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Back to Building Envelope Theory Topics R-Value DriftIt is common knowledge in the building science industry that all insulation systems perform at different levels depending on environmental conditions. R-value performance can actually change as much as 50% or more. Because Vermont, with its cold winters, is at the extreme end of this variation in thermal performance, the impact of climate cannot be ignored. While all insulation materials have published R-values determined by laboratory testing, many of the materials we are using in our buildings have published R-values that apply to other climates, not Vermont. For example: if a particular insulation material or system performs at R=19 in a moderate southern climate, but at 9.5 in a cold Vermont climate, twice as much of that type of insulation should be used in Vermont if the code requires a real-world performance equaling R-19. The test results from the U.S. Department of Energy verify that Fiberglas R-values are compromised when a 25° Fahrenheit temperature difference exists between the inside (70°) and the outside (45°). When the test conditions reached an outside temperature of -18°, the R-values of the fiberglass insulation (both blown in and batts) decreased to less than 50% of the manufacturer’s stated R-value. Cellulose R-values, on the other hand, went up. The R-value of Cellulose insulation began to rise when a 25° Fahrenheit temperature difference existed between the inside (70°) and the outside (45°). When the test conditions reached the outside temperature of -18°, the R-values of the Cellulose Insulation continued to rise above the manufacturer’s stated installed R-value. It was so determined that cellulose insulation improves in R-value any time a temperature difference of 25° or more exists U.S. Department of Energy Test Results
While this study only looks at two of the many types of insulation on the market, it is clear from this and a preponderance of other test data that changes in temperature can dramatically change the R-value of different insulation products in very different ways. Foam has low thermal driftArchitectural Testing Inc. of York, PA conducted similar tests in which the thermal performance of fiberglass was compared to that of polyurethane foam under comparable conditions. Report No: ATI-3822-5A conducted on 10/24/86 produced striking results. Both products were tested in an average warm side ambient temperature of 68° F with a variety of cold side ambient temperatures and conditions. When the cold side temperature dropped to -15° F with a 15mph wind, the resulting thermal performances differed significantly. While the R-Value of the foam sample dropped to 12.0, the R-Value of the fiberglass sample dropped to 5.4. As conditions become more severe, the fiberglass performance became increasingly poorer. The integrity of the foam sample was far less compromised during harsh conditions. | ||||||||||||||||||||||||||||||||||||||||||||||||
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