extreme value of precipitation over tropic – in #8: General Questions

in #8: General Questions

<p> Which <span class="caps"> CCLM </span> version do you use? Also, please upload your <span class="caps"> YUSPECIF </span> file. Other members running simulations in the tropics may want to compare their <span class="caps"> YUSPECIF </span> with yours to find differences. <br/> I have also found such overshootings in single grid points when I used the default Tiedtke convection <code> itype_conv=0 </code> , but have no explanation. With the <span class="caps"> IFS </span> convection <code> itype_conv=4 </code> it seems to be smoother. </p>

  @burkhardtrockel in #46aa3fd

<p> Which <span class="caps"> CCLM </span> version do you use? Also, please upload your <span class="caps"> YUSPECIF </span> file. Other members running simulations in the tropics may want to compare their <span class="caps"> YUSPECIF </span> with yours to find differences. <br/> I have also found such overshootings in single grid points when I used the default Tiedtke convection <code> itype_conv=0 </code> , but have no explanation. With the <span class="caps"> IFS </span> convection <code> itype_conv=4 </code> it seems to be smoother. </p>
BR replied

Which CCLM version do you use? Also, please upload your YUSPECIF file. Other members running simulations in the tropics may want to compare their YUSPECIF with yours to find differences.
I have also found such overshootings in single grid points when I used the default Tiedtke convection itype_conv=0 , but have no explanation. With the IFS convection itype_conv=4 it seems to be smoother.

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