Environmental Science Division (EVS) a Division of Argonne National Laboratory
Program Highlights Index

RESRAD: A Tool for Site Cleanup

The RESRAD family of computer codes is a regulatory tool for evaluating radioactively contaminated sites, specifically designed to help determine the allowable RESidual RADioactivity in site cleanup.

Since 1988, EVS has developed the RESRAD family of codes, which consider risks of exposure to residual radioactivity through nine environmental pathways: direct exposure; inhalation of particulates and radon; and ingestion of plant foods, meat, milk, aquatic foods, water, and soil.

The RESRAD codes are the industry standard, with extensive peer-reviewed histories and a large base of active users. The code family is internationally recognized and is applied in radiological assessments for both humans and nonhuman biota.

The codes have been used for evaluation of remediation alternatives and emergency responses to nuclear incidents at roughly 300 sites in more than 85 countries. In the United States, the codes are accepted for use by DOE, the Nuclear Regulatory Commission, the Environmental Protection Agency, and state regulatory agencies. In addition, many universities have used RESRAD codes as teaching and research tools.

Their wide acceptance results from the codes' strong reputation for technical credibility, user-friendly documentation and application, user support through hands-on training workshops, and reliable customer support. More than 1,000 journal articles, dissertations, and other publications based on the RESRAD codes have been published. EVS distributes the codes and provides training (more than 100 workshops to date) and user support.

Related Program Areas

See the Program Highlights Index for a complete list of EVS program highlights.

photo of Charley Yu
Environmental Nuclear Scientist
Capabilities: Modeling of radionuclide transport in the environment; radiological dose and risk assessment for humans, flora, and fauna; development of operational guidelines for responding to nuclear emergencies; performance assessment for radioactive waste disposal facilities.