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Numerical Integration of the Transport Equation For Infinite Homogeneous Media

Technical Report:

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Abstract

The transport equation for neutrons in infinite homogeneous media is solved by direct numerical integration. Accounts are taken to the anisotropy and the inelastic scattering. The integration has been performed by means of the trapezoidal rule and the length of the energy intervals are constant in lethargy scale. The machine used is a Ferranti Mercury computer. Results are given for water, heavy water, aluminium water mixture and iron-aluminium-water mixture.
Authors:
Publication Date:
Jan 15, 1962
Product Type:
Technical Report
Report Number:
AE-63
Resource Relation:
Other Information: 14 refs., 5 figs.
Subject:
73 NUCLEAR PHYSICS AND RADIATION PHYSICS; NEUTRON TRANSPORT; ANISOTROPY; INELASTIC SCATTERING; WATER; HEAVY WATER; ALUMINIUM; IRON; NUMERICAL SOLUTION
OSTI ID:
20930902
Research Organizations:
AB Atomenergi, Nykoeping (Sweden)
Country of Origin:
Sweden
Language:
English
Other Identifying Numbers:
TRN: SE0708318
Availability:
Commercial reproduction prohibited; OSTI as DE20930902
Submitting Site:
SWDN
Size:
24 pages
Announcement Date:
Oct 01, 2007

Technical Report:

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Citation Formats

Haakansson, Rune. Numerical Integration of the Transport Equation For Infinite Homogeneous Media. Sweden: N. p., 1962. Web.
Haakansson, Rune. Numerical Integration of the Transport Equation For Infinite Homogeneous Media. Sweden.
Haakansson, Rune. 1962. "Numerical Integration of the Transport Equation For Infinite Homogeneous Media." Sweden.
@misc{etde_20930902,
title = {Numerical Integration of the Transport Equation For Infinite Homogeneous Media}
 author = {Haakansson, Rune}
 abstractNote = {The transport equation for neutrons in infinite homogeneous media is solved by direct numerical integration. Accounts are taken to the anisotropy and the inelastic scattering. The integration has been performed by means of the trapezoidal rule and the length of the energy intervals are constant in lethargy scale. The machine used is a Ferranti Mercury computer. Results are given for water, heavy water, aluminium water mixture and iron-aluminium-water mixture.}
 place = {Sweden}
 year = {1962}
 month = {Jan}
 }