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  <div class="section" id="xsproc-standard-composition-examples">
<span id="b"></span><h1>XSProc Standard Composition Examples<a class="headerlink" href="#xsproc-standard-composition-examples" title="Permalink to this headline"></a></h1>
<div class="section" id="infinite-homogeneous-medium-unit-cell-data">
<span id="b-1"></span><h2>Infinite homogeneous medium unit cell data<a class="headerlink" href="#infinite-homogeneous-medium-unit-cell-data" title="Permalink to this headline"></a></h2>
<p>EXAMPLE 1. A single mixture 1.</p>
<blockquote>
<div><p>Consider a single cylindrical configuration of mixture 1, composed of
10% enriched UO<sub>2</sub> having a radius of 35 cm and a height of
20 cm. This fuel region is sufficient large to model as an infinite
medium. Mixture 100 may be used in subsequent multigroup neutron
transport calculations.</p>
</div></blockquote>
<div class="highlight-scale notranslate"><div class="highlight"><pre><span></span><span class="err">INFHOMMEDIUM</span>  <span class="m">1</span>  <span class="err">CELLMIX=</span><span class="m">10</span>  <span class="err">END</span>
</pre></div>
</div>
<p>XSDRNPM will calculate the eigenvalue of an infinite mass of 10%
enriched UO<sub>2</sub>.</p>
</div>
<div class="section" id="latticecell-unit-cell-data">
<span id="b-2"></span><h2>LATTICECELL unit cell data<a class="headerlink" href="#latticecell-unit-cell-data" title="Permalink to this headline"></a></h2>
<p>Examples of “regular” <strong>LATTICECELL</strong> unit cells are given in
Examples 1–5, and examples of “annular” <strong>LATTICECELL</strong> unit cells are
given in Examples 6–10 below.</p>
<p>EXAMPLE 1. SQUAREPITCH (infinitely long cylindrical pins in a square-pitched array).</p>
<blockquote>
<div><p>Consider a large array of UO<sub>2</sub> fuel pins having a fuel O.D.
of 0.79 cm, a 0.015-cm gap, and a 0.06-cm-thick aluminum clad. The
array is a square-pitched array with a center-to-center spacing of
1.60 cm and is completely flooded with water. In the standard
composition data, UO<sub>2</sub> is defined to be mixture 1, the
aluminum clad is defined to be mixture 2, and the water moderator is
defined to be mixture 3.</p>
</div></blockquote>
<div class="highlight-scale notranslate"><div class="highlight"><pre><span></span><span class="err">LATTICECELL</span>  <span class="err">SQUAREPITCH</span> <span class="err">PITCH=</span><span class="m">1</span><span class="err">.</span><span class="m">60</span> <span class="m">3</span> <span class="err">FUELD=</span><span class="m">0</span><span class="err">.</span><span class="m">79</span> <span class="m">1</span> <span class="err">CLADD=</span><span class="m">0</span><span class="err">.</span><span class="m">94</span> <span class="m">2</span> <span class="err">GAPD=</span><span class="m">0</span><span class="err">.</span><span class="m">82</span> <span class="m">0</span> <span class="err">END</span>
</pre></div>
</div>
<p>EXAMPLE 2. TRIANGPITCH (infinitely long cylinders in a triangular-pitched array).</p>
<blockquote>
<div><p>Consider an array of UO<sub>2</sub> pins with a diameter of 0.635 m.
The outside diameter of the clad is 0.78 cm. There is no gap between
the fuel and clad. The array is a triangular-pitched array with a
center-to-center spacing of 5.0 cm and is flooded with water. In the
standard composition data, the UO<sub>2</sub> is defined to be
mixture 1, the aluminum is defined to be mixture 2, and the water
moderator is defined to be mixture 3.</p>
</div></blockquote>
<div class="highlight-scale notranslate"><div class="highlight"><pre><span></span><span class="err">LATTICECELL</span>  <span class="err">TRIANGPITCH</span> <span class="err">PITCH=</span><span class="m">5</span><span class="err">.</span><span class="m">0</span>  <span class="m">3</span>  <span class="err">FUELD=.</span><span class="m">635</span>  <span class="m">1</span>  <span class="err">CLAD=.</span><span class="m">78</span>  <span class="m">2</span>  <span class="err">END</span>
</pre></div>
</div>
<p>EXAMPLE 3. SPHSQUAREP (spheres in a square-pitched array).</p>
<blockquote>
<div><p>Consider a large array of U<sub>3</sub>O<sub>8</sub> spheres having a
fuel O.D. of 18.6 cm, with an aluminum clad that is 0.18 cm thick.
The array is a triangular-pitched array with a center-to-center
spacing of 19.0 cm and is unmoderated. In the standard composition
data, the aluminum is defined to be mixture 1 and the
U<sub>3</sub>O<sub>8</sub> is defined to be mixture 2. There is no
moderator material, so 0 will be used to represent a void. Also, have
XSDRNPM make a cell weighted material 20 from this unit cell.</p>
</div></blockquote>
<div class="highlight-scale notranslate"><div class="highlight"><pre><span></span><span class="err">LATTICECELL</span> <span class="err">SPHSQUAREP</span> <span class="err">PITCH=</span><span class="m">19</span><span class="err">.</span><span class="m">0</span> <span class="m">0</span> <span class="err">FUELD=</span><span class="m">18</span><span class="err">.</span><span class="m">6</span> <span class="m">2</span> <span class="err">CLADD=</span><span class="m">18</span><span class="err">.</span><span class="m">96</span> <span class="m">1</span> <span class="err">CELLMIX=</span><span class="m">20</span> <span class="err">END</span>
</pre></div>
</div>
<p>EXAMPLE 4. SPHTRIANGP (spheres in a triangular-pitched array).</p>
<blockquote>
<div><p>Consider a large array of U<sub>3</sub>O<sub>8</sub> spheres having a
fuel O.D. of 18.6 cm, with an aluminum clad that is 0.18 cm thick.
The array is a triangular-pitched array with a center-to-center
spacing of 19.0 cm and is flooded with water. In the standard
composition data, the aluminum is defined to be mixture 1, the
U<sub>3</sub>O<sub>8</sub> is defined to be mixture 2, and the water
moderator is defined to be mixture 3.</p>
</div></blockquote>
<div class="highlight-scale notranslate"><div class="highlight"><pre><span></span><span class="err">LATTICECELL</span>  <span class="err">SPHTRIANGP</span>  <span class="err">PITCH=</span><span class="m">19</span><span class="err">.</span><span class="m">0</span>  <span class="m">3</span>  <span class="err">FUELD=</span><span class="m">18</span><span class="err">.</span><span class="m">6</span>  <span class="m">2</span> <span class="err">CLADD=</span><span class="m">18</span><span class="err">.</span><span class="m">96</span>  <span class="m">1</span>  <span class="err">END</span>
</pre></div>
</div>
<p>EXAMPLE 5. SYMMSLABCELL (slabs repeated in a symmetric fashion).</p>
<blockquote>
<div><p>Consider a system of alternating slabs of U<sub>3</sub>O<sub>8</sub>
and low-density water. Each U<sub>3</sub>O<sub>8</sub> region is
1.27 cm thick, and each water region is 15.0 cm thick. In the
standard composition data, the U<sub>3</sub>O<sub>8</sub> is defined to
be mixture 1, and the low-density water is defined to be mixture 2.</p>
</div></blockquote>
<div class="highlight-scale notranslate"><div class="highlight"><pre><span></span><span class="err">LATTICECELL</span>  <span class="err">SYMMSLABCELL</span> <span class="err">PITCH=</span><span class="m">16</span><span class="err">.</span><span class="m">27</span>  <span class="m">2</span> <span class="err">FUELD=</span><span class="m">1</span><span class="err">.</span><span class="m">27</span>  <span class="m">1</span>  <span class="err">END</span>
</pre></div>
</div>
<p>EXAMPLE 5a. SYMMSLABCELL (slabs repeated in a symmetric fashion).</p>
<blockquote>
<div><p>Consider a system of alternating slabs of U<sub>3</sub>O<sub>8</sub>
and low-density water. Each U<sub>3</sub>O<sub>8</sub> region is
1.27 cm thick, and each water region is 15.0 cm thick. The
U<sub>3</sub>O<sub>8</sub> regions have a 0.01-cm gap and 0.24-cm-thick
aluminum clad on each face. In the standard composition data, the
U<sub>3</sub>O<sub>8</sub> is defined to be mixture 1, the aluminum is
defined to be mixture 2, and the low-density water is defined to be
mixture 3. Also, have XSDRNPM make a cell-weighted material 100 from
this unit cell.</p>
</div></blockquote>
<div class="highlight-scale notranslate"><div class="highlight"><pre><span></span><span class="err">LATTICECELL</span>  <span class="err">SYMMSLABCELL</span>  <span class="err">PITCH=</span><span class="m">16</span><span class="err">.</span><span class="m">77</span>  <span class="m">3</span>  <span class="err">FUELD=</span><span class="m">1</span><span class="err">.</span><span class="m">27</span>  <span class="m">1</span>
<span class="err">CLADD=</span><span class="m">1</span><span class="err">.</span><span class="m">77</span>  <span class="m">2</span>  <span class="err">GAPD=</span><span class="m">1</span><span class="err">.</span><span class="m">29</span>  <span class="m">0</span>  <span class="err">CELLMIX=</span><span class="m">100</span>  <span class="err">END</span>
</pre></div>
</div>
<p>EXAMPLE 6. ASQUAREPITCH (infinitely long annular cylindrical rods in a square-pitched array).</p>
<blockquote>
<div><p>Consider an array of uranium metal pipes having an inside diameter of
5.0 cm and an outer diameter of 6.75 cm. A gap of 0.025 cm and a clad
of 0.25 cm exist on both the inner and outer surfaces of the fuel.
The fuel rods are arranged in a square-pitched array.
The center-to-center spacing is 8.0 cm. The array is completely
flooded with water. In the standard composition data, the uranium
metal is defined to be mixture 1, the outer clad is mixture 2, the
inner clad is mixture 7, the inner moderator is Plexiglas and is
mixture 3, the gap is a void, and the external moderator is water,
defined to be mixture 4.</p>
</div></blockquote>
<div class="highlight-scale notranslate"><div class="highlight"><pre><span></span><span class="err">LATTICECELL</span>  <span class="err">ASQUAREPITCH</span>  <span class="err">PITCH=</span><span class="m">8</span><span class="err">.</span><span class="m">0</span>  <span class="m">4</span>  <span class="err">FUELD=</span><span class="m">6</span><span class="err">.</span><span class="m">75</span>  <span class="m">1</span>  <span class="err">GAPD=</span><span class="m">6</span><span class="err">.</span><span class="m">8</span>  <span class="m">0</span>
<span class="err">CLADD=</span><span class="m">7</span><span class="err">.</span><span class="m">3</span>  <span class="m">2</span>  <span class="err">IMODD=</span><span class="m">4</span><span class="err">.</span><span class="m">45</span>  <span class="m">3</span>  <span class="err">ICLADD=</span><span class="m">4</span><span class="err">.</span><span class="m">95</span> <span class="m">7</span>  <span class="err">IGAPD=</span><span class="m">5</span><span class="err">.</span><span class="m">0</span>  <span class="m">0</span>  <span class="err">END</span>
</pre></div>
</div>
<p>EXAMPLE 6a. ASQUAREPITCH (infinitely long annular cylindrical rods in a square-pitched array).</p>
<blockquote>
<div><p>Consider an array of uranium metal pipes having an inside diameter of
5.0 cm and an outer diameter of 6.75 cm arranged in a square-pitched
array. The center-to-center spacing is 8.0 cm. The array is
completely flooded with water. In the standard composition data, the
uranium metal is defined to be mixture 1, the water moderator is
defined to be mixture 2, and the inside water moderator is defined as
mixture 3.</p>
</div></blockquote>
<div class="highlight-scale notranslate"><div class="highlight"><pre><span></span><span class="err">LATTICECELL</span>  <span class="err">ASQUAREPITCH</span>  <span class="err">PITCH=</span><span class="m">8</span><span class="err">.</span><span class="m">0</span>  <span class="m">2</span>  <span class="err">FUELD=</span><span class="m">6</span><span class="err">.</span><span class="m">75</span>  <span class="m">1</span>  <span class="err">IMODD=</span><span class="m">5</span><span class="err">.</span><span class="m">0</span>  <span class="m">3</span>  <span class="err">END</span>
</pre></div>
</div>
<div class="admonition note">
<p class="admonition-title">Note</p>
<p>This problem defines two water mixtures. If mixture 2 were
entered twice, i.e., for both the inner and outer moderator, an error
message would be printed and the calculation terminated.</p>
</div>
<p>EXAMPLE 7. ATRIANGPITCH (infinitely long annular cylindrical rods in a triangular-pitched array).</p>
<blockquote>
<div><p>Consider an array of uranium metal pipes having an inside diameter of
8.0 cm and a wall thickness of 0.75 cm arranged in a square-pitched
array. The center-to-center spacing is 9.75 cm. The array is
completely flooded with water. A Plexiglas rod fills the center of
the uranium pipe. In the standard compositions data, the uranium
metal is defined to be mixture 1, the Plexiglas is defined to be
mixture 2, and the external water moderator is mixture 3.</p>
</div></blockquote>
<div class="highlight-scale notranslate"><div class="highlight"><pre><span></span><span class="err">LATTICECELL</span>  <span class="err">ATRIANGPITCH</span>  <span class="err">PITCH=</span><span class="m">9</span><span class="err">.</span><span class="m">75</span>  <span class="m">3</span>  <span class="err">FUELD=</span><span class="m">9</span><span class="err">.</span><span class="m">5</span>  <span class="m">1</span>  <span class="err">IMODD=</span><span class="m">8</span><span class="err">.</span><span class="m">0</span>  <span class="m">2</span>  <span class="err">END</span>
</pre></div>
</div>
<p>EXAMPLE 8. ASPHSQUAREP (spherical annuli in a square-pitched array).</p>
<blockquote>
<div><p>Consider a large array of hollow U<sub>3</sub>O<sub>8</sub> spheres
having a fuel I.D. of 8.0 cm and O.D. of 18.6 cm. The centers of the
spheres are empty. The external moderator is water. The spheres are
stacked in a square-pitched array with a center-to-center spacing of
19.0 cm. In the standard composition data, the
U<sub>3</sub>O<sub>8</sub> is defined to be mixture 1, and the water is
defined to be mixture 2. The centers of the spheres are defined to be
void, mixture 0.</p>
</div></blockquote>
<div class="highlight-scale notranslate"><div class="highlight"><pre><span></span><span class="err">LATTICECELL</span>  <span class="err">ASPHSQUAREP</span>  <span class="err">HPITCH=</span><span class="m">9</span><span class="err">.</span><span class="m">5</span>  <span class="m">2</span>  <span class="err">FUELR=</span><span class="m">9</span><span class="err">.</span><span class="m">3</span>  <span class="m">1</span>  <span class="err">IMODR=</span><span class="m">4</span><span class="err">.</span><span class="m">0</span>  <span class="m">0</span>  <span class="err">END</span>
</pre></div>
</div>
<p>EXAMPLE 9. ASPHTRIANGP (spheres in a triangular-pitched array).</p>
<blockquote>
<div><p>Consider a large array of hollow U<sub>3</sub>O<sub>8</sub> spheres
having a fuel I.D. of 8.0 cm and a fuel O.D. of 18.6 cm. A
0.18-cm-thick aluminum clad exists outside the fuel. The interior of
each sphere is void. The array is a triangular-pitched array with a
center-to-center spacing of 19.0 cm and is flooded with water. In the
standard composition data, the aluminum is defined to be mixture 1,
the U<sub>3</sub>O<sub>8</sub> is defined to be mixture 2, and the
water moderator is defined to be mixture 3. The void in the center of
each sphere is entered as mixture 0.</p>
</div></blockquote>
<div class="highlight-scale notranslate"><div class="highlight"><pre><span></span><span class="err">LATTICECELL</span> <span class="err">ASPHTRIANGP</span> <span class="err">HPITCH=</span><span class="m">9</span><span class="err">.</span><span class="m">5</span>  <span class="m">3</span> <span class="err">FUELR=</span><span class="m">9</span><span class="err">.</span><span class="m">3</span>  <span class="m">2</span> <span class="err">IMODR=</span><span class="m">4</span><span class="err">.</span><span class="m">0</span>  <span class="m">0</span> <span class="err">CLADR=</span><span class="m">9</span><span class="err">.</span><span class="m">48</span>  <span class="m">1</span> <span class="err">END</span>
</pre></div>
</div>
<p>EXAMPLE 10. ASYMSLABCELL (repeated slabs having different moderator conditions on the left and right boundaries).</p>
<blockquote>
<div><p>Consider an array of U<sub>3</sub>O<sub>8</sub> slabs with an inner
moderator region composed of full-density water with a half thickness
of 8.0 cm, and a low-density water outer moderator with a 16 cm half
thickness of 16 cm half thickness. Each U<sub>3</sub>O<sub>8</sub> slab
is 10.54 cm thick. In the standard composition data, the
U<sub>3</sub>O<sub>8</sub> is defined to be mixture 1, the full density
water is defined to be mixture 2, and the low-density water is
mixture 3. Also, have XSDRNPM create a cell weighted mixture 100 from
this unit cell.</p>
</div></blockquote>
<div class="highlight-scale notranslate"><div class="highlight"><pre><span></span><span class="err">LATTICECELL</span> <span class="err">ASYMSLABCELL</span> <span class="err">CELLMIX=</span><span class="m">100</span> <span class="err">IMODR=</span><span class="m">8</span><span class="err">.</span><span class="m">0</span> <span class="m">2</span> <span class="err">FUELR=</span><span class="m">18</span><span class="err">.</span><span class="m">54</span> <span class="m">1</span>  <span class="err">HPITCH=</span><span class="m">34</span><span class="err">.</span><span class="m">54</span> <span class="m">3</span> <span class="err">END</span>
</pre></div>
</div>
<p>EXAMPLE 10a. ASYMSLABCELL (repeated slabs having different moderator conditions on the left and right boundaries).</p>
<blockquote>
<div><p>Consider an array of U<sub>3</sub>O<sub>8</sub> fuel plates with an
inner moderator region of full-density water with a half-thickness of
8.0 cm, and with a 16 cm thick low-density outer moderator. Each fuel
plate includes a 10.54 cm thick U<sub>3</sub>O<sub>8</sub> slab with a
0.01 cm gap and 0.24-cm-thick aluminum clad on each face. In the
standard composition data, the U<sub>3</sub>O<sub>8</sub> is defined to
be mixture 1, the full density water is defined to be mixture 2, and
the low-density water is mixture 3, the inner aluminum is mixture 4,
the outer aluminum clad is mixture 5, and both gaps are voids.</p>
</div></blockquote>
<div class="highlight-scale notranslate"><div class="highlight"><pre><span></span><span class="err">LATTICECELL</span> <span class="err">ASYMSLABCELL</span> <span class="err">IMODR=</span><span class="m">8</span><span class="err">.</span><span class="m">0</span> <span class="m">2</span> <span class="err">ICLADR=</span><span class="m">8</span><span class="err">.</span><span class="m">24</span> <span class="m">5</span> <span class="err">IGAPR=</span><span class="m">8</span><span class="err">.</span><span class="m">25</span> <span class="m">0</span> <span class="err">FUELR=</span><span class="m">18</span><span class="err">.</span><span class="m">79</span> <span class="m">1</span>
<span class="err">GAPR</span> <span class="m">18</span><span class="err">.</span><span class="m">80</span> <span class="m">0</span> <span class="err">CLADR</span> <span class="m">19</span><span class="err">.</span><span class="m">04</span> <span class="m">4</span> <span class="err">HPITCH=</span><span class="m">27</span><span class="err">.</span><span class="m">04</span> <span class="m">3</span> <span class="err">END</span>
</pre></div>
</div>
</div>
<div class="section" id="multiregion-unit-cell-data">
<span id="b-3"></span><h2>MULTIREGION unit cell data<a class="headerlink" href="#multiregion-unit-cell-data" title="Permalink to this headline"></a></h2>
<p>Examples of <strong>MULTIREGION</strong> unit cells follow:</p>
<p>EXAMPLE 1. SLAB.</p>
<blockquote>
<div><p>Consider a 5-cm-thick slab of fuel (mixture 1) with 0.5 cm of
aluminum (mixture 3) and 15 cm of water (mixture 2) on each face. The
unit cell data for this problem could be entered as follows:</p>
</div></blockquote>
<div class="highlight-scale notranslate"><div class="highlight"><pre><span></span><span class="err">MULTIREGION</span>  <span class="err">SLAB</span>  <span class="err">LEFT_BDY=REFLECTED</span>  <span class="err">RIGHT_BDY=VACUUM</span>  <span class="err">ORIGIN=</span><span class="m">0</span>  <span class="err">END</span>
<span class="m">1</span>  <span class="m">2</span><span class="err">.</span><span class="m">5</span>  <span class="m">3</span>  <span class="m">3</span><span class="err">.</span><span class="m">0</span>  <span class="m">2</span>  <span class="m">18</span><span class="err">.</span><span class="m">0</span>  <span class="err">END</span> <span class="err">ZONE</span>
</pre></div>
</div>
<p>EXAMPLE 2. CYLINDRICAL.</p>
<blockquote>
<div><p>Consider a large array of fuel pins. Each pin is UO<sub>2</sub>
(mixture 1) with a radius of 0.465 cm, a 0.009-cm gap (mixture 0),
and a Zircaloy clad (mixture 9) 0.062 cm thick, centered in a water
(mixture 8) region surrounded by a flooded support structure
represented by homogenized water and Zircaloy (mixture 10). The outer
radius of the water-Zircaloy region is 0.844 cm and it is 0.037 cm
thick. This problem cannot be described as a <strong>LATTICECELL</strong> problem
because the <strong>LATTICECELL</strong> configuration is limited to
fuel-gap-clad-cell boundary and this problem is
fuel-gap-clad-moderator-outer region. When <strong>MULTIREGION</strong> is used,
lattice effects are accounted for by specifying a <strong>WHITE</strong>,
<strong>PERIODIC</strong>, or <strong>REFLECTED</strong> right boundary condition, as long as
the CENTRM/PMC self-shielding method is used. <strong>MULTIREGION</strong> cells
should not be used for arrays if BONAMI-only method is specified</p>
</div></blockquote>
<div class="highlight-scale notranslate"><div class="highlight"><pre><span></span><span class="err">MULTIREGION</span>  <span class="err">CYLINDRICAL</span> <span class="err">RIGHT_BDY=WHITE</span>  <span class="err">END</span>
<span class="m">1</span>  <span class="m">0</span><span class="err">.</span><span class="m">465</span>  <span class="m">0</span>  <span class="m">0</span><span class="err">.</span><span class="m">474</span>  <span class="m">9</span>  <span class="m">0</span><span class="err">.</span><span class="m">536</span>  <span class="m">8</span>  <span class="m">0</span><span class="err">.</span><span class="m">807</span>  <span class="m">10</span>  <span class="m">0</span><span class="err">.</span><span class="m">844</span>  <span class="err">END</span> <span class="err">ZONE</span>
</pre></div>
</div>
<p>EXAMPLE 3. SPHERICAL.</p>
<blockquote>
<div><p>Describe a bare sphere of uranium metal 8.72 cm in radius. The
uranium metal is defined to be mixture 1. Also, have XSDRNPM create a
cell weighted mixture 100 and calculate and eigenvalue. The unit cell
data for this problem could be entered as follows:</p>
</div></blockquote>
<div class="highlight-scale notranslate"><div class="highlight"><pre><span></span><span class="err">MULTIREGION</span>  <span class="err">SPHERICAL</span>  <span class="err">CELLMIX=</span><span class="m">100</span>  <span class="err">END</span>   <span class="m">1</span>  <span class="m">8</span><span class="err">.</span><span class="m">72</span>    <span class="err">END</span> <span class="err">ZONE</span>
</pre></div>
</div>
<p>EXAMPLE 4. BUCKLEDSLAB.</p>
<blockquote>
<div><p>Consider a plate of fuel 4 cm thick, reflected by 3 cm of water on
both faces. The plate is 32 cm tall and 16 cm deep. The fuel is
mixture 1 and the water is mixture 2. Also, have XSDRNPM create a
cell weighted mixture 100 and calculate and eigenvalue.</p>
</div></blockquote>
<div class="highlight-scale notranslate"><div class="highlight"><pre><span></span><span class="err">MULTIREGION</span>  <span class="err">BUCKLEDSLAB</span>  <span class="err">CELLMIX=</span><span class="m">100</span>  <span class="err">LEFT_BDY=REFLECTED</span>  <span class="err">RIGHT_BDY=VACUUM</span>
<span class="err">DY=</span><span class="m">32</span> <span class="err">DZ=</span><span class="m">16</span><span class="err">.</span><span class="m">0</span>  <span class="err">END</span>  <span class="m">1</span>  <span class="m">2</span><span class="err">.</span><span class="m">0</span>  <span class="m">2</span>  <span class="m">5</span><span class="err">.</span><span class="m">0</span>  <span class="err">END</span> <span class="err">ZONE</span>
</pre></div>
</div>
<p>EXAMPLE 5. BUCKLEDCYL.</p>
<blockquote>
<div><p>Consider a solution of uranyl nitrate contained in a cylindrical
stainless-steel container reflected by 33 cm of water. The inside
dimensions of the steel container are 7.62 cm in radius and 130.0 cm
tall. The steel is 0.15 cm thick. The uranyl nitrate is defined to be
mixture 1, the steel is defined to be mixture 2, and the water is
defined to be mixture 3.</p>
</div></blockquote>
<div class="highlight-scale notranslate"><div class="highlight"><pre><span></span><span class="err">MULTIREGION</span>  <span class="err">BUCKLEDCYL</span>  <span class="err">DY=</span><span class="m">130</span>  <span class="err">END</span>
<span class="m">1</span>  <span class="m">7</span><span class="err">.</span><span class="m">62</span>  <span class="m">2</span>  <span class="m">7</span><span class="err">.</span><span class="m">77</span>  <span class="m">3</span>  <span class="m">40</span><span class="err">.</span><span class="m">77</span>  <span class="err">END</span> <span class="err">ZONE</span>
</pre></div>
</div>
</div>
<div class="section" id="doublehet-unit-cell-data">
<span id="b-4"></span><h2>DOUBLEHET unit cell data<a class="headerlink" href="#doublehet-unit-cell-data" title="Permalink to this headline"></a></h2>
<p>Unit cell data are always required for <strong>DOUBLEHET</strong> calculations. As
many unit cells as needed may be defined in the problem. If
<strong>CELLMIX</strong>=<em>mx</em> is entered after the fuel element (macro cell)
description, XSProc calls XSDRNPM to calculate the eigenvalue of the
cell and to create a homogenized cell-weighted cross section having the
characteristics of the doubly-heterogeneous cell configuration.</p>
<p>EXAMPLE 1: A doubly-heterogeneous spherical fuel element with 15,000 UO<sub>2</sub> particles in a graphite matrix.</p>
<blockquote>
<div><p>Grain fuel radius is 0.025 cm. Grain contains one coating layer that
is 0.009-cm-thick. Pebbles are in a triangular pitch on a
6.4-cm-pitch. Fuel pebble fuel zone is 2.5‑cm in radius and contains
a 0.5-cm-thick graphite clad that contains small amounts of
<sup>10</sup>B. Pebbles are surrounded by <sup>4</sup>He. Assume the
composition block is below:</p>
</div></blockquote>
<div class="highlight-scale notranslate"><div class="highlight"><pre><span></span><span class="c">&#39; UO2 FUEL KERNEL</span>
<span class="err">U-</span><span class="m">235</span>  <span class="m">1</span> <span class="m">0</span> <span class="m">1</span><span class="err">.</span><span class="m">92585</span><span class="err">E-</span><span class="m">3</span> <span class="m">293</span><span class="err">.</span><span class="m">6</span> <span class="err">END</span>
<span class="err">O</span>      <span class="m">1</span> <span class="m">0</span> <span class="m">4</span><span class="err">.</span><span class="m">64272</span><span class="err">E-</span><span class="m">2</span> <span class="m">293</span><span class="err">.</span><span class="m">6</span> <span class="err">END</span>
<span class="c">&#39; FIRST COATING</span>
<span class="err">C</span>      <span class="m">2</span> <span class="m">0</span> <span class="m">5</span><span class="err">.</span><span class="m">26449</span><span class="err">E-</span><span class="m">2</span> <span class="m">293</span><span class="err">.</span><span class="m">6</span> <span class="err">END</span>
<span class="c">&#39; GRAPHITE MATRIX</span>
<span class="err">C</span>      <span class="m">6</span> <span class="m">0</span> <span class="m">8</span><span class="err">.</span><span class="m">77414</span><span class="err">E-</span><span class="m">2</span> <span class="m">293</span><span class="err">.</span><span class="m">6</span> <span class="err">END</span>
<span class="c">&#39; CARBON PEBBLE OUTER COATING</span>
<span class="err">C</span>      <span class="m">7</span> <span class="m">0</span> <span class="m">8</span><span class="err">.</span><span class="m">77414</span><span class="err">E-</span><span class="m">2</span> <span class="m">293</span><span class="err">.</span><span class="m">6</span> <span class="err">END</span>
<span class="err">B-</span><span class="m">10</span>   <span class="m">7</span> <span class="m">0</span> <span class="m">9</span><span class="err">.</span><span class="m">64977</span><span class="err">E-</span><span class="m">9</span> <span class="m">293</span><span class="err">.</span><span class="m">6</span> <span class="err">END</span>
<span class="err">HE-</span><span class="m">4</span>   <span class="m">8</span> <span class="m">0</span> <span class="m">2</span><span class="err">.</span><span class="m">65156</span><span class="err">E-</span><span class="m">5</span> <span class="m">293</span><span class="err">.</span><span class="m">6</span> <span class="err">END</span>
</pre></div>
</div>
<p>The cell data for the <strong>DOUBLEHET</strong> cell follows:</p>
<div class="highlight-scale notranslate"><div class="highlight"><pre><span></span><span class="err">DOUBLEHET</span> <span class="err">FUELMIX=</span><span class="m">10</span> <span class="err">END</span>
 <span class="err">GFR=</span><span class="m">0</span><span class="err">.</span><span class="m">025</span>  <span class="m">1</span> <span class="err">COATT=</span><span class="m">0</span><span class="err">.</span><span class="m">009</span> <span class="m">2</span> <span class="err">MATRIX=</span><span class="m">6</span> <span class="err">NUMPAR=</span><span class="m">15000</span> <span class="err">END</span> <span class="err">GRAIN</span>
<span class="err">PEBBLE</span> <span class="err">SPHTRIANGP</span> <span class="err">RIGHT_BDY=WHITE</span> <span class="err">HPITCH=</span><span class="m">3</span><span class="err">.</span><span class="m">2</span> <span class="m">8</span> <span class="err">FUELR=</span><span class="m">2</span><span class="err">.</span><span class="m">5</span> <span class="err">CLADR=</span><span class="m">3</span><span class="err">.</span><span class="m">0</span> <span class="m">7</span>  <span class="err">END</span>
</pre></div>
</div>
<p>In this case we designated the homogenized mixture as mixture 10. If we
have a KENO V.a or KENO-VI input section, we would use mixture 10 in
that section. Note that the keyword “<strong>FUELR</strong>=” is followed by the
fuel dimension only, i.e., no mixture number. That is because the fuel
mixture number is specified with “<strong>FUELMIX</strong>=” and therefore need
not be repeated.</p>
<p>EXAMPLE 2: Same as Example 1, except volume fraction of the grain type is known and is 0.037732.</p>
<div class="highlight-scale notranslate"><div class="highlight"><pre><span></span><span class="err">DOUBLEHET</span>  <span class="err">RIGHT_BDY=WHITE</span> <span class="err">FUELMIX=</span><span class="m">10</span> <span class="err">END</span>
 <span class="err">GFR=</span><span class="m">0</span><span class="err">.</span><span class="m">025</span>  <span class="m">1</span> <span class="err">COATT=</span><span class="m">0</span><span class="err">.</span><span class="m">009</span> <span class="m">2</span> <span class="err">MATRIX=</span><span class="m">6</span> <span class="err">VF=</span><span class="m">0</span><span class="err">.</span><span class="m">037732</span> <span class="err">END</span> <span class="err">GRAIN</span>
<span class="err">PEBBLE</span> <span class="err">SPHTRIANGP</span> <span class="err">RIGHT_BDY=WHITE</span> <span class="err">HPITCH=</span><span class="m">3</span><span class="err">.</span><span class="m">2</span> <span class="m">8</span> <span class="err">FUELR=</span><span class="m">2</span><span class="err">.</span><span class="m">5</span> <span class="err">CLADR=</span><span class="m">3</span><span class="err">.</span><span class="m">0</span> <span class="m">7</span>  <span class="err">END</span>
</pre></div>
</div>
<p>EXAMPLE 3: Same as Example 1, except halfpitch of the grain type is known and is 0.10137 cm.</p>
<div class="highlight-scale notranslate"><div class="highlight"><pre><span></span><span class="err">DOUBLEHET</span> <span class="err">FUELMIX=</span><span class="m">10</span> <span class="err">END</span>
 <span class="err">GFR=</span><span class="m">0</span><span class="err">.</span><span class="m">025</span>  <span class="m">1</span> <span class="err">COATT=</span><span class="m">0</span><span class="err">.</span><span class="m">009</span> <span class="m">2</span> <span class="err">HPITCH=</span><span class="m">0</span><span class="err">.</span><span class="m">10137</span> <span class="err">MATRIX=</span><span class="m">6</span> <span class="err">END</span> <span class="err">GRAIN</span>
<span class="err">PEBBLE</span> <span class="err">SPHTRIANGP</span> <span class="err">RIGHT_BDY=WHITE</span> <span class="err">HPITCH=</span><span class="m">3</span><span class="err">.</span><span class="m">2</span> <span class="m">8</span> <span class="err">FUELR=</span><span class="m">2</span><span class="err">.</span><span class="m">5</span> <span class="err">CLADR=</span><span class="m">3</span><span class="err">.</span><span class="m">0</span> <span class="m">7</span>  <span class="err">END</span>
</pre></div>
</div>
<p>EXAMPLE 4: A doubly-heterogeneous spherical fuel element with 10,000 UO2 particles
and 5,000 PuO2 particles in a graphite matrix.</p>
<blockquote>
<div><p>Grain fuel radii for UO<sub>2</sub> and PuO<sub>2</sub> particles are
0.025 cm and 0.012 cm, respectively. UO<sub>2</sub> grains contain one
coating layer that is 0.009‑cm-thick. PuO<sub>2</sub> grains contain one
coating layer that is 0.0095-cm-thick. Pebbles are in a triangular pitch
on a 6.4-cm-pitch. Fuel pebble fuel zone is 2.5-cm in radius and
contains a 0.5-cm-thick graphite clad that contains small amounts of
<sup>10</sup>B. Pebbles are surrounded by <sup>4</sup>He. Assume the
composition block is given below:</p>
</div></blockquote>
<div class="highlight-scale notranslate"><div class="highlight"><pre><span></span><span class="c">&#39; UO2 FUEL KERNEL</span>
<span class="err">U-</span><span class="m">235</span>  <span class="m">1</span> <span class="m">0</span> <span class="m">1</span><span class="err">.</span><span class="m">92585</span><span class="err">E-</span><span class="m">3</span> <span class="m">293</span><span class="err">.</span><span class="m">6</span> <span class="err">END</span>
<span class="err">O</span>      <span class="m">1</span> <span class="m">0</span> <span class="m">4</span><span class="err">.</span><span class="m">64272</span><span class="err">E-</span><span class="m">2</span> <span class="m">293</span><span class="err">.</span><span class="m">6</span> <span class="err">END</span>
<span class="c">&#39; FIRST COATING</span>
<span class="err">C</span>      <span class="m">2</span> <span class="m">0</span> <span class="m">5</span><span class="err">.</span><span class="m">26449</span><span class="err">E-</span><span class="m">2</span> <span class="m">293</span><span class="err">.</span><span class="m">6</span> <span class="err">END</span>
<span class="c">&#39; GRAPHITE MATRIX</span>
<span class="err">C</span>      <span class="m">6</span> <span class="m">0</span> <span class="m">8</span><span class="err">.</span><span class="m">77414</span><span class="err">E-</span><span class="m">2</span> <span class="m">293</span><span class="err">.</span><span class="m">6</span> <span class="err">END</span>
<span class="c">&#39; CARBON PEBBLE OUTER COATING</span>
<span class="err">C</span>      <span class="m">7</span> <span class="m">0</span> <span class="m">8</span><span class="err">.</span><span class="m">77414</span><span class="err">E-</span><span class="m">2</span> <span class="m">293</span><span class="err">.</span><span class="m">6</span> <span class="err">END</span>
<span class="err">B-</span><span class="m">10</span>   <span class="m">7</span> <span class="m">0</span> <span class="m">9</span><span class="err">.</span><span class="m">64977</span><span class="err">E-</span><span class="m">9</span> <span class="m">293</span><span class="err">.</span><span class="m">6</span> <span class="err">END</span>
<span class="err">HE-</span><span class="m">4</span>   <span class="m">8</span> <span class="m">0</span> <span class="m">2</span><span class="err">.</span><span class="m">65156</span><span class="err">E-</span><span class="m">5</span> <span class="m">293</span><span class="err">.</span><span class="m">6</span> <span class="err">END</span>
<span class="c">&#39; PUO2 FUEL KERNEL</span>
<span class="err">PU-</span><span class="m">239</span>  <span class="m">11</span> <span class="m">0</span> <span class="m">1</span><span class="err">.</span><span class="m">24470</span><span class="err">E-</span><span class="m">02</span> <span class="m">293</span><span class="err">.</span><span class="m">6</span> <span class="err">END</span>
<span class="err">O</span>       <span class="m">11</span> <span class="m">0</span> <span class="m">4</span><span class="err">.</span><span class="m">60983</span><span class="err">E-</span><span class="m">02</span> <span class="m">293</span><span class="err">.</span><span class="m">6</span> <span class="err">END</span>
<span class="c">&#39; FIRST COATING</span>
<span class="err">C</span>      <span class="m">12</span> <span class="m">0</span> <span class="m">5</span><span class="err">.</span><span class="m">26449</span><span class="err">E-</span><span class="m">2</span> <span class="m">293</span><span class="err">.</span><span class="m">6</span> <span class="err">END</span>
<span class="c">&#39; GRAPHITE MATRIX</span>
<span class="err">C</span>      <span class="m">16</span> <span class="m">0</span> <span class="m">8</span><span class="err">.</span><span class="m">77414</span><span class="err">E-</span><span class="m">2</span> <span class="m">293</span><span class="err">.</span><span class="m">6</span> <span class="err">END</span>
</pre></div>
</div>
<p>The cell data for the <strong>DOUBLEHET</strong> cell follows:</p>
<div class="highlight-scale notranslate"><div class="highlight"><pre><span></span><span class="err">DOUBLEHET</span> <span class="err">FUELMIX=</span><span class="m">10</span> <span class="err">END</span>
 <span class="err">GFR=</span><span class="m">0</span><span class="err">.</span><span class="m">025</span>  <span class="m">1</span> <span class="err">COATT=</span><span class="m">0</span><span class="err">.</span><span class="m">009</span> <span class="m">2</span> <span class="err">MATRIX=</span><span class="m">6</span> <span class="err">NUMPAR=</span><span class="m">10000</span> <span class="err">END</span> <span class="err">GRAIN</span>
 <span class="err">GFR=</span><span class="m">0</span><span class="err">.</span><span class="m">012</span> <span class="m">11</span> <span class="err">COATT=</span><span class="m">0</span><span class="err">.</span><span class="m">0095</span> <span class="m">12</span> <span class="err">MATRIX=</span><span class="m">16</span> <span class="err">NUMPAR=</span><span class="m">5000</span> <span class="err">END</span> <span class="err">GRAIN</span>
<span class="err">PEBBLE</span> <span class="err">SPHTRIANGP</span> <span class="err">RIGHT_BDY=WHITE</span> <span class="err">HPITCH=</span><span class="m">3</span><span class="err">.</span><span class="m">2</span> <span class="m">8</span> <span class="err">FUELR=</span><span class="m">2</span><span class="err">.</span><span class="m">5</span> <span class="err">CLADR=</span><span class="m">3</span><span class="err">.</span><span class="m">0</span> <span class="m">7</span> <span class="err">END</span>
</pre></div>
</div>
<p>Since number of particles is entered, the total volume fraction and the pitch can be calculated by the code.</p>
<p>EXAMPLE 5: Same as Example 4 above except the volume fractions of UO<sub>2</sub>
and PuO<sub>2</sub> grains are 0.02511 and 0.00318, respectively.</p>
<div class="highlight-scale notranslate"><div class="highlight"><pre><span></span><span class="err">DOUBLEHET</span>  <span class="err">RIGHT_BDY=WHITE</span> <span class="err">FUELMIX=</span><span class="m">10</span> <span class="err">END</span>
 <span class="err">GFR=</span><span class="m">0</span><span class="err">.</span><span class="m">025</span>  <span class="m">1</span> <span class="err">COATT=</span><span class="m">0</span><span class="err">.</span><span class="m">009</span> <span class="m">2</span> <span class="err">MATRIX=</span><span class="m">6</span> <span class="err">VF=</span><span class="m">0</span><span class="err">.</span><span class="m">02511</span> <span class="err">END</span> <span class="err">GRAIN</span>
 <span class="err">GFR=</span><span class="m">0</span><span class="err">.</span><span class="m">012</span> <span class="m">11</span> <span class="err">COATT=</span><span class="m">0</span><span class="err">.</span><span class="m">0095</span> <span class="m">12</span> <span class="err">MATRIX=</span><span class="m">16</span> <span class="err">VF=</span><span class="m">0</span><span class="err">.</span><span class="m">00318</span> <span class="err">END</span> <span class="err">GRAIN</span>
<span class="err">PEBBLE</span> <span class="err">SPHTRIANGP</span> <span class="err">RIGHT_BDY=WHITE</span> <span class="err">HPITCH=</span><span class="m">3</span><span class="err">.</span><span class="m">2</span> <span class="m">8</span> <span class="err">FUELR=</span><span class="m">2</span><span class="err">.</span><span class="m">5</span> <span class="err">CLADR=</span><span class="m">3</span><span class="err">.</span><span class="m">0</span> <span class="m">7</span> <span class="err">END</span>
</pre></div>
</div>
<p>EXAMPLE 6: Same as Example 4 above except pitch is also known.</p>
<blockquote>
<div><p>UO<sub>2</sub> grains have a pitch of 0.25 cm. PuO<sub>2</sub> grains
have a pitch of 0.20 cm.</p>
</div></blockquote>
<div class="highlight-scale notranslate"><div class="highlight"><pre><span></span><span class="err">DOUBLEHET</span> <span class="err">FUELMIX=</span><span class="m">10</span> <span class="err">END</span>
 <span class="err">GFR=</span><span class="m">0</span><span class="err">.</span><span class="m">025</span>  <span class="m">1</span> <span class="err">COATT=</span><span class="m">0</span><span class="err">.</span><span class="m">009</span> <span class="m">2</span>
 <span class="err">MATRIX=</span><span class="m">6</span> <span class="err">NUMPAR=</span><span class="m">10000</span> <span class="err">PITCH=</span><span class="m">0</span><span class="err">.</span><span class="m">25</span> <span class="err">END</span> <span class="err">GRAIN</span>
 <span class="err">GFR=</span><span class="m">0</span><span class="err">.</span><span class="m">012</span>  <span class="m">11</span> <span class="err">COATT=</span><span class="m">0</span><span class="err">.</span><span class="m">0095</span> <span class="m">12</span>
 <span class="err">MATRIX=</span><span class="m">16</span> <span class="err">NUMPAR=</span><span class="m">5000</span> <span class="err">PITCH=</span><span class="m">0</span><span class="err">.</span><span class="m">20</span> <span class="err">END</span> <span class="err">GRAIN</span>
<span class="err">PEBBLE</span> <span class="err">SPHTRIANGP</span> <span class="err">RIGHT_BDY=WHITE</span> <span class="err">HPITCH=</span><span class="m">3</span><span class="err">.</span><span class="m">2</span> <span class="m">8</span> <span class="err">FUELR=</span><span class="m">2</span><span class="err">.</span><span class="m">5</span> <span class="err">CLADR=</span><span class="m">3</span><span class="err">.</span><span class="m">0</span> <span class="m">7</span> <span class="err">END</span>
</pre></div>
</div>
<p>Since number of particles is sufficient to perform the homogenization,
it is used. However, instead of calculating the pitch for the 1-D cell
calculation for each grain type, the user input pitch is used. Hence,
the calculated <em>k</em><sub>eff</sub> of Example 6 will be different from those of
Examples 4 and 5.</p>
<p><strong>EXAMPLE 7: Same as Example 6 except the doubly-heterogeneous cell will
be cell-weighted.</strong></p>
<blockquote>
<div><p>The final cell-weighted mixture number is 17.</p>
</div></blockquote>
<div class="highlight-scale notranslate"><div class="highlight"><pre><span></span><span class="err">DOUBLEHET</span> <span class="err">FUELMIX=</span><span class="m">10</span> <span class="err">END</span>
 <span class="err">GFR=</span><span class="m">0</span><span class="err">.</span><span class="m">025</span>  <span class="m">1</span> <span class="err">COATT=</span><span class="m">0</span><span class="err">.</span><span class="m">009</span> <span class="m">2</span>
 <span class="err">NUMPAR=</span><span class="m">10000</span> <span class="err">PITCH=</span><span class="m">0</span><span class="err">.</span><span class="m">25</span> <span class="err">MATRIX=</span><span class="m">6</span> <span class="err">END</span> <span class="err">GRAIN</span>
 <span class="err">GFR=</span><span class="m">0</span><span class="err">.</span><span class="m">012</span>  <span class="m">11</span> <span class="err">COATT=</span><span class="m">0</span><span class="err">.</span><span class="m">0095</span> <span class="m">12</span>
 <span class="err">NUMPAR=</span><span class="m">5000</span> <span class="err">PITCH=</span><span class="m">0</span><span class="err">.</span><span class="m">20</span> <span class="err">MATRIX=</span><span class="m">16</span> <span class="err">END</span> <span class="err">GRAIN</span>
<span class="err">PEBBLE</span> <span class="err">SPHTRIANGP</span> <span class="err">RIGHT_BDY=WHITE</span> <span class="err">HPITCH=</span><span class="m">3</span><span class="err">.</span><span class="m">2</span> <span class="m">8</span> <span class="err">FUELR=</span><span class="m">2</span><span class="err">.</span><span class="m">5</span> <span class="err">CLADR=</span><span class="m">3</span><span class="err">.</span><span class="m">0</span> <span class="m">7</span> <span class="err">CELLMIX=</span><span class="m">17</span> <span class="err">END</span>
</pre></div>
</div>
<p>EXAMPLE 8: A doubly-heterogeneous spherical fuel element with 15,000 UO<sub>2</sub> particles in a graphite matrix.</p>
<blockquote>
<div><p>Grain fuel radius is 0.012 cm. Grain contains four coating layers
that are 0.0095, 0.004, 0.0035, and 0.004-cm-thick. Pebbles are in a
square pitch on a 6.0‑cm-pitch. Fuel pebble fuel zone is 2.5-cm in
radius and contains a 0.5-cm-thick graphite clad that contains small
amounts of <sup>10</sup>B. Pebbles are surrounded by <sup>4</sup>He.
Assume the composition block is given below:</p>
</div></blockquote>
<div class="highlight-scale notranslate"><div class="highlight"><pre><span></span><span class="c">&#39; UO2 FUEL KERNEL</span>
<span class="err">U-</span><span class="m">235</span>  <span class="m">1</span> <span class="m">0</span> <span class="m">1</span><span class="err">.</span><span class="m">92585</span><span class="err">E-</span><span class="m">3</span> <span class="m">293</span><span class="err">.</span><span class="m">6</span> <span class="err">END</span>
<span class="err">O</span>      <span class="m">1</span> <span class="m">0</span> <span class="m">4</span><span class="err">.</span><span class="m">64272</span><span class="err">E-</span><span class="m">2</span> <span class="m">293</span><span class="err">.</span><span class="m">6</span> <span class="err">END</span>
<span class="c">&#39; FIRST COATING</span>
<span class="err">C</span>      <span class="m">2</span> <span class="m">0</span> <span class="m">5</span><span class="err">.</span><span class="m">26449</span><span class="err">E-</span><span class="m">2</span> <span class="m">293</span><span class="err">.</span><span class="m">6</span> <span class="err">END</span>
<span class="c">&#39; INNER PYRO CARBON</span>
<span class="err">C</span>      <span class="m">3</span> <span class="m">0</span> <span class="m">9</span><span class="err">.</span><span class="m">52621</span><span class="err">E-</span><span class="m">2</span> <span class="m">293</span><span class="err">.</span><span class="m">6</span> <span class="err">END</span>
<span class="c">&#39; SILICON CARBIDE</span>
<span class="err">C</span>      <span class="m">4</span> <span class="m">0</span> <span class="m">4</span><span class="err">.</span><span class="m">77240</span><span class="err">E-</span><span class="m">2</span> <span class="m">293</span><span class="err">.</span><span class="m">6</span> <span class="err">END</span>
<span class="err">SI</span>     <span class="m">4</span> <span class="m">0</span> <span class="m">4</span><span class="err">.</span><span class="m">77240</span><span class="err">E-</span><span class="m">2</span> <span class="m">293</span><span class="err">.</span><span class="m">6</span> <span class="err">END</span>
<span class="c">&#39; OUTER PYRO CARBON</span>
<span class="err">C</span>      <span class="m">5</span> <span class="m">0</span> <span class="m">9</span><span class="err">.</span><span class="m">52621</span><span class="err">E-</span><span class="m">2</span> <span class="m">293</span><span class="err">.</span><span class="m">6</span> <span class="err">END</span>
<span class="c">&#39; GRAPHITE MATRIX</span>
<span class="err">GRAPHITE</span> <span class="m">6</span> <span class="m">0</span> <span class="m">8</span><span class="err">.</span><span class="m">77414</span><span class="err">E-</span><span class="m">2</span> <span class="m">293</span><span class="err">.</span><span class="m">6</span> <span class="err">END</span>
<span class="c">&#39; CARBON PEBBLE OUTER COATING</span>
<span class="err">C</span>      <span class="m">7</span> <span class="m">0</span> <span class="m">8</span><span class="err">.</span><span class="m">77414</span><span class="err">E-</span><span class="m">2</span> <span class="m">293</span><span class="err">.</span><span class="m">6</span> <span class="err">END</span>
<span class="err">B-</span><span class="m">10</span>   <span class="m">7</span> <span class="m">0</span> <span class="m">9</span><span class="err">.</span><span class="m">64977</span><span class="err">E-</span><span class="m">9</span> <span class="m">293</span><span class="err">.</span><span class="m">6</span> <span class="err">END</span>
<span class="err">HE-</span><span class="m">4</span>   <span class="m">8</span> <span class="m">0</span> <span class="m">2</span><span class="err">.</span><span class="m">65156</span><span class="err">E-</span><span class="m">5</span> <span class="m">293</span><span class="err">.</span><span class="m">6</span> <span class="err">END</span>
</pre></div>
</div>
<p>The cell data for the <strong>DOUBLEHET</strong> cell follows:</p>
<div class="highlight-scale notranslate"><div class="highlight"><pre><span></span><span class="err">DOUBLEHET</span> <span class="err">FUELMIX=</span><span class="m">10</span> <span class="err">END</span>
 <span class="err">GFR=</span><span class="m">0</span><span class="err">.</span><span class="m">012</span>  <span class="m">1</span> <span class="err">COATT=</span><span class="m">0</span><span class="err">.</span><span class="m">0095</span> <span class="m">2</span> <span class="err">COATT=</span><span class="m">0</span><span class="err">.</span><span class="m">004</span> <span class="m">3</span> <span class="err">COATT=</span><span class="m">0</span><span class="err">.</span><span class="m">0035</span> <span class="m">4</span> <span class="err">COATT=</span><span class="m">0</span><span class="err">.</span><span class="m">004</span> <span class="m">5</span> <span class="err">MATRIX=</span><span class="m">6</span> <span class="err">NUMPAR=</span><span class="m">15000</span> <span class="err">VF=</span><span class="m">0</span><span class="err">.</span><span class="m">0245</span> <span class="err">END</span> <span class="err">GRAIN</span>
<span class="err">PEBBLE</span> <span class="err">SPHSQUAREP</span> <span class="err">RIGHT_BDY=WHITE</span> <span class="err">HPITCH=</span><span class="m">3</span><span class="err">.</span><span class="m">0</span> <span class="m">8</span> <span class="err">FUELR=</span><span class="m">2</span><span class="err">.</span><span class="m">5</span> <span class="err">CLADR=</span><span class="m">3</span><span class="err">.</span><span class="m">0</span> <span class="m">7</span> <span class="err">END</span>
</pre></div>
</div>
<p>Note that the grains are overspecified and the numbers are inconsistent.
A <strong>VF</strong> value of 0.0245 results in a total number of particles of
10652.32 which is considerably less than 15,000. In this case, the code
will issue a warning to this effect and will use <strong>VF</strong> value in the
calculations (i.e., ignore <strong>NUMPAR</strong>=15000 entry).</p>
<p>EXAMPLE 9: Similar to Example 8 except radii for grain regions are entered.</p>
<div class="highlight-scale notranslate"><div class="highlight"><pre><span></span><span class="err">DOUBLEHET</span> <span class="err">FUELMIX=</span><span class="m">10</span> <span class="err">END</span>
 <span class="err">GFR=</span><span class="m">0</span><span class="err">.</span><span class="m">012</span>  <span class="m">1</span> <span class="err">COATR=</span><span class="m">0</span><span class="err">.</span><span class="m">0215</span> <span class="m">2</span> <span class="err">COATR=</span><span class="m">0</span><span class="err">.</span><span class="m">0255</span> <span class="m">3</span> <span class="err">COATR=</span><span class="m">0</span><span class="err">.</span><span class="m">029</span> <span class="m">4</span> <span class="err">COATR=</span><span class="m">0</span><span class="err">.</span><span class="m">033</span> <span class="m">5</span> <span class="err">MATRIX=</span><span class="m">6</span> <span class="err">NUMPAR=</span><span class="m">15000</span> <span class="err">VF=</span><span class="m">0</span><span class="err">.</span><span class="m">0245</span> <span class="err">END</span> <span class="err">GRAIN</span>
<span class="err">PEBBLE</span> <span class="err">SPHSQUAREP</span> <span class="err">RIGHT_BDY=WHITE</span> <span class="err">HPITCH=</span><span class="m">3</span><span class="err">.</span><span class="m">0</span> <span class="m">8</span> <span class="err">FUELR=</span><span class="m">2</span><span class="err">.</span><span class="m">5</span> <span class="err">CLADR=</span><span class="m">3</span><span class="err">.</span><span class="m">0</span> <span class="m">7</span> <span class="err">END</span>
</pre></div>
</div>
<p>EXAMPLE 10: A doubly-heterogeneous spherical fuel element with two UO<sub>2</sub> grain types.</p>
<blockquote>
<div><p>First grain type has a fuel radius of 0.025 cm. Second grain type
fuel radius is 0.004 cm. First grain type has one coating that is
0.009-cm-thick. Second grain type has two coatings each
0.004-cm-thick. Each grain type has a volume fraction of 0.45.
Pebbles are in a triangular pitch on a 7.0-cm-pitch. Fuel pebble fuel
zone is 2.5-cm in radius and contains a 0.5-cm-thick graphite clad
that contains small amounts of <sup>10</sup>B and <sup>11</sup>B. Pebbles
are surrounded by <sup>4</sup>He. Assume the composition block is given
below:</p>
</div></blockquote>
<div class="highlight-scale notranslate"><div class="highlight"><pre><span></span><span class="c">&#39; FUEL KERNEL</span>
<span class="err">U-</span><span class="m">238</span>  <span class="m">1</span> <span class="m">0</span> <span class="m">2</span><span class="err">.</span><span class="m">12877</span><span class="err">E-</span><span class="m">2</span> <span class="err">END</span>
<span class="err">U-</span><span class="m">235</span>  <span class="m">1</span> <span class="m">0</span> <span class="m">1</span><span class="err">.</span><span class="m">92585</span><span class="err">E-</span><span class="m">3</span> <span class="err">END</span>
<span class="err">O</span>      <span class="m">1</span> <span class="m">0</span> <span class="m">4</span><span class="err">.</span><span class="m">64272</span><span class="err">E-</span><span class="m">2</span> <span class="err">END</span>
<span class="err">B-</span><span class="m">10</span>   <span class="m">1</span> <span class="m">0</span> <span class="m">1</span><span class="err">.</span><span class="m">14694</span><span class="err">E-</span><span class="m">7</span> <span class="err">END</span>
<span class="err">B-</span><span class="m">11</span>   <span class="m">1</span> <span class="m">0</span> <span class="m">4</span><span class="err">.</span><span class="m">64570</span><span class="err">E-</span><span class="m">7</span> <span class="err">END</span>
<span class="c">&#39; FIRST COATING</span>
<span class="err">C</span>      <span class="m">2</span> <span class="m">0</span> <span class="m">5</span><span class="err">.</span><span class="m">26449</span><span class="err">E-</span><span class="m">2</span> <span class="err">END</span>
<span class="c">&#39; INNER PYRO CARBON</span>
<span class="err">C</span>      <span class="m">3</span> <span class="m">0</span> <span class="m">9</span><span class="err">.</span><span class="m">52621</span><span class="err">E-</span><span class="m">2</span> <span class="err">END</span>
<span class="c">&#39; SILICON CARBIDE</span>
<span class="err">C</span>      <span class="m">4</span> <span class="m">0</span> <span class="m">4</span><span class="err">.</span><span class="m">77240</span><span class="err">E-</span><span class="m">2</span> <span class="err">END</span>
<span class="err">SI</span>     <span class="m">4</span> <span class="m">0</span> <span class="m">4</span><span class="err">.</span><span class="m">77240</span><span class="err">E-</span><span class="m">2</span> <span class="err">END</span>
<span class="c">&#39; FUEL KERNEL</span>
<span class="err">U-</span><span class="m">238</span>  <span class="m">5</span> <span class="m">0</span> <span class="m">2</span><span class="err">.</span><span class="m">12877</span><span class="err">E-</span><span class="m">2</span> <span class="err">END</span>
<span class="err">U-</span><span class="m">235</span>  <span class="m">5</span> <span class="m">0</span> <span class="m">1</span><span class="err">.</span><span class="m">92585</span><span class="err">E-</span><span class="m">3</span> <span class="err">END</span>
<span class="err">O</span>      <span class="m">5</span> <span class="m">0</span> <span class="m">4</span><span class="err">.</span><span class="m">64272</span><span class="err">E-</span><span class="m">2</span> <span class="err">END</span>
<span class="err">B-</span><span class="m">10</span>   <span class="m">5</span> <span class="m">0</span> <span class="m">1</span><span class="err">.</span><span class="m">14694</span><span class="err">E-</span><span class="m">7</span> <span class="err">END</span>
<span class="err">B-</span><span class="m">11</span>   <span class="m">5</span> <span class="m">0</span> <span class="m">4</span><span class="err">.</span><span class="m">64570</span><span class="err">E-</span><span class="m">7</span> <span class="err">END</span>
<span class="c">&#39; GRAPHITE MATRIX</span>
<span class="err">C</span>      <span class="m">6</span> <span class="m">0</span> <span class="m">8</span><span class="err">.</span><span class="m">77414</span><span class="err">E-</span><span class="m">2</span> <span class="err">END</span>
<span class="err">B-</span><span class="m">10</span>   <span class="m">6</span> <span class="m">0</span> <span class="m">9</span><span class="err">.</span><span class="m">64977</span><span class="err">E-</span><span class="m">9</span> <span class="err">END</span>
<span class="err">B-</span><span class="m">11</span>   <span class="m">6</span> <span class="m">0</span> <span class="m">3</span><span class="err">.</span><span class="m">90864</span><span class="err">E-</span><span class="m">8</span> <span class="err">END</span>
<span class="c">&#39; CARBON PEBBLE OUTER COATING</span>
<span class="err">C</span>      <span class="m">7</span> <span class="m">0</span> <span class="m">8</span><span class="err">.</span><span class="m">77414</span><span class="err">E-</span><span class="m">2</span> <span class="err">END</span>
<span class="err">B-</span><span class="m">10</span>   <span class="m">7</span> <span class="m">0</span> <span class="m">9</span><span class="err">.</span><span class="m">64977</span><span class="err">E-</span><span class="m">9</span> <span class="err">END</span>
<span class="err">B-</span><span class="m">11</span>   <span class="m">7</span> <span class="m">0</span> <span class="m">3</span><span class="err">.</span><span class="m">90864</span><span class="err">E-</span><span class="m">8</span> <span class="err">END</span>
<span class="c">&#39; HELIUM</span>
<span class="err">HE</span>     <span class="m">8</span> <span class="m">0</span><span class="err">.</span><span class="m">000164</span> <span class="err">END</span>
<span class="c">&#39; GRAPHITE MATRIX</span>
<span class="err">C</span>      <span class="m">9</span> <span class="m">0</span> <span class="m">8</span><span class="err">.</span><span class="m">77414</span><span class="err">E-</span><span class="m">2</span> <span class="err">END</span>
<span class="err">B-</span><span class="m">10</span>   <span class="m">9</span> <span class="m">0</span> <span class="m">9</span><span class="err">.</span><span class="m">64977</span><span class="err">E-</span><span class="m">9</span> <span class="err">END</span>
<span class="err">B-</span><span class="m">11</span>   <span class="m">9</span> <span class="m">0</span> <span class="m">3</span><span class="err">.</span><span class="m">90864</span><span class="err">E-</span><span class="m">8</span> <span class="err">END</span>
</pre></div>
</div>
<p>The cell data for the <strong>DOUBLEHET</strong> cell follows:</p>
<div class="highlight-scale notranslate"><div class="highlight"><pre><span></span><span class="err">DOUBLEHET</span> <span class="err">FUELMIX=</span><span class="m">10</span> <span class="err">END</span>
 <span class="err">GFR=</span><span class="m">0</span><span class="err">.</span><span class="m">025</span>  <span class="m">1</span> <span class="err">COATR=</span><span class="m">0</span><span class="err">.</span><span class="m">034</span> <span class="m">2</span>  <span class="err">MATRIX=</span><span class="m">6</span> <span class="err">VF=</span><span class="m">0</span><span class="err">.</span><span class="m">45</span> <span class="err">END</span> <span class="err">GRAIN</span>
 <span class="err">COATT=</span><span class="m">0</span><span class="err">.</span><span class="m">004</span> <span class="m">3</span> <span class="err">GFR=</span><span class="m">0</span><span class="err">.</span><span class="m">4</span> <span class="m">5</span> <span class="err">COATT=</span><span class="m">0</span><span class="err">.</span><span class="m">004</span> <span class="m">4</span> <span class="err">MATRIX=</span><span class="m">9</span>  <span class="err">VF=</span><span class="m">0</span><span class="err">.</span><span class="m">45</span>    <span class="err">END</span> <span class="err">GRAIN</span>
<span class="err">PEBBLE</span> <span class="err">SPHTRIANGP</span> <span class="err">RIGHT_BDY=WHITE</span> <span class="err">HPITCH=</span><span class="m">3</span><span class="err">.</span><span class="m">5</span> <span class="m">8</span> <span class="err">FUELD=</span><span class="m">5</span><span class="err">.</span><span class="m">0</span>
  <span class="err">CLADD=</span><span class="m">6</span><span class="err">.</span><span class="m">0</span> <span class="m">7</span> <span class="err">END</span>
</pre></div>
</div>
<p>EXAMPLE 11: A doubly-heterogeneous hexagonal block type fuel element
with UO<sub>2</sub> grains in a cylindrical fuel region.</p>
<blockquote>
<div><p>Grain fuel radius is 0.025 cm. Grain coating is 0.009-cm-thick.
Grains have a volume fraction of 0.45. Hexagonal rods are in a 7-cm
triangular pitch. Fuel rod fuel zone is 2.5-cm in radius, 10-cm-high
and contains a 0.5-cm-thick graphite clad that contains small amounts
of <sup>10</sup>B. Assume the composition block is below:</p>
</div></blockquote>
<div class="highlight-scale notranslate"><div class="highlight"><pre><span></span><span class="c">&#39; FUEL KERNEL</span>
<span class="err">U-</span><span class="m">238</span>  <span class="m">1</span> <span class="m">0</span> <span class="m">2</span><span class="err">.</span><span class="m">12877</span><span class="err">E-</span><span class="m">2</span> <span class="err">END</span>
<span class="err">U-</span><span class="m">235</span>  <span class="m">1</span> <span class="m">0</span> <span class="m">1</span><span class="err">.</span><span class="m">92585</span><span class="err">E-</span><span class="m">3</span> <span class="err">END</span>
<span class="err">O</span>      <span class="m">1</span> <span class="m">0</span> <span class="m">4</span><span class="err">.</span><span class="m">64272</span><span class="err">E-</span><span class="m">2</span> <span class="err">END</span>
<span class="err">B-</span><span class="m">10</span>   <span class="m">1</span> <span class="m">0</span> <span class="m">1</span><span class="err">.</span><span class="m">14694</span><span class="err">E-</span><span class="m">7</span> <span class="err">END</span>
<span class="c">&#39; FIRST COATING</span>
<span class="err">C</span>      <span class="m">2</span> <span class="m">0</span> <span class="m">5</span><span class="err">.</span><span class="m">26449</span><span class="err">E-</span><span class="m">2</span> <span class="err">END</span>
<span class="c">&#39; GRAPHITE MATRIX</span>
<span class="err">C</span>      <span class="m">6</span> <span class="m">0</span> <span class="m">8</span><span class="err">.</span><span class="m">77414</span><span class="err">E-</span><span class="m">2</span> <span class="err">END</span>
<span class="err">B-</span><span class="m">10</span>   <span class="m">6</span> <span class="m">0</span> <span class="m">9</span><span class="err">.</span><span class="m">64977</span><span class="err">E-</span><span class="m">9</span> <span class="err">END</span>
<span class="c">&#39; CARBON PEBBLE OUTER COATING</span>
<span class="err">C</span>      <span class="m">7</span> <span class="m">0</span> <span class="m">8</span><span class="err">.</span><span class="m">77414</span><span class="err">E-</span><span class="m">2</span> <span class="err">END</span>
<span class="err">B-</span><span class="m">10</span>   <span class="m">7</span> <span class="m">0</span> <span class="m">9</span><span class="err">.</span><span class="m">64977</span><span class="err">E-</span><span class="m">9</span> <span class="err">END</span>
<span class="c">&#39; IRON CLADDING</span>
<span class="err">FE</span>     <span class="m">8</span> <span class="err">END</span>
</pre></div>
</div>
<p>The cell data for the <strong>DOUBLEHET</strong> cell follows:</p>
<div class="highlight-scale notranslate"><div class="highlight"><pre><span></span><span class="err">DOUBLEHET</span> <span class="err">FUELMIX=</span><span class="m">10</span> <span class="err">END</span>
 <span class="err">GFR=</span><span class="m">0</span><span class="err">.</span><span class="m">025</span>  <span class="m">1</span> <span class="err">COATR=</span><span class="m">0</span><span class="err">.</span><span class="m">034</span> <span class="m">2</span>  <span class="err">MATRIX=</span><span class="m">6</span> <span class="err">VF=</span><span class="m">0</span><span class="err">.</span><span class="m">45</span> <span class="err">END</span> <span class="err">GRAIN</span>
<span class="err">ROD</span> <span class="err">TRIANGP</span> <span class="err">RIGHT_BDY=WHITE</span> <span class="err">HPITCH=</span><span class="m">3</span><span class="err">.</span><span class="m">5</span> <span class="m">7</span> <span class="err">FUELD=</span><span class="m">5</span><span class="err">.</span><span class="m">0</span>
  <span class="err">FUELH=</span><span class="m">10</span> <span class="err">END</span>
</pre></div>
</div>
<p>EXAMPLE 12: This is the same as Example 11 except the fuel elements (cylindrical rods) have 0.05‑cm-thick iron cladding.</p>
<p>The cell data for the <strong>DOUBLEHET</strong> cell follows:</p>
<div class="highlight-scale notranslate"><div class="highlight"><pre><span></span><span class="err">DOUBLEHET</span> <span class="err">FUELMIX=</span><span class="m">10</span> <span class="err">END</span>
 <span class="err">GFR=</span><span class="m">0</span><span class="err">.</span><span class="m">025</span>  <span class="m">1</span> <span class="err">COATR=</span><span class="m">0</span><span class="err">.</span><span class="m">034</span> <span class="m">2</span>  <span class="err">MATRIX=</span><span class="m">6</span> <span class="err">VF=</span><span class="m">0</span><span class="err">.</span><span class="m">45</span> <span class="err">END</span> <span class="err">GRAIN</span>
<span class="err">ROD</span> <span class="err">TRIANGP</span> <span class="err">RIGHT_BDY=WHITE</span> <span class="err">HPITCH=</span><span class="m">3</span><span class="err">.</span><span class="m">5</span> <span class="m">7</span> <span class="err">FUELR=</span><span class="m">2</span><span class="err">.</span><span class="m">5</span>
  <span class="err">CLADD=</span><span class="m">5</span><span class="err">.</span><span class="m">1</span> <span class="m">8</span> <span class="err">FUELH=</span><span class="m">10</span> <span class="err">END</span>
</pre></div>
</div>
</div>
<div class="section" id="optional-parameter-data">
<span id="b-5"></span><h2>Optional parameter data<a class="headerlink" href="#optional-parameter-data" title="Permalink to this headline"></a></h2>
<p>The optional parameter data provide a means of providing additional
information or alternative data to the cross-section processing codes.
There are two types of optional parameter data. The first type of data
is used by XSDRNPM and BONAMI for cross-section processing and
cell-weighting cross sections. This type of data is initiated using the
keywords <strong>MORE DATA</strong> and ends with the keywords <strong>END MORE</strong>. This
input is described in <a class="reference internal" href="XSProc.html#id25"><span class="std std-ref">Optional MORE DATA parameter data</span></a>. The second type of optional
parameter data is used by CENTRM and PMC for cross-section processing.
This type of data is initiated using the keywords <strong>CENTRM DATA</strong> and
ends with the keywords <strong>END CENTRM</strong>. This input is described in
<a class="reference internal" href="XSProc.html#id26"><span class="std std-ref">Optional CENTRM DATA parameter data</span></a>. It is possible to input both types of data for a unit
cell. The optional parameter data specified apply only to the unit cell
that immediately precedes it.</p>
<p>MORE DATA examples</p>
<p>Consider a problem in which it is desirable to increase the number of
inner iterations in XSDRNPM to 30 and to tighten the overall convergence
criteria to a value of 0.000075. This could be accomplished by entering
the data as follows:</p>
<div class="highlight-scale notranslate"><div class="highlight"><pre><span></span><span class="err">MORE</span> <span class="err">DATA</span>   <span class="err">IIM=</span><span class="m">30</span>  <span class="err">EPS=</span><span class="m">0</span><span class="err">.</span><span class="m">000075</span>  <span class="err">END</span>
</pre></div>
</div>
<p>The order of the data entry is not important, and it can be continued
across several lines. However, a keyword and its value cannot be
separated across lines. The terminator for the optional parameter data,
END, must not begin in column 1 unless you assign a name to it. An
alternative method of entering the above data is given below.</p>
<div class="highlight-scale notranslate"><div class="highlight"><pre><span></span><span class="err">MORE</span> <span class="err">DATA</span>
  <span class="err">IIM=</span><span class="m">30</span>  <span class="err">EPS=</span><span class="m">0</span><span class="err">.</span><span class="m">000075</span>
<span class="err">END</span> <span class="err">MORE</span>
</pre></div>
</div>
<p>or,</p>
<div class="highlight-scale notranslate"><div class="highlight"><pre><span></span><span class="err">MORE</span> <span class="err">DATA</span>  <span class="err">IIM=</span><span class="m">30</span>  <span class="err">EPS=</span><span class="m">0</span><span class="err">.</span><span class="m">000075</span>  <span class="err">END</span> <span class="err">MORE</span> <span class="err">DATA</span>
</pre></div>
</div>
</div>
<div class="section" id="centrm-data-examples">
<span id="b-6"></span><h2>CENTRM DATA examples<a class="headerlink" href="#centrm-data-examples" title="Permalink to this headline"></a></h2>
<p>Consider a problem in which it is desirable to increase the upper energy
of the CENTRM CE transport calculation from the default of 20000 eV to a
value 50000 eV, and to extend the default lower energy from 0.001 eV to
0.0001. This is accomplished by entering the data as follows:</p>
<div class="highlight-scale notranslate"><div class="highlight"><pre><span></span><span class="err">CENTRM</span> <span class="err">DATA</span>  <span class="err">DEMAX=</span><span class="m">50000</span>  <span class="err">DEMIN=</span><span class="m">0</span><span class="err">.</span><span class="m">0001</span> <span class="err">END</span> <span class="err">CENTRM</span>
</pre></div>
</div>
<p>As with the <strong>MORE DATA</strong> block, an alternative method of entering the
above data is given below.</p>
<div class="highlight-scale notranslate"><div class="highlight"><pre><span></span><span class="err">CENTRMDATA</span>
  <span class="err">DEMAX=</span><span class="m">50000</span>  <span class="err">DEMIN=</span><span class="m">0</span><span class="err">.</span><span class="m">0001</span>
<span class="err">END</span> <span class="err">CENTRMDATA</span>
</pre></div>
</div>
<p><strong>CENTRM and PMC</strong> computation options can also be controlled with
<strong>CENTRM DATA.</strong> A complete description of the CENTRM/PMC computational
methods and options can be found the corresponding sections of the SCALE
manual. The following example specifies that:</p>
<p>(a) discrete-level inelastic scattering will be used in CENTRM and
processed in PMC [nmf6];</p>
<p>(b) the CENTRM 1D discrete S<sub>N</sub> transport solver will be used in
the upper MG energy range [nfst] and the CE energy range [npxs], while
the infinitie medium model will be used for the thermal energy range
[nthr];</p>
<p>(c) a P3 scattering order [isct] will be used in the transport
calculations;</p>
<p>(d) PMC will perform “consistent PN” corrections on Legendre moments of
the 2D elastic matrices [n2d]; (e) additional output information will be
provided by CENTRM [ixprt] and by PMC [nprt].</p>
<div class="highlight-scale notranslate"><div class="highlight"><pre><span></span><span class="err">CENTRM</span> <span class="err">DATA</span>  <span class="err">NMF</span><span class="m">6</span><span class="err">=</span><span class="m">0</span> <span class="err">NFST=</span><span class="m">0</span> <span class="err">NTHR=</span><span class="m">2</span> <span class="err">ISCT=</span><span class="m">3</span>
       <span class="err">N</span><span class="m">2</span><span class="err">D=-</span><span class="m">2</span> <span class="err">IXPRT=</span><span class="m">1</span>  <span class="err">NPRT=</span><span class="m">1</span>    <span class="err">END</span> <span class="err">CENTRM</span> <span class="err">DATA</span>
</pre></div>
</div>
</div>
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