NUREG-1150

NUREG-1150

NUREG-1150 ("Severe Accident Risks: An Assessment for Five U.S. Nuclear Power Plants", 1991, by the Nuclear Regulatory Commission [NRC]) is an improvement on WASH-1400 and CRAC-II using the results of plant-specific Probabilistic Risk Assessments (PRAs). It determined that the current generation of nuclear power plants exceeds NRC safety goals.

"This study was a significant turning point in the use of risk-based concepts in the regulatory process and enabled the NRC to greatly improve its methods for assessing containment performance after core damage and accident progression." [1] However significant, and sometimes unrealistic, conservatisms were applied in this study [2] and it is (as of 2006) being replaced with a new state-of-the-art study entitled State-of-the-Art Reactor Consequence Analyses(see below).

Contents

Results

Results of NUREG-1150 (page 12-3):

  • Average probability of an individual early fatality per reactor per year:
  • Average probability of an individual latent cancer death per reactor per year:
  • NRC Safety Goal: 2 x 10-6
  • Typical PWR: 2 x 10-9
  • Typical BWR: 4 x 10-10

Using the data on pages 3-5, 3-7, 4-5 and 4-7 the probability of some U.S. plant having core damage is about 30% over 20 years - this number doesn't include containment failure, which is conservatively estimated at 8% for PWRs (page 3-13, weighting by the probabilities at the bottom) and 84% for BWRs (page 4-14, same technique). Assuming that the 104 current-design (2005) U.S. plants are similar to the two "typical" plants, the chance of a major release of radiation is under 8% every 20 years.

The typical BWR was the Peach Bottom plant and the typical PWR was the Surry plant.

Parts of NUREG-1150 were compiled by Sandia National Laboratories, which continues to do such research. [3]

NUREG-1420 contains the Kouts’ Committee peer review of NUREG-1150.

NRC disclaimer of CRAC-II and NUREG-1150

The NRC, which initially conducted the NUREG-1150 study, has issued the following statement:

"The U.S. Nuclear Regulatory Commission has devoted considerable research resources, both in the past and currently, to evaluating accidents and the possible public consequences of severe reactor accidents. The NRC's most recent studies have confirmed that early research into the topic led to extremely conservative consequence analyses that generate invalid results for attempting to quantify the possible effects of very unlikely severe accidents. In particular, these previous studies did not reflect current plant design, operation, accident management strategies or security enhancements. They often used unnecessarily conservative estimates or assumptions concerning possible damage to the reactor core, the possible radioactive contamination that could be released, and possible failures of the reactor vessel and containment buildings. These previous studies also failed to realistically model the effect of emergency preparedness. The NRC staff is currently pursuing a new, state-of-the-art assessment of possible severe accidents and their consequences."

See also

External links

References

Direct correspondence with the NRC via Scott Burnell ( srb3@nrc.gov )


Wikimedia Foundation. 2010.

Игры ⚽ Поможем написать реферат

Look at other dictionaries:

  • WASH-1400 — WASH 1400, The Reactor Safety Study was a report produced in 1975 for the Nuclear Regulatory Commission by a committee of specialists under Professor Norman Rasmussen. It is thus often referred to as the Rasmussen Report. The report is now… …   Wikipedia

  • CRAC-II — is both a computer code (entitled Calculation of Reactor Accident Consequences) and the 1982 report of the simulation results performed by Sandia National Laboratories for the Nuclear Regulatory Commission. The report is sometimes referred to as… …   Wikipedia

  • Nuclear meltdown — Three of the reactors at Fukushima I overheated, causing core meltdowns. This was compounded by hydrogen gas explosions and the venting of contaminated steam which released large amounts of radioactive material into the air.[1] …   Wikipedia

  • Norman Rasmussen — Norman Carl Rasmussen (* 12. November 1927 in Harrisburg (Pennsylvania); † 18. Juli 2003 in Concord (Massachusetts)) ist ein US amerikanischer Kernphysiker und Kerntechniker Norman Rasmussen Inhaltsverzeichnis …   Deutsch Wikipedia

  • WASH-740 — WASH 740, Theoretical Possibilities and Consequences of Major Accidents in Large Nuclear Power Plants (also known as The Brookhaven Report ) estimated maximum possible damage from a meltdown with no containment building at a large nuclear reactor …   Wikipedia

  • Nuclear safety in the United States — Nuclear safety in the U.S. is governed by federal regulations and continues to be studied by the Nuclear Regulatory Commission (NRC). The safety of nuclear plants and materials controlled by the U.S. government for research and weapons production …   Wikipedia

  • Nuclear and radiation accidents — This article is about nuclear and radiation accidents in general. For a list of military nuclear accidents, see List of military nuclear accidents. For a list of civilian nuclear accidents, see List of civilian nuclear accidents. For a discussion …   Wikipedia

  • Peach Bottom Nuclear Generating Station — Peach Bottom Atomic Power Station, a nuclear power plant, is located 50 miles southeast of Harrisburg in Peach Bottom Township, York County, Pennsylvania, on the Susquehanna River.The Philadelphia Electric Company (later shortened first to PECO… …   Wikipedia

  • Surry Nuclear Power Plant — The Surry nuclear power plant is located in Surry County in southeastern Virginia. The power station lies on an 840 acre (3.4 km²) site adjacent to the James River across from Jamestown, slightly upriver from Smithfield and Newport News. Surry is …   Wikipedia

  • Probabilistic risk assessment — (PRA) (or probabilistic safety assessment/analysis) is a systematic and comprehensive methodology to evaluate risks associated with a complex engineered technological entity (such as airliners or nuclear power plants).Risk in a PRA is defined as… …   Wikipedia

Share the article and excerpts

Direct link
Do a right-click on the link above
and select “Copy Link”