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

  @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>

  @bohuang in #4c5fde3

<p> the <span class="caps"> CCLM </span> version is cosmo_090213_4.8_clm19. So, I will make a sensitivity experiment for choosing <span class="caps"> IFS </span> convection itype_conv=4. Let’s see how it will come. </p> <p> thank you very much. </p>

  @bohuang in #9b57892

<p> Hallo Burkhardt, </p> <p> I found that there is no option of itype_conv=4. So, what should I do? </p>

  @burkhardtrockel in #5ebef83

<p> <code> itype_conv </code> is in the name list block <code> &amp;PHYCTL </code> </p>

  @bohuang in #28d5121

<p> yes, I know. There are only four options: 0,1,2,3. But no itype_conv=4. </p> <p> To specify the type of convection parameterization <br/> 0: Tiedtke scheme <br/> 1: redThis option has been eliminated <br/> 2: redThis option has been eliminated <br/> 3: Shallow convection based on Tiedtke scheme </p>

  @burkhardtrockel in #b95486e

<p> The namelist tool is probably not up-to-date. There should be a line <br/> 4: <span class="caps"> IFS </span> convection scheme </p>

  @andreaswill in #efc2ba5

<p> Hello Bo, <br/> most probably the high values of precipitation at individual grid points originate in the numerics of advection which cannot deal with convection at individual grid points. <br/> Instead of cooling feedback at the surface it is enhancing the convection. </p> <p> In cosmo_4.8_clm19 there is still this problem. <br/> This has been fixed in a more recent version by Uli Blahak and will be available with 5.0. <br/> I would appreciate if you could implement this modification of advection in 4.8_clm19 and test it. <br/> Please contact me in the case, you would like to do that. </p> <p> Greetings, Andreas </p>

  @bohuang in #c1ed189

<p> Hi Andreas, </p> <p> thank you for your information. I would like to do some effort for clm-community. However, I do not have any experience of work like that. Please tell me how to implement that modification of advection in 4.8_clm19, then I can do some tests. </p> <p> Regards, <br/> Bo </p>

  @hans-jürgenpanitz in #412da35

<p> Hi Bo, </p> <p> Hi Bo, </p> <p> I saw in your <span class="caps"> YUSPECIF </span> file that you use a value of 11000m for the parameter rdheight, which defines <br/> the lower boundary the Rayleigh damping layer in y= </p> <p> In the tropics I strongly recommend a value of about 18000 m. The <span class="caps"> CCLM </span> default <br/> value is 11000 m, which is too low. </p> <p> But: when increasing rdheight you also have to increase the height of the model domain to <br/> about 30000m, which requires re-running of INT2LM. </p> <p> However, I recommend to do this and to see what happens to your precipitation. </p> <p> A possbible model setup that has been used for the <span class="caps"> CORDEX </span> Africa simulations is available from the <br/> CLM Communities homepage <br/> http://www.clm-community.eu/namelist-tool/namelist-tool_portal/texts/cosmo_clm_4/CCLM-AFR440_4.8_clm17.txt </p> <p> Since I assume that you do not use the <span class="caps"> MODIS </span> derived albedo, please change the parameter itype_albedo from 2 to 1. </p> <p> Best </p> <p> Hans-Juergen </p>

  @bohuang in #d563164

<p> Hi Hans-Juergen, </p> <p> thank you very much. I want to do some test as your suggestion. But how to change the height of the model domain? I didn’t find a parameter to control that. </p> <p> Best regards, </p> <p> Bo </p>

  @hans-jürgenpanitz in #1575f41

<p> Hi Bo, <br/> please read my recent comment properly. </p> <p> In order to modify the height of the model domain, you have to re-run INT2LM. <br/> The vertical structure of your model domain is defined there and transferred via the laf/lbfd files to <span class="caps"> CCLM </span> . </p> <p> Hans-Juergen </p>

  @bohuang in #d049033

<p> Hi Hans-Juergen, </p> <p> but if I don’t change any parameter in run_int2lm, the output of int2lm should be the same. I found only kelm_tot to control the output of int2lm on vertical height. Now, the kelm_tot=40, and the height_toa=22700m. Shall I increase the kelm_tot? </p> <p> Best, </p> <p> Bo </p>

  @burkhardtrockel in #c13dd55

<p> Unfortunately, the corresponding INT2LM namelist to the link Hans-Jürgen provided above is not given in the namelist tool (at least I cannot find it). In the following is the list of the namelist block you need to adapt in the INT2LM. Replace the <code> </code> {xxxx}@ by the values you use. ke_tot=35 <br/> <pre> &amp;LMGRID ivctype = 2, irefatm = 2, ielm_tot=@{IE_TOT}, jelm_tot=@{JE_TOT}, kelm_tot=@{KE_TOT}, pollat = <code>{POLLAT}, pollon = </code>{POLLON}, polgam = <code>{POLGAM}, dlon=</code>{DLON}, dlat=@{DLAT}, startlat_tot = <code>{STARTLAT_TOT}, startlon_tot = </code>{STARTLON_TOT}, ke_soil_lm=@{KE_SOIL}, czml_soil_lm = @{CZML_SOIL}, vcflat=11000.0, vcoord_d=30000., 27800., 25710., 23730., 21860., 20090., 18420., 16840., 15360., 13970., 12670., 11450., 10320., 9260., 8280., 7370., 6540., 5770., 5060., 4420., 3830., 3300., 2820., 2390., 2010., 1670., 1370., 1110., 880., 690., 520., 370., 250., 150., 70., 0., /END </pre> </p>

  @hans-jürgenpanitz in #aa78c79

<p> Hi Burkhardt, </p> <p> it wasn’t a link to INT2LM Namelist but to <span class="caps"> CCLM </span> Namelist, which exists. <br/> Of course, one has to be logged into the <span class="caps"> CLM </span> Homepage as a member. </p> <p> @Bo: <br/> You have to change the model levels in the way Burkhardt indicates in his comment. <br/> Using the Namelist parameter vcoord_d (I am talking about INT2LM namelist) you can define your own levels. <br/> They must be provided in descending order. </p> <p> The example Burkhardt gave is again from the <span class="caps"> CORDEX </span> Africa simulations with kelm_tot=35 (ke_tot=35 in <span class="caps"> CCLM </span> Namelist). </p> <p> In vcoord_d you have to define kelm_tot+1 values!!!!!!!!!!!!!!!!!!! </p> <p> By the way, Bo. <br/> The whole system INT2LM/COSMO- <span class="caps"> CLM </span> is not self-explaining. <br/> What users has really to do is to read the model documentations, at least the User’s Guide of <span class="caps"> CCLM </span> which is Part <span class="caps"> VII </span> of the general <br/> documentation, and the documentation of INT2LM which is Part V. <br/> All the questions you pose are answered in these documentations. <br/> And these documentions are available from the <span class="caps"> COSOM </span> web-page <br/> www.cosmo-model.org <br/> Links to this page exist also on the <span class="caps"> CLM </span> -Homepage. </p> <p> Sorry for being a little bit harsh. <br/> But this is also some kind of user training. </p> <p> Best </p> <p> Hans-Juergen </p>

  @andreaswill in #a8a0fe1

<p> Dear Colleagues, </p> <p> I agree with the suggestion of Hans-Juergen. </p> <p> Please replace the link to the old namelist-tool whereever it still exists by the following link to the <br/> updated namelist-tool: <br/> http://www.clm-community.eu/namelist-tool/namelist-tool_portal/index.htm <br/> Here you find int2lm as well. </p> <p> Greetings, Andreas </p>

  @redc_migration in #3d4ba4b

<p> Dear Colleagues, </p> <p> what happens if the atmophere in <span class="caps"> CCLM </span> is “lifted” up to 30000 km (as Burkhardt suggested) but the Rayleigh damping height remains low (11000 m)? <br/> I assume the damping layer is thicker than with rdheight=18000 and, therefore, the damping is smoother. Has anybody tested such setup for the tropics? Did it work well or not? </p> <p> Kristina </p>

  @hans-jürgenpanitz in #fa9a3c7

<p> Hi Kristina, </p> <p> relative easy answer: <br/> I did such excercise when “searching” an appropriate setup for the <span class="caps"> CORDEX </span> Africa simulation. </p> <p> “Did it work well?“ <br/> Clear answer, NO! </p> <p> The important and physically reasonable change is the increase of rdheight, which then implies the <br/> increase of the height of the model domain. <br/> Rule of thumb: the thickness of the damping layer should be approx. 1/3 of the whole vertical extent of the model domain. </p> <p> Hans-Jürgen </p>

  @andreaswill in #701d377

<p> Important is to damp the gravity waves sufficiently. <br/> Hereto a test series should be considered with the alternative wave damping where w is damped only. </p> <p> Using the standard approach the coefficient nrdtau can be chosen smaller to make the damping stronger. <br/> In this case the damping zone can be made thinner. However, too strong damping reflects the waves within the damping layer. <br/> A typical optimisation problem. <br/> In any case, the damping should be rather too strong than too weak. <br/> Higher mountains need stronger damping because the vertical propagation speed is increasing with the slope of the mountains. </p> <p> I plan an article for the <span class="caps"> COSMO </span> newsletter on this topic and a revision of the namelist parameter description. </p> <p> Greetings, Andreas </p>