Method of quantum characteristics: Difference between revisions

Revision as of 01:50, 26 October 2013

The six-factor formula is used in nuclear engineering to determine the multiplication of a nuclear chain reaction in a non-infinite medium. The formula is^[1]

k = η f p ϵ P_{F N L} P_{T N L}

Symbol	Name	Meaning	Formula	Typical Thermal Reactor Value
$η$	Thermal Fission Factor (Eta)	The number of fission neutrons produced per absorption in the fuel.	$η = \frac{ν σ_{f}^{F}}{σ_{a}^{F}}$	1.65
$f$	The thermal utilization factor	Probability that a neutron that gets absorbed does so in the fuel material.	$f = \frac{Σ_{a}^{F}}{Σ_{a}}$	0.71
$p$	The resonance escape probability	Fraction of fission neutrons that manage to slow down from fission to thermal energies without being absorbed.	$p \approx e x p (- \frac{\sum_{i = 1}^{N} N_{i} I_{r, A, i}}{{(\overline{ξ} Σ_{p})}_{m o d}})$	0.87
$ϵ$	The fast fission factor (Epsilon)	$\frac{total number of fission neutrons}{number of fission neutrons from just thermal fissions}$	$ϵ \approx 1 + \frac{1 - p}{p} \frac{u_{f} ν_{f} P_{F A F}}{f ν_{t} P_{T A F} P_{T N L}}$	1.02
$P_{F N L}$	The fast non-leakage probability	The probability that a fast neutron will not leak out of the system.	$P_{F N L} \approx e x p (- {B_{g}}^{2} τ_{t h})$	0.97
$P_{T N L}$	The thermal non-leakage probability	The probability that a thermal neutron will not leak out of the system.	$P_{T N L} \approx \frac{1}{1 + {L_{t h}}^{2} {B_{g}}^{2}}$	0.99

The symbols are defined as:^[2]

$ν$ , $ν_{f}$ and $ν_{t}$ are the average number of neutrons produced per fission in the medium (2.43 for Uranium-235).
$σ_{f}^{F}$ and $σ_{a}^{F}$ are the microscopic fission and absorption cross sections for fuel, respectively.
$Σ_{a}^{F}$ and $Σ_{a}$ are the macroscopic absorption cross sections in fuel and in total, respectively.
$N_{i}$ is the number density of atoms of a specific nuclide.
$I_{r, A, i}$ is the resonance integral for absorption of a specific nuclide.
- $I_{r, A, i} = \int_{E_{t h}}^{E_{0}} d E^{'} \frac{Σ_{p}^{m o d}}{Σ_{t} (E^{'})} \frac{σ_{a}^{i} (E^{'})}{E^{'}}$ .
$\overline{ξ}$ (often referred to as worm-bar or squigma-bar) is the average lethargy gain per scattering event.
- Lethargy is defined as decrease in neutron energy.
$u_{f}$ (fast utilization) is the probability that a fast neutron is absorbed in fuel.
$P_{F A F}$ is the probability that a fast neutron absorption in fuel causes fission.
$P_{T A F}$ is the probability that a thermal neutron absorption in fuel causes fission.
${B_{g}}^{2}$ is the geometric buckling.
${L_{t h}}^{2}$ is the diffusion length of thermal neutrons.
- ${L_{t h}}^{2} = \frac{D}{Σ_{a, t h}}$ .
$τ_{t h}$ is the age to thermal.
- $τ = \int_{E_{t h}}^{E^{'}} d E^{″} \frac{1}{E^{″}} \frac{D (E^{″})}{\overline{ξ} [D (E^{″}) {B_{g}}^{2} + Σ_{t} (E^{'})]}$ .
- $τ_{t h}$ is the evaluation of $τ$ where $E^{'}$ is the energy of the neutron at birth.

Multiplication

The multiplication factor, k, is defined as (see Nuclear chain reaction):

k = \frac{number of neutrons in one generation}{number of neutrons in preceding generation}

If k is greater than 1, the chain reaction is supercritical, and the neutron population will grow exponentially.
If k is less than 1, the chain reaction is subcritical, and the neutron population will exponentially decay.
If k = 1, the chain reaction is critical and the neutron population will remain constant.

References

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+The six-factor formula is used in [[nuclear engineering]] to determine the multiplication of a [[nuclear chain reaction]] in a non-infinite medium. The formula is<ref name=Duderstadt>{{cite book |last=Duderstadt |first=James |coauthors=Hamilton, Louis |title=Nuclear Reactor Analysis |year=1976 |publisher=John Wiley & Sons, Inc |isbn=0-471-22363-8 }}</ref>
+<center><math>k = \eta f p \epsilon P_{FNL} P_{TNL}</math></center>
+{| class="wikitable" border="1" cellpadding="8" cellspacing="0"
+! Symbol
+! Name
+! Meaning
+! Formula
+! Typical Thermal Reactor Value
+|-
+|<math>\eta</math>
+| Thermal Fission Factor (Eta)
+| The number of fission [[neutron]]s produced per absorption in the fuel.
+| <math> \eta = \frac{\nu \sigma_f^F}{\sigma_a^F} </math>
+| 1.65
+|-
+| <math>f</math>
+| The thermal utilization factor
+| Probability that a neutron that gets absorbed does so in the fuel material.
+| <math>f = \frac{\Sigma_a^F}{\Sigma_a} </math>
+| 0.71
+|-
+| <math>p</math>
+| The resonance escape probability
+| Fraction of fission neutrons that manage to slow down from fission to thermal energies without being absorbed.
+| <math>p \approx \mathrm{exp} \left( -\frac{\sum\limits_{i=1}^{N} N_i I_{r,A,i}}{\left( \overline{\xi} \Sigma_p \right)_{mod}} \right)</math>
+| 0.87
+|-
+| <math>\epsilon</math>
+| The fast fission factor (Epsilon)
+| <center><math>\tfrac{\mbox{total number of fission neutrons}}{\mbox{number of fission neutrons from just thermal fissions}}</math></center>
+| <math>\epsilon \approx 1 + \frac{1-p}{p}\frac{u_f \nu_f P_{FAF}}{f \nu_t P_{TAF} P_{TNL}}</math>
+| 1.02
+|-|
+|-
+| <math>P_{FNL}</math>
+| The fast non-leakage probability
+| The probability that a [[fast neutron]] will not leak out of the system.
+| <math>P_{FNL} \approx \mathrm{exp} \left( -{B_g}^2 \tau_{th} \right)</math>
+| 0.97
+|-|
+|-
+| <math>P_{TNL}</math>
+| The thermal non-leakage probability
+| The probability that a [[thermal neutron]] will not leak out of the system.
+| <math>P_{TNL} \approx \frac{1}{1+{L_{th}}^2 {B_g}^2}</math>
+| 0.99
+|-
+|}
+The symbols are defined as:<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>\nu</math>, <math>\nu_f</math> and <math>\nu_t</math> are the average number of neutrons produced per fission in the medium (2.43 for [[Uranium-235]]).
+*<math>\sigma_f^F</math> and <math>\sigma_a^F</math> are the microscopic fission and absorption cross sections for fuel, respectively.
+*<math>\Sigma_a^F</math> and <math>\Sigma_a</math> are the macroscopic absorption cross sections in fuel and in total, respectively.
+*<math>N_i</math> is the number density of atoms of a specific [[nuclide]].
+*<math>I_{r,A,i}</math> is the resonance integral for absorption of a specific [[nuclide]].
+**<math>I_{r,A,i} = \int_{E_{th}}^{E_0} dE' \frac{\Sigma_p^{mod}}{\Sigma_t(E')} \frac{\sigma_a^i(E')}{E'}</math>.
+*<math>\overline{\xi}</math> (often referred to as ''worm-bar'' or ''squigma-bar'') is the average lethargy gain per scattering event.
+**Lethargy is defined as decrease in neutron energy.
+*<math>u_f</math> (fast utilization) is the probability that a fast neutron is absorbed in fuel.
+*<math>P_{FAF}</math> is the probability that a fast neutron absorption in fuel causes fission.
+*<math>P_{TAF}</math> is the probability that a thermal neutron absorption in fuel causes fission.
+*<math>{B_g}^2</math> is the [[Geometric and Material Buckling|geometric buckling]].
+*<math>{L_{th}}^2</math> is the diffusion length of thermal neutrons.
+**<math>{L_{th}}^2 = \frac{D}{\Sigma_{a,th}}</math>.
+*<math>\tau_{th}</math> is the age to thermal.
+**<math>\tau = \int_{E_{th}}^{E'} dE'' \frac{1}{E''} \frac{D(E'')}{\overline{\xi} \left[ D(E'') {B_g}^2 + \Sigma_t(E') \right]}</math>.
+**<math>\tau_{th}</math> is the evaluation of <math>\tau</math> where <math>E'</math> is the energy of the neutron at birth.
+==Multiplication==
+The multiplication factor, k, is defined as (see [[Nuclear chain reaction]]): <center><math>k = \frac{\mbox{number of neutrons in one generation}}{\mbox{number of neutrons in preceding generation}}</math></center>
+If k is greater than 1, the chain reaction is ''supercritical,'' and the neutron population will grow exponentially. <br />
+If k is less than 1, the chain reaction is ''subcritical,'' and the neutron population will exponentially decay. <br />
+If k = 1, the chain reaction is ''critical'' and the neutron population will remain constant.
+==See also==
+* [[Critical mass]]
+* [[Nuclear chain reaction]]
+* [[Nuclear reactor]]
+* [[Four factor formula]]
+==References==
+{{reflist}}
+[[Category:Nuclear technology]]
+[[Category:Radioactivity]]

Method of quantum characteristics: Difference between revisions

Revision as of 01:50, 26 October 2013

Multiplication

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