Examination of natural background sources of radioactive noble gases with CTBT significance

Johnson, Christine Michelle

24 March 2014

For verifying the Comprehensive Nuclear-Test-Ban Treaty (CTBT), different monitoring technologies (seismic, infrasound, hydroacoustic, and radionuclide detection) are combined. The monitoring of radioactive xenon isotopes is one of the principal methods for the determination of the nuclear nature of an explosion. After an underground nuclear detonation the radioxenon isotopes [superscript 131m]Xe, [superscript 133m]Xe, ¹³³Xe, and ¹³⁵Xe, and the radioargon isotope ³⁷Ar have an increased probability of detection. In order to effectively utilize these isotopes as indicators of nuclear testing, an accurate background must be calculated. This work examines the fission products produced by spontaneous fission of ²³⁸U, which is naturally present in the earth's crust, and of ²⁴⁰Pu which is present as a product of nuclear weapons and nuclear reactor accidents. These calculations provide a range of production values for radioxenon in a variety of geologies as well as at various historic locations. The activation of geologic calcium and potassium by cosmic ray neutrons is considered for a variety of properties effecting the neutron flux. These calculations provide a range of radioargon production values across a selection of geologies. The impact of latitude and the solar activity cycle are also examined. In order to examine the transport of the isotopes through soil a model of the transport of xenon and argon through various geologies was developed. This model incorporates both the introduction of xenon from the atmosphere and that produced by spontaneous fission. This is then considered in light of what might be observed in an on-site inspection (OSI). What this work finds is that the radioxenon natural background does exceed detection limits in particular locations and geologies, however, a careful examination of the location and the ideal sampling depths can minimize the impact during an OSI. Radioargon, however, has a much larger natural background at shallow depths which are the realm of OSI sampling. Should radioargon sampling be used in an OSI the sampling time is crucial in distinguishing a nuclear explosion from the natural background. In some scenarios the natural background production of radioargon may be sufficient to interfere with the detection of an underground nuclear weapon test. This information may be beneficial in the development of future OSI noble gas monitoring techniques. / text

Radioxenon

Radioargon

On-Site inspection

CTBT

Background radiation

Characterization of sources of radioargon in a research reactor

Fay, Alexander Gary

27 June 2014

On Site Inspection is the final measure for verifying compliance of Member States with the Comprehensive Nuclear-Test-Ban Treaty. In order to enable the use of ³⁷Ar as a radiotracer for On Site Inspection, the sources of radioargon background must be characterized and quantified. A radiation transport model of the University of Texas at Austin Nuclear Engineering Teaching Laboratory (NETL) TRIGA reactor was developed to simulate the neutron flux in various regions of the reactor. An activation and depletion code was written to calculate production of ³⁷Ar in the facility based on the results of the radiation transport model. Results showed ³⁷Ar production rates of (6.567±0.31)×10² Bq·kWh⁻¹ in the re- actor pool and the air-filled irradiation facilities, and (5.811±0.40)×10⁴ Bq·kWh⁻¹ in the biological shield. Although ⁴⁰Ca activation in the biological shield was found to dominate the total radioargon inventory, the contribution to the effluent release rate would be diminished by the immobility of Ar generated in the concrete matrix and the long diffusion path of mobile radioargon. Diffusion of radioargon out of the reactor pool was found to limit the release rate but would not significantly affect the integrated release activity. The integrated ³⁷Ar release for an 8 hour operation at 950 kW was calculated to be (1.05±0.8)×10⁷ Bq, with pool emissions continuing for days and biological shield emissions continuing for tens of days following the operation. Sensitivity analyses showed that estimates for the time-dependent concentrations of ³⁷Ar in the NETL TRIGA could be made with the calculated buildup coefficients or through analytical solution of the activation equations for only (n,[gamma]) reactions in stable argon or (n,[alpha]) reactions in ⁴⁰Ca. Analyses also indicated that, for a generalized system, the integrated thermal flux can be used to calculate the buildup due to air activation and the integrated fast flux can be used to calculate the buildup due to calcium activation. Based on the results of the NETL TRIGA, an estimate of the global research reactor source term for ³⁷Ar and an estimate of ground-level ³⁷Ar concentrations near a facility were produced. / text

Radioargon

Research reactor

Effluent

Noble gas

CTBT

OSI

On Site Inspection

Subsurface radioactive gas transport and release studies using the UTEX model

Lowrey, Justin David

15 October 2013

Underground nuclear explosions (UNEs) produce anthropogenic isotopes that provide the only definitive means by which to determine whether a nuclear explosion has taken place. Verification of a suspected test under the Comprehensive Nuclear-Test-Ban Treaty (CTBT) includes both on-site and atmospheric sampling of specific noble gas radioisotopes for analysis of origin. It is well-established that the processes of subsurface transport can affect the rate at which such gases will reach the surface. However, the relative abundance of anthropogenic isotopes reaching the surface following transport is currently assumed to rely solely on their direct fission yield, decay rate, and their production from precursor decay, making no account for the influence of transport processes on isotopic ratios. The Underground Transport of Environmental Xenon (UTEX) model has been developed to examine the possible effects of subsurface transport on radioxenon isotopic ratios as well as to consider a number of on-site inspection-related applications. In this work, background on the UTEX model's development, evolution and vetting is presented. This is followed by the characterization and analysis of a number of applications of the model for consideration of CTBT-relevant scenarios. Specifically, the UTEX model's capability to analyze CTBT on-site inspection concept of operations is demonstrated. This is accomplished through an examination of generalized UNE source terms, geological stratigraphy, UNE impact on local geology, natural soil-gas radionuclide backgrounds, atmospheric infiltration, and sampling methodology. It is shown that the processes driving noble gas transport through geological media can significantly skew the ratios of key radioxenon isotopes that are used to help verify whether or not a well-contained underground test has taken place. This result emphasizes the need for a broader understanding of radionuclide signatures used for CTBT verification purposes and the mechanisms that can alter them. / text

Radioactive gas

Underground nuclear explosions

UNEs

Anthropogenic isotopes

Comprehensive Nuclear-Test-Ban Treaty

CTBT

Noble gas

UTEX model

On-site inspection

OSI

Soil and Water Conservation with an Emphasis on Stormwater Management, Public Involvement, Erosion and Sediment Control, and Geographic Information Systems: An Internship with Warren County Soil and Water Conservation District

Botschner, Caitlin Jean

09 September 2008

No description available.

Environmental Science

best management practices

BMP

construction site inspection

Geographic Information Systems

GIS

public involvement

rain garden

sediment and erosion control

soil and water conservation

stormwater

stormwater basin

stream setback

Warren

Právní aspekty místního šetření Úřadu pro ochranu hospodářské soutěže a Evropské komise / Legal aspects of on-site inspection of the Office for the Protection of Competition and the European Commission

Krempl, Adam

January 2015

The Master's thesis describes and analyses the legislation of the on-site inspections conducted by the Czech Office for the Protection of Competition and the European Commission. The competition authorities may investigate business and other premises in order to find evidence proving the violation of competition rules. The on- site inspection or so called dawn raid is a main investigative and the most effective tool of the competition authorities in proceedings concerning the possible breach of competition law. The main aim of this thesis is to provide a detailed description of the relevant legislation and case law, to highlight any legal issues connected with on-site inspections and offer solutions of these issues, and finally to examine guarantees of the fundamental rights of the undertakings during the inspection. The thesis consists of eight chapters. Chapter One and Two are introductory and describe basic terms connected with the competition law. In Chapter Three the thesis deals with the scope of relevant Czech and EU legislation. Chapter Four is concerned with the guarantees of fundamental rights within on-site inspections. This chapter comprehensively describes and analyses relevant decisional practice of the European Court of Human Rights, Czech and EU courts, in which those courts...