IAEA1411 NAAPRO. (Abstract last modified 08-AUG-2004)
1.
NAME OR DESIGNATION OF PROGRAM - NAAPRO. 2.
COMPUTER FOR WHICH PROGRAM IS DESIGNED AND OTHER MACHINE VERSION PACKAGES AVAILABLE -
To request or retrieve programs click on the one of the active versions below.
A password and special authorization is required. Explanation of the status codes.
Machines used:
Package-ID Orig.Computer Test Computer
IAEA1411/03 PC Windows
3.
DESCRIPTION OF PROGRAM OR FUNCTION - The code predicts the results and main characteristics (detection limits, determination limits, measurement limits and relative precision of the analysis) of neutron activation analysis (instrumental and radiochemical). Gamma-ray dose rates for different points of time after sample irradiation and input count rate of the spectrometry system are also predicted. The code uses standard Windows user interface and extensive graphical tools for the visualization of the spectrometer characteristics (efficiency, response and background) and simulated spectrum. Optimization part is not included in the current version of the code. 4.
METHODS - The code simulates gamma-ray spectrum of activation products for the specified analysis conditions. These are analysis time mode, analyzed sample mass and elemental composition, characteristics of irradiating neutron flux and irradiation conditions, gamma-spectrometry measurement geometry and background conditions, as well as detector and spectrometry system parameters. During calculation of gamma-ray yields of activation products the burnup and buildup of both radioactive and stable isotopes are taken into account. 5.
RESTRICTIONS ON THE COMPLEXITY OF THE PROBLEM - Neutron self-shielding and gamma-ray self-absorption effects are neglected. Epithermal activation is calculated using infinite dilution resonance integrals with minimum energy 0.1 eV and 0.55 eV for irradiation without and with Cd shielding respectively. It is assumed that radiochemical separation is carried out just after the sample irradiation and it takes negligible time. The detector response is simulated assuming point source at the detector axis, neglecting by pile-up and true-coincidence summing effects, using zero-dead-time approximation and simplified backscatter-peak model. 6.
TYPICAL RUNING TIME - The execution time varies from less than 1 second (single element sample) to approximately 60 seconds (multi-element sample) when CPU Pentium 1 GHz is used. 7.
UNUSUAL FEATURES - The code can be used for research as well as for educational purposes. 8.
RELATED OR AUXILIARY PROGRAMS - MCNP code was used for generating detector responses. PREPRO-2000 and FCONV programs were used at the preparation of the program nuclear databases. A special program was developed for viewing, editing and updating of the program databases (not included into the present program package). 9.
STATUS 10.
REFERENCES - 11.
HARDWARE REQUIREMENTS - RAM 16 MB, program installation requires 21 MB free hard disk space, recommended CPU - Pentium and compatible, frequency - 500 MHz and more. 12.
PROGRAMMING LANGUAGE -IAEA1411/03: C++ 13.
SOFTWARE REQUIREMENTS - Windows 9x, 2000, XP. 14.
OTHER PROGRAMMING OR OPERATING INFORMATION OR RESTRICTIONS - 15.
NAME AND ESTABLISHMENT OF AUTHORS - 16.
MATERIAL AVAILABLE -IAEA1411/03: 17.
CATEGORIES - Keywords: ACTIVATION ANALYSIS, GAMMA RAY, NEUTRON
Program-name Package-ID Status
NAAPRO IAEA1411/01 Obsolete
NAAPRO IAEA1411/02 Obsolete
NAAPRO IAEA1411/03 Tested
IAEA1411/03:
DESCRIPTION -
This version corrects some minor bugs of version 02.
IAEA1411/01: 24-MAY-2004 Obsolete
IAEA1411/02: 13-OCT-2005 Obsolete
IAEA1411/03: 08-AUG-2004 Tested at NEADB
- V.K.Basenko, A.N.Berlizov, I.A.Malyuk, V.V.Tryshyn:
NAAPRO: A Code for Predicting Results and Performance of Neutron Activation Analysis, The Sixth International Conference on Methods and Applications of Radioanalytical Chemistry - MARC VI, Kailua-Kona, Hawaii, USA, April 7-11, 2003, Book of Abstracts, p.71; to be published in Jour. Rad. Nucl. Chem.
IAEA1411/03:
- V.K.Basenko, A.N.Berlizov, R.H.Filby, I.A.Malyuk, V.V.Tryshyn:
NAAPRO (Neutron Activation Analysis PRognosis and Optimization) Version 01.beta
User's Guide
- V.K.Basenko, A.N.Berlizov, R.H.Filby, I.A.Malyuk, V.V.Tryshyn:
NAAPRO (Neutron Activation Analysis PRognosis and Optimization) Version 01.beta
Model Description
This code was developed in the Institute for Nuclear Research of the National Academy of Sciences of Ukraine in collaboration with Washington State University under the project #Uzb-26(J), sponsored by the United States Government through the Science and Technology Center in Ukraine.
Dr. Andriy Berlizov, Dr. Vladyslav Basenko
Institute for Nuclear Research
National Academy of Sciences of Ukraine
47 Prospekt Nauki, MSP 03680
Kyiv, UKRAINE
Prof. Royston H. Filby,
Washington State University
Department of Chemistry
P.O.Box 644630, Pullman, WA, USA
NAA.AVI Animation file
NAAPRO.exe Executable
NAAPRO-V01b_Model_Description.pdf Documentation
NAAPRO-V01b_User_Guide.pdf Documentation
binary Libraries
Tests input files
Tests output files
- D. Depletion, Fuel Management, Cost Analysis, and Power Plant Economics
Home - About Us - Work Areas - Data Bank - Publications - Press Room - List of acronyms - Search