
Ghazi Wakili K., Bundi R., Binder B., 2004, ‘Effective thermal conductivity of vacuum
insulation panels, ‘ Building Research & Information, 32, pp. 293–299.
