TY - GEN
T1 - Demonstration of the hygrothermal performance of a next-generation insulation material in a cold climate
AU - Biswas, Kaushik
AU - Desjarlais, Andre
AU - Jiang, Timothy
AU - Patel, Tapan
AU - Nelson, Andrew
AU - Smith, Douglas
N1 - Publisher Copyright:
Copyright © 2017 by ASTM International.
PY - 2017
Y1 - 2017
N2 - Energy loss through building walls is estimated to cost the U.S. Department of Defense (DOD) about $200 million per year, accounting for 5 % of the total energy cost in DOD facilities. This article describes the demonstration of a highperformance insulation material, called modified atmosphere insulation (MAI), to reduce wall-related heat losses in a DOD building located in Ft. Drum, NY, in a cold climate. MAI has been demonstrated to achieve R32/in. (hr-ft2-°F/Btu-in) or greater and its use can significantly increase the thermal resistance of walls with a marginal increase in wall thickness, making it an ideal candidate for retrofit application. MAI is a variant of vacuum insulation panels produced at a substantially reduced cost resulting from a change in the evacuation process. By retrofitting walls and increasing thermal resistance, as measured by R-value, by R10-20 (h-ft2-°F/Btu), reductions of 30 % or more over baseline wall-generated space conditioning loads are possible. Further, with targeted applications for older or more poorly insulated facilities, greater energy savings can be achieved. In this article, the installation of MAI panels in an existing building at Ft. Drum and the resulting energy benefits will be described. Like vacuum insulation panels, MAI panels consist of an evacuated nanoporous core that is encapsulated within air- and vapor-impermeable barrier films. Addition of these impermeable barrier films can have implications on the moisture storage and movement within the wall systems. Therefore, in addition to the thermal performance evaluation, measurements and modeling will be used to determine the hygric behavior of the retrofitted walls.
AB - Energy loss through building walls is estimated to cost the U.S. Department of Defense (DOD) about $200 million per year, accounting for 5 % of the total energy cost in DOD facilities. This article describes the demonstration of a highperformance insulation material, called modified atmosphere insulation (MAI), to reduce wall-related heat losses in a DOD building located in Ft. Drum, NY, in a cold climate. MAI has been demonstrated to achieve R32/in. (hr-ft2-°F/Btu-in) or greater and its use can significantly increase the thermal resistance of walls with a marginal increase in wall thickness, making it an ideal candidate for retrofit application. MAI is a variant of vacuum insulation panels produced at a substantially reduced cost resulting from a change in the evacuation process. By retrofitting walls and increasing thermal resistance, as measured by R-value, by R10-20 (h-ft2-°F/Btu), reductions of 30 % or more over baseline wall-generated space conditioning loads are possible. Further, with targeted applications for older or more poorly insulated facilities, greater energy savings can be achieved. In this article, the installation of MAI panels in an existing building at Ft. Drum and the resulting energy benefits will be described. Like vacuum insulation panels, MAI panels consist of an evacuated nanoporous core that is encapsulated within air- and vapor-impermeable barrier films. Addition of these impermeable barrier films can have implications on the moisture storage and movement within the wall systems. Therefore, in addition to the thermal performance evaluation, measurements and modeling will be used to determine the hygric behavior of the retrofitted walls.
KW - Cold climate
KW - Modified atmosphere insulation
KW - Moisture performance
KW - Vacuum insulation
UR - http://www.scopus.com/inward/record.url?scp=85044482405&partnerID=8YFLogxK
U2 - 10.1520/STP159920160113
DO - 10.1520/STP159920160113
M3 - Conference contribution
AN - SCOPUS:85044482405
T3 - ASTM Special Technical Publication
SP - 152
EP - 165
BT - Advances in Hygrothermal Performance of Building Envelopes
A2 - Fisler, Diana
A2 - Mukhopadhyaya, Phalguni
PB - ASTM International
T2 - Symposium on Advances in Hygrothermal Performance of Building Envelopes: Materials, Systems and Simulations
Y2 - 26 October 2016 through 27 October 2016
ER -