Hi all,
I would like to know which variables will be changed after coupled model feedback in addition to several variables related to the short-wave radiation flux? Because when I analyzed the temperature, I found that the variable did not be changed before and after the coupling.
Liu
Hi Liu,
Which variables did you change and can you post one of your rsl.out files and then also your run script?
-Sara
Thanks for your reply. Variables like SWDOWN about the short-wave radiation flux do change because of the feedback, and the 10-meter wind field also changes very slightly. I want to know exactly which variables in the WRF output are affected by the coupled model.
rsl.out.0000.txt (1.1 MB)
run_cctm_WRFCMAQ.csh.txt (52.5 KB)
Liu
Hi Liu,
Are the temperatures not changing at all or just by very little? Which exact temperature variable are you looking at as well? I have a hunch that it may have to do with nudging. I see that you turned off all surface nudging and are only nudging above the PBL. You could try changing your above the PBL nudging strengths to:
guv = 0.0001,
gt = 0.0001,
gq = 0.00001,
Here are some helpful papers on nudging:
Hi Sara,
Thanks for your advice and recommendation.I look at the two variables T2 and T, double checked them and found that the two variables changed a little, about 10^-1 to 10^-2 K, maybe this was the effect of feedback. Also you mentioned nudging, does that mean turning on the surface nudging and reducing the nudging strength above PBL might lead to better feedback results? Because too much nudging strength may mask the effect of feedback changes.
Hi Liu,
If you turn on the surface nudging you will likely see an even smaller change! We typically turn nudging off below the PBL with the exception of nudging to soil moisture (which can inadvertently nudge the temperatures a little bit). I would say keep the setup that you have just relax the nudging above the PBL to the strengths I recommended above. I’m curious what domain you are using, what episode you are using and what aerosol loadings you see?
Thanks for your suggestion, Sara. I’m currently looking at the effects of SSA and other aerosols on radiation in autumn and winter over East Asia and the Western Pacific, with a spatial resolution of about 27km.