Your search keyword '"Spriggs GD"' showing total 4 results

1. Examining the effects of soil entrainment during nuclear cloud rise on fallout predictions using a multiscale atmospheric modeling framework.

Author

Lundquist KA, Arthur RS, Neuscamman S, Morris JP, Scullard CR, Cook AW, Wimer NG, Goldstein P, Spriggs GD, Glascoe LG, and Nasstrom JS

Subjects

Models, Theoretical, Weather, Aerosols analysis, Radioactive Fallout analysis, Radiation Monitoring methods

Abstract

Current operational models for nuclear cloud rise over land were developed and validated using observations from shallow-buried or surface detonations, where lofted soil quickly mixed with fission products from the detonation. These models poorly predict fallout from elevated detonations near the fallout-free height of burst (FFHOB), where interactions with the ground are limited and the mixing of fission products and lofted soil is incomplete. Fallout-free is a misnomer at this HOB, as fallout was observed in these cases, but was below the levels of concern, especially off-grounds of the nuclear test site. To correctly characterize and model fallout from detonations near the FFHOB, models must be developed which can capture the stratified nature of the particle and activity-size distributions within the cloud. Previously, it was shown that the Weather Research and Forecasting (WRF) model can accurately simulate nuclear cloud rise for airbursts with little to no ground interactions (Arthur et al., 2021). That work is expanded here by (1) using a radiation-hydrodynamics code to improve the fireball initialization in WRF, (2) further developing an aerosol package from WRF-Chem to simulate lofted soil, and (3) combining the WRF cloud rise simulations with the operational models used at the National Atmospheric Release Advisory Center (NARAC) for fallout modeling. Using this combination of codes, the Upshot-Knothole Grable detonation, which was just below the FFHOB, is simulated from seconds after detonation through cloud rise and fallout, and results are compared to historical test data. The results show improved prediction of dose rate and highlight the need to correctly characterize the entrainment of material into the cloud and the subsequent mixing of fission products with entrained material., Competing Interests: Declaration of Competing Interest The authors declare the following financial interests/personal relationships which may be considered as potential competing interests: Katherine Lundquist reports financial support was provided by National Nuclear Security Administration Office of Nuclear Incident Response. Joseph Morris reports was provided by National Nuclear Security Administration Office of Defense Nuclear Nonproliferation. Stephanie Neuscamman reports was provided by National Nuclear Security Administration Office of Nuclear Incident Response. Robert Arthur reports was provided by National Nuclear Security Administration Office of Nuclear Incident Response., (Copyright © 2023 Elsevier Ltd. All rights reserved.)

Published

2023

2. The reflection of a blast wave by a very intense explosion.

Author

Cook AW, Bauer JD, and Spriggs GD

Abstract

We demonstrate that the geometric similarity of Taylor's blast wave persists beyond reflection from an ideal surface. Upon impacting the surface, the spherical symmetry of the blast wave is lost but its cylindrical symmetry endures. As the flow acquires dependence on a second spatial dimension, an analytic solution of the Euler equations becomes elusive. However, the preservation of axisymmetry, geometric similarity and planar symmetry in the presence of a mirror-like surface causes all flow solutions to collapse when scaled by the height of burst (HOB) and the shock arrival time at the surface. The scaled blast volume for any yield, HOB and ambient air density follows a single universal trajectory for all scaled time, both before and after reflection., (© 2021 The Authors.)

Published

2021

3. Workshop Report on Atomic Bomb Dosimetry--Review of Dose Related Factors for the Evaluation of Exposures to Residual Radiation at Hiroshima and Nagasaki.

Author

Kerr GD, Egbert SD, Al-Nabulsi I, Bailiff IK, Beck HL, Belukha IG, Cockayne JE, Cullings HM, Eckerman KF, Granovskaya E, Grant EJ, Hoshi M, Kaul DC, Kryuchkov V, Mannis D, Ohtaki M, Otani K, Shinkarev S, Simon SL, Spriggs GD, Stepanenko VF, Stricklin D, Weiss JF, Weitz RL, Woda C, Worthington PR, Yamamoto K, and Young RW

Subjects

Beta Particles, Gamma Rays, Humans, Japan epidemiology, Luminescent Measurements, Radiation Monitoring, Radiometry methods, Soil, Survivors statistics & numerical data, Nuclear Warfare, Nuclear Weapons, Radiation Exposure statistics & numerical data

Abstract

Groups of Japanese and American scientists, supported by international collaborators, have worked for many years to ensure the accuracy of the radiation dosimetry used in studies of health effects in the Japanese atomic bomb survivors. Reliable dosimetric models and systems are especially critical to epidemiologic studies of this population because of their importance in the development of worldwide radiation protection standards. While dosimetry systems, such as Dosimetry System 1986 (DS86) and Dosimetry System 2002 (DS02), have improved, the research groups that developed them were unable to propose or confirm an additional contribution by residual radiation to the survivor's total body dose. In recognition of the need for an up-to-date review of residual radiation exposures in Hiroshima and Nagasaki, a half-day technical session was held for reports on newer studies at the 59 th Annual HPS Meeting in 2014 in Baltimore, MD. A day-and-a-half workshop was also held to provide time for detailed discussion of the newer studies and to evaluate their potential use in clarifying the residual radiation exposure to atomic bomb survivors at Hiroshima and Nagasaki. The process also involved a re-examination of very early surveys of radioisotope emissions from ground surfaces at Hiroshima and Nagasaki and early reports of health effects. New insights were reported on the potential contribution to residual radiation from neutron-activated radionuclides in the airburst's dust stem and pedestal and in unlofted soil, as well as from fission products and weapon debris from the nuclear cloud. However, disparate views remain concerning the actual residual radiation doses received by the atomic bomb survivors at different distances from the hypocenter. The workshop discussion indicated that measurements made using thermal luminescence and optically stimulated luminescence, like earlier measurements, especially in very thin layers of the samples, could be expanded to detect possible radiation exposures to beta particles and to determine their significance plus the extent of the various residual radiation areas at Hiroshima and Nagasaki. Other suggestions for future residual radiation studies are included in this workshop report.

Published

2015

4. Workshop report on atomic bomb dosimetry-residual radiation exposure: recent research and suggestions for future studies.

Author

Kerr GD, Egbert SD, Al-Nabulsi I, Beck HL, Cullings HM, Endo S, Hoshi M, Imanaka T, Kaul DC, Maruyama S, Reeves GI, Ruehm W, Sakaguchi A, Simon SL, Spriggs GD, Stram DO, Tonda T, Weiss JF, Weitz RL, and Young RW

Subjects

Cities statistics & numerical data, Humans, Japan, Life Expectancy, Radiation Monitoring, Radioactive Fallout analysis, Radioisotopes analysis, Radiometry, Risk, Spatio-Temporal Analysis, Survivors statistics & numerical data, Environmental Exposure statistics & numerical data, Nuclear Weapons statistics & numerical data, Radiobiology statistics & numerical data, Research Report

Abstract

There is a need for accurate dosimetry for studies of health effects in the Japanese atomic bomb survivors because of the important role that these studies play in worldwide radiation protection standards. International experts have developed dosimetry systems, such as the Dosimetry System 2002 (DS02), which assess the initial radiation exposure to gamma rays and neutrons but only briefly consider the possibility of some minimal contribution to the total body dose by residual radiation exposure. In recognition of the need for an up-to-date review of the topic of residual radiation exposure in Hiroshima and Nagasaki, recently reported studies were reviewed at a technical session at the 57th Annual Meeting of the Health Physics Society in Sacramento, California, 22-26 July 2012. A one-day workshop was also held to provide time for detailed discussion of these newer studies and to evaluate their potential use in clarifying the residual radiation exposures to the atomic-bomb survivors at Hiroshima and Nagasaki. Suggestions for possible future studies are also included in this workshop report.

Published

2013