A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Modeling Point‐of‐Entry Radon Removal by GAC
Results of a study which showed that an adsorption‐decay steady state is established within a granular activated carbon (GAC) bed, allowing it to be maintenance‐free for long periods of time, led to field research to develop a design model for point‐of‐entry application and the installation and monitoring of GAC technology in more than 100 homes across the United States. The research showed that with an effective GAC better than 99 percent removal of radon can be achieved.
Modeling Point‐of‐Entry Radon Removal by GAC
Results of a study which showed that an adsorption‐decay steady state is established within a granular activated carbon (GAC) bed, allowing it to be maintenance‐free for long periods of time, led to field research to develop a design model for point‐of‐entry application and the installation and monitoring of GAC technology in more than 100 homes across the United States. The research showed that with an effective GAC better than 99 percent removal of radon can be achieved.
Modeling Point‐of‐Entry Radon Removal by GAC
Lowry, Jerry D. (author) / Lowry, Sylvia B. (author)
Journal ‐ American Water Works Association ; 79 ; 85-88
1987-10-01
4 pages
Article (Journal)
Electronic Resource
English
Point‐of‐Entry Removal of Radon From Drinking Water
| Wiley | 1987
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