The analytical solution to the multigroup diffusion equation in one-dimensional plane, cylindrical and spherical geometries

B. D. Ganapol

The analytical solution to the multigroup diffusion equation in one-dimensional plane, cylindrical and spherical geometries

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Abstract

By viewing the multigroup diffusion equation in plane, cylindrical and spherical geometries as matrix equations, standard solution techniques for second order ordinary differential equations can be applied to find analytical solutions. By adjusting the boundary conditions appropriately, a solution with the simplicity of the one-group case in the three geometries is found. Diffusion in cylindrical geometry is used as a demonstration of critical and fixed source problems. No special considerations are required when fission is present or not in any region. The solution is new, and, because of its generality, completely eliminates the need for numerical multigroup solutions of the diffusion equation in heterogeneous plane, spherical and cylindrical geometries.

Original language	English (US)
Title of host publication	Joint International Topical Meeting on Mathematics and Computations and Supercomputing in Nuclear Applications, M and C + SNA 2007
State	Published - 2007
Event	Joint International Topical Meeting on Mathematics and Computations and Supercomputing in Nuclear Applications, M and C + SNA 2007 - Monterey, CA, United States Duration: Apr 15 2007 → Apr 19 2007

Publication series

Name	Joint International Topical Meeting on Mathematics and Computations and Supercomputing in Nuclear Applications, M and C + SNA 2007

Other

Other	Joint International Topical Meeting on Mathematics and Computations and Supercomputing in Nuclear Applications, M and C + SNA 2007
Country/Territory	United States
City	Monterey, CA
Period	4/15/07 → 4/19/07

ASJC Scopus subject areas

General Mathematics
Nuclear and High Energy Physics

Cite this

Ganapol, B. D. (2007). The analytical solution to the multigroup diffusion equation in one-dimensional plane, cylindrical and spherical geometries. In Joint International Topical Meeting on Mathematics and Computations and Supercomputing in Nuclear Applications, M and C + SNA 2007 (Joint International Topical Meeting on Mathematics and Computations and Supercomputing in Nuclear Applications, M and C + SNA 2007).

The analytical solution to the multigroup diffusion equation in one-dimensional plane, cylindrical and spherical geometries. / Ganapol, B. D.
Joint International Topical Meeting on Mathematics and Computations and Supercomputing in Nuclear Applications, M and C + SNA 2007. 2007. (Joint International Topical Meeting on Mathematics and Computations and Supercomputing in Nuclear Applications, M and C + SNA 2007).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Ganapol, BD 2007, The analytical solution to the multigroup diffusion equation in one-dimensional plane, cylindrical and spherical geometries. in Joint International Topical Meeting on Mathematics and Computations and Supercomputing in Nuclear Applications, M and C + SNA 2007. Joint International Topical Meeting on Mathematics and Computations and Supercomputing in Nuclear Applications, M and C + SNA 2007, Joint International Topical Meeting on Mathematics and Computations and Supercomputing in Nuclear Applications, M and C + SNA 2007, Monterey, CA, United States, 4/15/07.

Ganapol BD. The analytical solution to the multigroup diffusion equation in one-dimensional plane, cylindrical and spherical geometries. In Joint International Topical Meeting on Mathematics and Computations and Supercomputing in Nuclear Applications, M and C + SNA 2007. 2007. (Joint International Topical Meeting on Mathematics and Computations and Supercomputing in Nuclear Applications, M and C + SNA 2007).

Ganapol, B. D. / The analytical solution to the multigroup diffusion equation in one-dimensional plane, cylindrical and spherical geometries. Joint International Topical Meeting on Mathematics and Computations and Supercomputing in Nuclear Applications, M and C + SNA 2007. 2007. (Joint International Topical Meeting on Mathematics and Computations and Supercomputing in Nuclear Applications, M and C + SNA 2007).

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The analytical solution to the multigroup diffusion equation in one-dimensional plane, cylindrical and spherical geometries

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