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2 changes: 2 additions & 0 deletions _sources/examples/vera.rst.txt
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@@ -11,6 +11,8 @@ VERA系列基准题是美国国家橡树岭实验室为验证CASL计划中开发

相关参考文献如下:

.. _vera_reference:

1. Godfrey, A.T., 2014. VERA core physics benchmark progression problem
specifications. Oak Ridge National Laboratory, Oak Ridge, TN, Report No.
CASL-U-2012-0131-004. https://www.casl.gov/sites/default/files/docs/CASL-U-2012-0131-004.pdf.
175 changes: 3 additions & 172 deletions _sources/v_and_v/vera.rst.txt
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@@ -11,179 +11,10 @@ VERA
VERA_1
------------

VERA_1系列基准题包含1A-1E总共5个两维单栅元问题,分别是

该基准问题计算条件如下:

#. CRANE用户输入文件与 :ref:`c5g7_2d` 基准题示例中一致;
#. CRANE版本号 ``1.3.3``;

该基准问题参考解由 `OpenMC`_ 提供,总共投入粒子 ``2000`` 代,每代 ``100000`` 个粒子,
前 ``500`` 代不计入统计。

CRANE与 `OpenMC`_ 计算结果的比较如下:

.. figure:: ../_images/vv_C5G7_2D_summary.png
:align: center
:figclass: align-center
:width: 800px
|
棒功率分布偏差如下图:

.. figure:: ../_images/vv_C5G7_2D_pin_power.png
:align: center
:figclass: align-center
:width: 800px


.. _vv_c5g7_3d:

--------
C5G7_3D
--------

该基准问题计算条件如下:

#. CRANE用户输入文件与 :ref:`c5g7_3d` 基准题示例中一致;
#. CRANE版本号 ``1.3.3``;

该基准问题参考解由 `OpenMC`_ 提供,总共投入粒子 ``2000`` 代,每代 ``200000`` 个粒子,
前 ``500`` 代不计入统计。

CRANE与 `OpenMC`_ 计算结果的比较如下:

.. figure:: ../_images/vv_C5G7_3D_summary.png
:align: center
:figclass: align-center
:width: 800px
|
其中棒功率分布偏差如下图:

.. figure:: ../_images/vv_C5G7_3D_pin_power.png
:align: center
:figclass: align-center
:width: 800px

其中轴向功率分布偏差如下图:

.. figure:: ../_images/vv_C5G7_3D_axial_power.png
:align: center
:figclass: align-center
:width: 800px


.. _vv_c5g7_3d_unrodded:

-----------------
C5G7_3D_unrodded
-----------------

该基准问题计算条件如下:

#. CRANE用户输入文件与 :ref:`c5g7_3d_unrodded` 基准题示例中一致;
#. CRANE版本号 ``1.3.3``;

该基准问题参考解由 `OpenMC`_ 提供,总共投入粒子 ``2000`` 代,每代 ``200000`` 个粒子,
前 ``500`` 代不计入统计。

CRANE与 `OpenMC`_ 计算结果的比较如下:

.. figure:: ../_images/vv_C5G7_3D_unrodded_summary.png
:align: center
:figclass: align-center
:width: 800px
|
其中棒功率分布偏差如下图:

.. figure:: ../_images/vv_C5G7_3D_unrodded_pin_power.png
:align: center
:figclass: align-center
:width: 800px

其中轴向功率分布偏差如下图:

.. figure:: ../_images/vv_C5G7_3D_unrodded_axial_power.png
:align: center
:figclass: align-center
:width: 800px


.. _vv_c5g7_3d_rodded_a:

-----------------
C5G7_3D_rodded_A
-----------------

该基准问题计算条件如下:

#. CRANE用户输入文件与 :ref:`c5g7_3d_rodded_a` 基准题示例中一致;
#. CRANE版本号 ``1.3.3``;

该基准问题参考解由 `OpenMC`_ 提供,总共投入粒子 ``2000`` 代,每代 ``200000`` 个粒子,
前 ``500`` 代不计入统计。

CRANE与 `OpenMC`_ 计算结果的比较如下:

.. figure:: ../_images/vv_C5G7_3D_rodded_A_summary.png
:align: center
:figclass: align-center
:width: 800px
|
其中棒功率分布偏差如下图:

.. figure:: ../_images/vv_C5G7_3D_rodded_A_pin_power.png
:align: center
:figclass: align-center
:width: 800px

其中轴向功率分布偏差如下图:

.. figure:: ../_images/vv_C5G7_3D_rodded_A_axial_power.png
:align: center
:figclass: align-center
:width: 800px


.. _vv_c5g7_3d_rodded_b:

-----------------
C5G7_3D_rodded_B
-----------------

VERA_1系列基准题包含1A-1E总共5个两维单栅元问题,用来考察程序对于典型压水堆栅元的反应性计算准确性。
该基准问题计算条件如下:

#. CRANE用户输入文件与 :ref:`c5g7_3d_rodded_b` 基准题示例中一致;
#. CRANE用户输入文件与 :ref:`vera` 基准题示例中一致;
#. CRANE版本号 ``1.3.3``;

该基准问题参考解由 `OpenMC`_ 提供,总共投入粒子 ``2000`` 代,每代 ``200000`` 个粒子,
前 ``500`` 代不计入统计。

CRANE与 `OpenMC`_ 计算结果的比较如下:

.. figure:: ../_images/vv_C5G7_3D_rodded_B_summary.png
:align: center
:figclass: align-center
:width: 800px
|
其中棒功率分布偏差如下图:

.. figure:: ../_images/vv_C5G7_3D_rodded_B_pin_power.png
:align: center
:figclass: align-center
:width: 800px

其中轴向功率分布偏差如下图:

.. figure:: ../_images/vv_C5G7_3D_rodded_B_axial_power.png
:align: center
:figclass: align-center
:width: 800px



.. _OpenMC: https://docs.openmc.org/en/stable/
该基准问题参考解来至 `参考文献[1]<vera_reference>`_,由KENO-VI计算获得。
2 changes: 1 addition & 1 deletion examples/vera.html
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@@ -225,7 +225,7 @@
<p>VERA系列基准题是美国国家橡树岭实验室为验证CASL计划中开发的程序所设计的一系列非常完备的基准题,
它是以西屋公司设计的17×17压水堆Watts Bar为模型,涵盖从二维单栅元到三维全堆芯、多物理耦合及时间依赖的十类基准问题。</p>
<p>相关参考文献如下:</p>
<ol class="arabic simple">
<ol class="arabic simple" id="vera-reference">
<li><p>Godfrey, A.T., 2014. VERA core physics benchmark progression problem
specifications. Oak Ridge National Laboratory, Oak Ridge, TN, Report No.
CASL-U-2012-0131-004. <a class="reference external" href="https://www.casl.gov/sites/default/files/docs/CASL-U-2012-0131-004.pdf">https://www.casl.gov/sites/default/files/docs/CASL-U-2012-0131-004.pdf</a>.</p></li>
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4 changes: 0 additions & 4 deletions v_and_v/index.html
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@@ -202,10 +202,6 @@
</li>
<li class="toctree-l1"><a class="reference internal" href="vera.html">3. VERA</a><ul>
<li class="toctree-l2"><a class="reference internal" href="vera.html#vera-1">3.1. VERA_1</a></li>
<li class="toctree-l2"><a class="reference internal" href="vera.html#c5g7-3d">3.2. C5G7_3D</a></li>
<li class="toctree-l2"><a class="reference internal" href="vera.html#c5g7-3d-unrodded">3.3. C5G7_3D_unrodded</a></li>
<li class="toctree-l2"><a class="reference internal" href="vera.html#c5g7-3d-rodded-a">3.4. C5G7_3D_rodded_A</a></li>
<li class="toctree-l2"><a class="reference internal" href="vera.html#c5g7-3d-rodded-b">3.5. C5G7_3D_rodded_B</a></li>
</ul>
</li>
</ul>
124 changes: 4 additions & 120 deletions v_and_v/vera.html
Original file line number Diff line number Diff line change
@@ -109,10 +109,6 @@
<li class="toctree-l2"><a class="reference internal" href="c5g7h.html">2. C5G7H</a></li>
<li class="toctree-l2 current"><a class="current reference internal" href="#">3. VERA</a><ul>
<li class="toctree-l3"><a class="reference internal" href="#vera-1">3.1. VERA_1</a></li>
<li class="toctree-l3"><a class="reference internal" href="#c5g7-3d">3.2. C5G7_3D</a></li>
<li class="toctree-l3"><a class="reference internal" href="#c5g7-3d-unrodded">3.3. C5G7_3D_unrodded</a></li>
<li class="toctree-l3"><a class="reference internal" href="#c5g7-3d-rodded-a">3.4. C5G7_3D_rodded_A</a></li>
<li class="toctree-l3"><a class="reference internal" href="#c5g7-3d-rodded-b">3.5. C5G7_3D_rodded_B</a></li>
</ul>
</li>
</ul>
@@ -195,125 +191,13 @@
<span id="v-and-v-vera"></span><h1><span class="section-number">3. </span>VERA<a class="headerlink" href="#vera" title="Permalink to this heading"></a></h1>
<section id="vera-1">
<span id="vv-vera-1"></span><h2><span class="section-number">3.1. </span>VERA_1<a class="headerlink" href="#vera-1" title="Permalink to this heading"></a></h2>
<p>VERA_1系列基准题包含1A-1E总共5个两维单栅元问题,分别是</p>
<p>该基准问题计算条件如下:</p>
<p>VERA_1系列基准题包含1A-1E总共5个两维单栅元问题,用来考察程序对于典型压水堆栅元的反应性计算准确性。
该基准问题计算条件如下:</p>
<ol class="arabic simple">
<li><p>CRANE用户输入文件与 <a class="reference internal" href="../examples/c5g7.html#c5g7-2d"><span class="std std-ref">C5G7_2D</span></a> 基准题示例中一致;</p></li>
<li><p>CRANE用户输入文件与 <span class="xref std std-ref">vera</span> 基准题示例中一致;</p></li>
<li><p>CRANE版本号 <code class="docutils literal notranslate"><span class="pre">1.3.3</span></code></p></li>
</ol>
<p>该基准问题参考解由 <a class="reference external" href="https://docs.openmc.org/en/stable/">OpenMC</a> 提供,总共投入粒子 <code class="docutils literal notranslate"><span class="pre">2000</span></code> 代,每代 <code class="docutils literal notranslate"><span class="pre">100000</span></code> 个粒子,
<code class="docutils literal notranslate"><span class="pre">500</span></code> 代不计入统计。</p>
<p>CRANE与 <a class="reference external" href="https://docs.openmc.org/en/stable/">OpenMC</a> 计算结果的比较如下:</p>
<figure class="align-center">
<a class="reference internal image-reference" href="../_images/vv_C5G7_2D_summary.png"><img alt="../_images/vv_C5G7_2D_summary.png" src="../_images/vv_C5G7_2D_summary.png" style="width: 800px;" /></a>
</figure>
<div class="line-block">
<div class="line"><br /></div>
</div>
<p>棒功率分布偏差如下图:</p>
<figure class="align-center">
<a class="reference internal image-reference" href="../_images/vv_C5G7_2D_pin_power.png"><img alt="../_images/vv_C5G7_2D_pin_power.png" src="../_images/vv_C5G7_2D_pin_power.png" style="width: 800px;" /></a>
</figure>
</section>
<section id="c5g7-3d">
<span id="vv-c5g7-3d"></span><h2><span class="section-number">3.2. </span>C5G7_3D<a class="headerlink" href="#c5g7-3d" title="Permalink to this heading"></a></h2>
<p>该基准问题计算条件如下:</p>
<ol class="arabic simple">
<li><p>CRANE用户输入文件与 <a class="reference internal" href="../examples/c5g7.html#c5g7-3d"><span class="std std-ref">C5G7_3D</span></a> 基准题示例中一致;</p></li>
<li><p>CRANE版本号 <code class="docutils literal notranslate"><span class="pre">1.3.3</span></code></p></li>
</ol>
<p>该基准问题参考解由 <a class="reference external" href="https://docs.openmc.org/en/stable/">OpenMC</a> 提供,总共投入粒子 <code class="docutils literal notranslate"><span class="pre">2000</span></code> 代,每代 <code class="docutils literal notranslate"><span class="pre">200000</span></code> 个粒子,
<code class="docutils literal notranslate"><span class="pre">500</span></code> 代不计入统计。</p>
<p>CRANE与 <a class="reference external" href="https://docs.openmc.org/en/stable/">OpenMC</a> 计算结果的比较如下:</p>
<figure class="align-center">
<a class="reference internal image-reference" href="../_images/vv_C5G7_3D_summary.png"><img alt="../_images/vv_C5G7_3D_summary.png" src="../_images/vv_C5G7_3D_summary.png" style="width: 800px;" /></a>
</figure>
<div class="line-block">
<div class="line"><br /></div>
</div>
<p>其中棒功率分布偏差如下图:</p>
<figure class="align-center">
<a class="reference internal image-reference" href="../_images/vv_C5G7_3D_pin_power.png"><img alt="../_images/vv_C5G7_3D_pin_power.png" src="../_images/vv_C5G7_3D_pin_power.png" style="width: 800px;" /></a>
</figure>
<p>其中轴向功率分布偏差如下图:</p>
<figure class="align-center">
<a class="reference internal image-reference" href="../_images/vv_C5G7_3D_axial_power.png"><img alt="../_images/vv_C5G7_3D_axial_power.png" src="../_images/vv_C5G7_3D_axial_power.png" style="width: 800px;" /></a>
</figure>
</section>
<section id="c5g7-3d-unrodded">
<span id="vv-c5g7-3d-unrodded"></span><h2><span class="section-number">3.3. </span>C5G7_3D_unrodded<a class="headerlink" href="#c5g7-3d-unrodded" title="Permalink to this heading"></a></h2>
<p>该基准问题计算条件如下:</p>
<ol class="arabic simple">
<li><p>CRANE用户输入文件与 <a class="reference internal" href="../examples/c5g7.html#c5g7-3d-unrodded"><span class="std std-ref">C5G7_3D_unrodded</span></a> 基准题示例中一致;</p></li>
<li><p>CRANE版本号 <code class="docutils literal notranslate"><span class="pre">1.3.3</span></code></p></li>
</ol>
<p>该基准问题参考解由 <a class="reference external" href="https://docs.openmc.org/en/stable/">OpenMC</a> 提供,总共投入粒子 <code class="docutils literal notranslate"><span class="pre">2000</span></code> 代,每代 <code class="docutils literal notranslate"><span class="pre">200000</span></code> 个粒子,
<code class="docutils literal notranslate"><span class="pre">500</span></code> 代不计入统计。</p>
<p>CRANE与 <a class="reference external" href="https://docs.openmc.org/en/stable/">OpenMC</a> 计算结果的比较如下:</p>
<figure class="align-center">
<a class="reference internal image-reference" href="../_images/vv_C5G7_3D_unrodded_summary.png"><img alt="../_images/vv_C5G7_3D_unrodded_summary.png" src="../_images/vv_C5G7_3D_unrodded_summary.png" style="width: 800px;" /></a>
</figure>
<div class="line-block">
<div class="line"><br /></div>
</div>
<p>其中棒功率分布偏差如下图:</p>
<figure class="align-center">
<a class="reference internal image-reference" href="../_images/vv_C5G7_3D_unrodded_pin_power.png"><img alt="../_images/vv_C5G7_3D_unrodded_pin_power.png" src="../_images/vv_C5G7_3D_unrodded_pin_power.png" style="width: 800px;" /></a>
</figure>
<p>其中轴向功率分布偏差如下图:</p>
<figure class="align-center">
<a class="reference internal image-reference" href="../_images/vv_C5G7_3D_unrodded_axial_power.png"><img alt="../_images/vv_C5G7_3D_unrodded_axial_power.png" src="../_images/vv_C5G7_3D_unrodded_axial_power.png" style="width: 800px;" /></a>
</figure>
</section>
<section id="c5g7-3d-rodded-a">
<span id="vv-c5g7-3d-rodded-a"></span><h2><span class="section-number">3.4. </span>C5G7_3D_rodded_A<a class="headerlink" href="#c5g7-3d-rodded-a" title="Permalink to this heading"></a></h2>
<p>该基准问题计算条件如下:</p>
<ol class="arabic simple">
<li><p>CRANE用户输入文件与 <a class="reference internal" href="../examples/c5g7.html#c5g7-3d-rodded-a"><span class="std std-ref">C5G7_3D_rodded_A</span></a> 基准题示例中一致;</p></li>
<li><p>CRANE版本号 <code class="docutils literal notranslate"><span class="pre">1.3.3</span></code></p></li>
</ol>
<p>该基准问题参考解由 <a class="reference external" href="https://docs.openmc.org/en/stable/">OpenMC</a> 提供,总共投入粒子 <code class="docutils literal notranslate"><span class="pre">2000</span></code> 代,每代 <code class="docutils literal notranslate"><span class="pre">200000</span></code> 个粒子,
<code class="docutils literal notranslate"><span class="pre">500</span></code> 代不计入统计。</p>
<p>CRANE与 <a class="reference external" href="https://docs.openmc.org/en/stable/">OpenMC</a> 计算结果的比较如下:</p>
<figure class="align-center">
<a class="reference internal image-reference" href="../_images/vv_C5G7_3D_rodded_A_summary.png"><img alt="../_images/vv_C5G7_3D_rodded_A_summary.png" src="../_images/vv_C5G7_3D_rodded_A_summary.png" style="width: 800px;" /></a>
</figure>
<div class="line-block">
<div class="line"><br /></div>
</div>
<p>其中棒功率分布偏差如下图:</p>
<figure class="align-center">
<a class="reference internal image-reference" href="../_images/vv_C5G7_3D_rodded_A_pin_power.png"><img alt="../_images/vv_C5G7_3D_rodded_A_pin_power.png" src="../_images/vv_C5G7_3D_rodded_A_pin_power.png" style="width: 800px;" /></a>
</figure>
<p>其中轴向功率分布偏差如下图:</p>
<figure class="align-center">
<a class="reference internal image-reference" href="../_images/vv_C5G7_3D_rodded_A_axial_power.png"><img alt="../_images/vv_C5G7_3D_rodded_A_axial_power.png" src="../_images/vv_C5G7_3D_rodded_A_axial_power.png" style="width: 800px;" /></a>
</figure>
</section>
<section id="c5g7-3d-rodded-b">
<span id="vv-c5g7-3d-rodded-b"></span><h2><span class="section-number">3.5. </span>C5G7_3D_rodded_B<a class="headerlink" href="#c5g7-3d-rodded-b" title="Permalink to this heading"></a></h2>
<p>该基准问题计算条件如下:</p>
<ol class="arabic simple">
<li><p>CRANE用户输入文件与 <a class="reference internal" href="../examples/c5g7.html#c5g7-3d-rodded-b"><span class="std std-ref">C5G7_3D_rodded_B</span></a> 基准题示例中一致;</p></li>
<li><p>CRANE版本号 <code class="docutils literal notranslate"><span class="pre">1.3.3</span></code></p></li>
</ol>
<p>该基准问题参考解由 <a class="reference external" href="https://docs.openmc.org/en/stable/">OpenMC</a> 提供,总共投入粒子 <code class="docutils literal notranslate"><span class="pre">2000</span></code> 代,每代 <code class="docutils literal notranslate"><span class="pre">200000</span></code> 个粒子,
<code class="docutils literal notranslate"><span class="pre">500</span></code> 代不计入统计。</p>
<p>CRANE与 <a class="reference external" href="https://docs.openmc.org/en/stable/">OpenMC</a> 计算结果的比较如下:</p>
<figure class="align-center">
<a class="reference internal image-reference" href="../_images/vv_C5G7_3D_rodded_B_summary.png"><img alt="../_images/vv_C5G7_3D_rodded_B_summary.png" src="../_images/vv_C5G7_3D_rodded_B_summary.png" style="width: 800px;" /></a>
</figure>
<div class="line-block">
<div class="line"><br /></div>
</div>
<p>其中棒功率分布偏差如下图:</p>
<figure class="align-center">
<a class="reference internal image-reference" href="../_images/vv_C5G7_3D_rodded_B_pin_power.png"><img alt="../_images/vv_C5G7_3D_rodded_B_pin_power.png" src="../_images/vv_C5G7_3D_rodded_B_pin_power.png" style="width: 800px;" /></a>
</figure>
<p>其中轴向功率分布偏差如下图:</p>
<figure class="align-center">
<a class="reference internal image-reference" href="../_images/vv_C5G7_3D_rodded_B_axial_power.png"><img alt="../_images/vv_C5G7_3D_rodded_B_axial_power.png" src="../_images/vv_C5G7_3D_rodded_B_axial_power.png" style="width: 800px;" /></a>
</figure>
<p>该基准问题参考解来至 <a href="#id1"><span class="problematic" id="id2">`参考文献[1]&lt;vera_reference&gt;`_</span></a>,由KENO-VI计算获得。</p>
</section>
</section>

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