Concrete Blocks' Adverse Effects on Indoor Air and Recommended Solutions
Publication: Journal of Environmental Engineering
Volume 121, Issue 4
Abstract
Air infiltration through highly permeable concrete blocks can allow entry of various serious indoor air pollutants. An easy approach to avoiding these pollutants is to select a less–air-permeable concrete block. Tests show that air permeability of concrete blocks can vary by a factor greater than 50 (0.63–35 standard L/min/m 2 at 3 Pa). The surface texture of the blocks correlates well with air permeability; test results of smoother, closed-surface-texture blocks were usually less air-permeable. During construction, air infiltration can be minimized by capping walls and carefully sealing around openings for utilities or other penetrations. Structures with indoor air-quality problems due to soil-gas entry can be mitigated more effectively with less coating material if the blocks have a closed surface texture. All coatings evaluated—cementaceous block filler (which has the lowest applied cost and is more than 99.5% effective), surface bonding cement, water-based epoxy, polysulfide vinyl acrylic, and latex (three coats)—were highly effective (more than 98%) in reducing air permeability when adequately applied. Coating selection should be influenced by expected service life, considering surface condition and cost.
Get full access to this article
View all available purchase options and get full access to this article.
References
1.
“A citizen's guide to radon.” (1992). EPA 402-K92-001, Envir. Protection Agency, Washington, D.C., May.
2.
Hubbard, L. M., Bohac, D. L., Gadsby, K. J., Harrje, D. T., Lovell, A. M., and Socolow, R. H.(1988). “Research on radon movement in buildings in pursuit of optimal mitigation.”Proc. Am. Council for an Energy Efficient Economy, 1988 Summer Study, 2, American Council for an Energy Efficient Economy, Asilomar, Calif., 1(13), 42.
3.
“Laboratory tests external coatings.” (1979). Report 9, DSMA ATCON Ltd., Atomic Energy Control Board Development Program for Radon Reduction, Ontario, Aug.
4.
Marynowski, J. M. (1988). “Measurement and reduction methods of cinder block wall permeabilities.”Working Paper No. 99, Center for Energy and Environmental Studies, Princeton University, Princeton, N.J.
5.
“Standard test method for rate of air leakage through exterior windows, curtain walls, and doors.” (1984). ASTM E 283-84, ASTM, Philadelphia, Pa., Sep.
6.
“Standard specification for hollow load-bearing concrete masonry units.” (1985). ASTM C 90-85, ASTM, Philadelphia, Pa., Jul.
Information & Authors
Information
Published In
Journal of Environmental Engineering
Volume 121 • Issue 4 • April 1995
Pages: 348 - 356
Copyright
Copyright © 1995 American Society of Civil Engineers.
History
Published online: Apr 1, 1995
Published in print: Apr 1995
Authors
Metrics & Citations
Metrics
Citations
Download citation
If you have the appropriate software installed, you can download article citation data to the citation manager of your choice. Simply select your manager software from the list below and click Download.