
Protocols of radiocontaminant air monitoring for inhalation exposure estimates
Author(s) -
J.H. Shinn
Publication year - 1995
Language(s) - English
Resource type - Reports
DOI - 10.2172/123195
Subject(s) - americium , radionuclide , environmental science , plutonium , particulates , environmental radioactivity , aerosol , contamination , radiation monitoring , environmental chemistry , fission products , hepa , air monitoring , radiochemistry , environmental engineering , chemistry , meteorology , nuclear medicine , geography , nuclear physics , engineering , electrical engineering , medicine , ecology , physics , organic chemistry , filter (signal processing) , biology
Monitoring the plutonium and americium particle emissions from soils contaminated during atmospheric nuclear testing or due to accidental releases is important for several reasons. First, it is important to quantify the extent of potential human exposure from inhalation of alpha-emitting particles, which is the major exposure pathway from transuranic radionuclides. Second, the information provided by resuspension monitoring is the basis of criteria that determine the target soil concentrations for management and cleanup of contaminated soil sites. There are other radioactive aerosols, such as the fission products (cesium and strontium) and neutron-activation products (europium isotopes), which may be resuspended and therefore necessary to monitor as well. This Standard Protocol (SP) provides the method used for radiocontaminant air monitoring by the Health and Ecological Assessment Division (formerly Environmental Sciences Division), Lawrence Livermore National Laboratory, as developed and tested at Nevada Test Site (NTS) and in the Marshall Islands. The objective of this SP is to document the applications and methods of monitoring of all the relevant variables. This protocol deals only with measuring air concentrations of radionuclides and total suspended particulates (TSP, or {open_quotes}dust{close_quotes}). A separate protocol presents the more difficult measurements required to determine transuranic aerosol emission rates, or {open_quotes}resuspension rate{close_quotes}