Measurement technology for safeguards and materials control : proceedings from American Nuclear Society Topical Meeting held November 26-30, 1979, Kiawah Island, South Carolina /

Issued June 1980.

DOE facilities solar design handbook.

"DOE/AD-00006/1."

Proceedings of the Japan-U.S. Seminar on HTGR Safety Technology, September 15-16, 1977, Brookhaven National Laboratory, Upton, N. Y. /

"NUREG/CR-0358, BNL-NUREG-50689, NRC-8"

Nondestructive detection, identification, and analysis of fissionable materials /

"Report written: January 1967; Report distributed: November 20, 1967."

Elastic pion-nucleus scattering for studies of the nuclear surface /

"Issued : June 1972"

Conference on waste processing; meeting of U. S. Atomic Energy Commission Waste Processing Committee, March 27-28, 1950. Section 1. Brookhaven National Laboratory waste problems. J. H. Hayner, permanent chairman, B. Manowitz, host chairman.

On cover: Brookhaven conference report. B. N. L. Associated Universities, Inc. under contract with U. S. Atomic Energy Commission.

A hydrologic analysis of postulated liquid-waste releases : Brookhaven National Laboratory, Suffolk County, New York /

Mode of access: Internet.

Argonne National Laboratory.

Mode of access: Internet.

Report on labor dispute at Oak Ridge National Laboratory. Message from the President of the United States transmitting Report to Congress concerning the labor dispute which recently existed at the Oak Ridge National Laboratory.

Mode of access: Internet.

Proceedings of the Third Japan-U.S. Seminar on HTGR Safety Technology, June 2-3, 1982, Brookhaven National Laboratory, Upton, New York 11973 /

Includes bibliographical references.

Department of Energy National Laboratory Cooperative Research Initiatives Act : hearings before the Subcommittee on Energy Research and Development of the Committee on Energy and Natural Resources, United States Senate, One Hundredth Congress, first session on S. 1480 ... September 15 and 17, 1987.

Shipping list no.: 88-374-P (pt. 1).

Simulation of free surface flows in a distributed memory environment

A parallel technique, for a distributed memory machine, based on domain decomposition for solving the Navier-Stokes equations in cartesian and cylindrical coordinates in two dimensions with free surfaces is described. It is based on the code by Tome and McKee (J. Comp. Phys. 110 (1994) 171-186) and Tome (Ph.D. Thesis, University of Strathclyde, Glasgow, 1993) which in turn is based on the SMAC method by Amsden and Harlow (Report LA-4370, Los Alamos Scientific Laboratory, 1971), which solves the Navier-Stokes equations in three steps: the momentum and Poisson equations and particle movement, These equations are discretized by explicit and 5-point finite differences. The parallelization is performed by splitting the computation domain into vertical panels and assigning each of these panels to a processor. All the computation can then be performed using nearest neighbour communication. Test runs comparing the performance of the parallel with the serial code, and a discussion of the load balancing question are presented. PVM is used for communication between processes. (C) 1999 Elsevier B.V. B.V. All rights reserved.

Implementation of monotonic higher order upwind scheme in KIVA 4

KIVA is a FORTRAN code developed by Los Alamos national lab to simulate complete engine cycle. KIVA is a flow solver code which is used to perform calculation of properties in a fluid flow field. It involves using various numerical schemes and methods to solve the Navier-Stokes equation. This project involves improving the accuracy of one such scheme by upgrading it to a higher order scheme. The numerical scheme to be modified is used in the critical final stage calculation called as rezoning phase. The primitive objective of this project is to implement a higher order numerical scheme, to validate and verify that the new scheme is better than the existing scheme. The latest version of the KIVA family (KIVA 4) is used for implementing the higher order scheme to support handling the unstructured mesh. The code is validated using the traditional shock tube problem and the results are verified to be more accurate than the existing schemes in reference with the analytical result. The convection test is performed to compare the computational accuracy on convective transfer; it is found that the new scheme has less numerical diffusion compared to the existing schemes. A four valve pentroof engine, an example case of KIVA package is used as application to ensure the stability of the scheme in practical application. The results are compared for the temperature profile. In spite of all the positive results, the numerical scheme implemented has a downside of consuming more CPU time for the computational analysis. The detailed comparison is provided. However, in an overview, the implementation of the higher order scheme in the latest code KIVA 4 is verified to be successful and it gives better results than the existing scheme which satisfies the objective of this project.

Investigation of proportional counters /

"LADC 148"

Transport phenomena in a completely ionized gas in presence of a magnetic field /

Work performed at Los Alamos Scientific Laboratory.