Publications Details for:

Radon-222 Method for Locating and Quantifying Contamination by Residual Non-Aqueous Phase Liquids in the Subsurface
Grant Number R825689C058
RFA: Hazardous Substance Research Centers - HSRC (1989)
Abstract (2)
Book Chapter (1)
Dissertation/Thesis (3)
Journal Article (1)
Report (1)
Reference Type Citation Progress Report Year Document Sources
Abstract Cantaloub MG, Gottipatti S, Higginbotham JF, Hopkins O, Semprini L. 222Rn as an indicator of nonaqueous phase liquid contamination in groundwater. Health Physics 1996;70(Suppl 6):36c. R825689C058 (Final)
Abstract Semprini L, Broholm K, McDonald ME. Radon-222 deficit method for locating and quantifying NAPL contamination in the subsurface. EOS, Transactions American Geophysical Union 1993;74(43):299. R825689C058 (Final)
not available
Book Chapter Semprini L, Cantaloub M, Gottipati S, Hopkins O, Istok J. Radon-222 as a tracer for quantifying and monitoring NAPL remediation. In: Wickramanayake GB, Hinchee RE, eds. Nonaqueous Phase Liquids: Remediation of Chlorinated and Recalcitrant Compounds. Columbus, OH: Battelle Press, 1998, pp. 137-142. R825689C058 (Final)
Dissertation/Thesis Cantaloub MG. Aqueous-organic partition coefficients for Rn-222 and their application to radon analysis by liquid scintillation methods. M.S. Thesis. Department of Civil Engineering, Oregon State University, Corvallis, OR, December 2000. R825689C058 (Final)
Dissertation/Thesis Gottipati S. Radon-222 as a tracer for performance assessment of NAPL remediation technologies in the saturated zone: an experimental investigation. M.S. Thesis. Department of Civil Engineering, Oregon State University, Corvallis, OR, January 1996. R825689C058 (Final)
Dissertation/Thesis Hopkins OS. Radon-222 as an indicator for nonaqueous phase liquids in the saturated zone: developing a detection technology. M.S. Thesis. Department of Civil Engineering, Oregon State University, Corvallis, OR, July 1994. R825689C058 (Final)
Journal Article Semprini L, Hopkins OS, Tasker BR. Laboratory, field and modeling studies of radon-222 as a natural tracer for monitoring NAPL contamination. Transport in Porous Media 2000;38(1-2):223-240. R825689C058 (Final)
Report Tasker BR. Radon-222 as an indicator for non-aqueous phase liquids in the saturated zone: a numerical methods analysis. M.S. Engineering Report. Corvallis, OR: Department of Civil Engineering, Oregon State University, 1995. R825689C058 (Final)