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{{Multiple issues|refimprove =October 2009|context =October 2009}}
 
In a [[nuclear reactor]], [[critical mass|criticality]] is achieved when the rate of neutron production is equal to the rate of neutron losses, including both neutron absorption and neutron leakage. Geometric buckling is a measure of neutron leakage, while material buckling is a measure of neutron production minus absorption. Thus, in the simplest case of a bare, homogeneous, [[steady state reactor]], the geometric and material buckling must be equal.
 
==Derivation==
 
Both buckling terms are derived from the [[diffusion equation]]:<ref name=Adams>{{cite book |last=Adams |first=Marvin L. |title=Introduction to Nuclear Reactor Theory |year=2009 |publisher=Texas A&M University}}</ref>
 
<math>-D \nabla^2 \Phi + \Sigma_a \Phi = \frac{1}{k} \nu \Sigma_f \Phi</math>.
 
where k is the criticality [[eigenvalue]], <math>\nu</math> is the neutrons per fission, <math>\Sigma_f</math> is the [[macroscopic]] [[cross section (physics)|cross section]] for [[Nuclear fission|fission]], and from [[diffusion theory]], the [[diffusion coefficient]] is defined as:
 
<math>D=\frac{1}{3\Sigma_{\mathrm{tr}}}</math>.
 
In addition, the [[diffusion length]] is defined as:
 
<math>L=\sqrt{\frac{D}{\Sigma_a}}</math>.
 
Rearranging the terms, the diffusion equation becomes:
 
<math>-\frac{\nabla^2 \Phi}{\Phi} = \frac{\frac{k_{\infty}}{k}-1}{L^2} = {B_g}^2</math>.
 
The left side is the material buckling and the right side of the equation is the geometric buckling.
 
== Geometric Buckling ==
 
The geometric buckling is an [[eigenvalue problem]] that can be solved for different [[Geometry|geometries]].  The table below lists the geometric buckling for some common geometries.
 
{| class="wikitable"
|-
! Geometry
! Geometric Buckling B<sub>g</sub><sup>2</sup>
|-
| Sphere of radius R
| <math>\left( \frac{\pi}{R} \right)^2</math>
|-
| Cylinder of height H and radius R
| <math>\left( \frac{\pi}{H} \right)^2 + \left( \frac{2.405}{R} \right)^2</math>
|-
| Parallelepiped with side lengths a, b and c
| <math>\left( \frac{\pi}{a} \right)^2 + \left( \frac{\pi}{b} \right)^2 + \left( \frac{\pi}{c} \right)^2</math>
|}
 
Since the diffusion theory calculations overpredict the [[critical dimensions]], an [[extrapolation distance]] δ must be subtracted to obtain an estimate of actual values. The buckling could also be calculated using actual dimensions and extrapolated distances using the following table.
 
Expressions for Geometric Buckling in Terms of Actual Dimensions and Extrapolated Distances.<ref name="Knief">{{cite book |last=Knief |first=Ronald A. |title= Nuclear Criticality Safety: Theory and Practice |year=1985 |publisher=[[American Nuclear Society]]
|isbn=0-89448-028-6 |pages=236 |url=http://www.new.ans.org/store/i_300020 |accessdate=15 May 2011 |format=Softcover}}</ref>
 
{| class="wikitable"
|-
! Geometry
! Geometric Buckling B<sub>g</sub><sup>2</sup>
|-
| Sphere of radius R
| <math>\left( \frac{\pi}{R+\delta} \right)^2</math>
|-
| Cylinder of height H and radius R
| <math>\left( \frac{\pi}{H+2\delta} \right)^2 + \left( \frac{2.405}{R+\delta} \right)^2</math>
|-
| Parallelepiped with side lengths a, b and c
| <math>\left( \frac{\pi}{a+2\delta} \right)^2 + \left( \frac{\pi}{b+2\delta} \right)^2 + \left( \frac{\pi}{c+2\delta} \right)^2</math>
|}
 
== Material Buckling ==
Materials buckling is the buckling of a [[homogeneous]] configuration with respect to material properties only. If we redefine <math>k_{\infty}</math> in terms of purely material properties (and assume the fundamental mode), we have:
 
<math>k_{\infty} = \frac{\nu \Sigma_f}{\Sigma_a}</math>.
 
As stated previously, the geometric buckling is defined as:
 
<math>{B_g}^2 = \frac{\frac{k_{\infty}}{k} - 1}{L^2} = \frac{\frac{1}{k} \nu \Sigma_f - \Sigma_a}{D}</math>.
 
Solving for k (in the fundamental mode),
 
<math>k = k_{\mathrm{eff}} = \frac{\nu \Sigma_f}{\Sigma_a + D {B_g}^2}</math>;
 
thus,
 
<math>k = \frac{\frac{\nu \Sigma_f}{\Sigma_a}}{1 + L^2 {B_g}^2}</math>.
 
Assuming the reactor is in a critical state (k = 1),
 
<math>{B_g}^2 = \frac{\nu \Sigma_f - \Sigma_a}{D}</math>.
 
This expression is in purely material properties; therefore, this is called the materials buckling:
 
<math>{B_m}^2 = \frac{\nu \Sigma_f - \Sigma_a}{D}</math>.
 
== Critical Reactor Dimensions ==
By equating the geometric and material buckling, one can determine the critical dimensions of a one region nuclear reactor.
 
==References==
 
{{reflist}}
 
{{DEFAULTSORT:Geometric And Material Buckling}}
[[Category:Nuclear technology]]

Revision as of 19:17, 28 July 2013

Template:Multiple issues

In a nuclear reactor, criticality is achieved when the rate of neutron production is equal to the rate of neutron losses, including both neutron absorption and neutron leakage. Geometric buckling is a measure of neutron leakage, while material buckling is a measure of neutron production minus absorption. Thus, in the simplest case of a bare, homogeneous, steady state reactor, the geometric and material buckling must be equal.

Derivation

Both buckling terms are derived from the diffusion equation:[1]

D2Φ+ΣaΦ=1kνΣfΦ.

where k is the criticality eigenvalue, ν is the neutrons per fission, Σf is the macroscopic cross section for fission, and from diffusion theory, the diffusion coefficient is defined as:

D=13Σtr.

In addition, the diffusion length is defined as:

L=DΣa.

Rearranging the terms, the diffusion equation becomes:

2ΦΦ=kk1L2=Bg2.

The left side is the material buckling and the right side of the equation is the geometric buckling.

Geometric Buckling

The geometric buckling is an eigenvalue problem that can be solved for different geometries. The table below lists the geometric buckling for some common geometries.

Geometry Geometric Buckling Bg2
Sphere of radius R (πR)2
Cylinder of height H and radius R (πH)2+(2.405R)2
Parallelepiped with side lengths a, b and c (πa)2+(πb)2+(πc)2

Since the diffusion theory calculations overpredict the critical dimensions, an extrapolation distance δ must be subtracted to obtain an estimate of actual values. The buckling could also be calculated using actual dimensions and extrapolated distances using the following table.

Expressions for Geometric Buckling in Terms of Actual Dimensions and Extrapolated Distances.[2]

Geometry Geometric Buckling Bg2
Sphere of radius R (πR+δ)2
Cylinder of height H and radius R (πH+2δ)2+(2.405R+δ)2
Parallelepiped with side lengths a, b and c (πa+2δ)2+(πb+2δ)2+(πc+2δ)2

Material Buckling

Materials buckling is the buckling of a homogeneous configuration with respect to material properties only. If we redefine k in terms of purely material properties (and assume the fundamental mode), we have:

k=νΣfΣa.

As stated previously, the geometric buckling is defined as:

Bg2=kk1L2=1kνΣfΣaD.

Solving for k (in the fundamental mode),

k=keff=νΣfΣa+DBg2;

thus,

k=νΣfΣa1+L2Bg2.

Assuming the reactor is in a critical state (k = 1),

Bg2=νΣfΣaD.

This expression is in purely material properties; therefore, this is called the materials buckling:

Bm2=νΣfΣaD.

Critical Reactor Dimensions

By equating the geometric and material buckling, one can determine the critical dimensions of a one region nuclear reactor.

References

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