Hi Bruce,
With solar, it’s hard to know what to expect in those status screens. You have a better context, so if you are doubting the numbers, I’ll assum it’s probably wrong and start at the beginning.
First thing is to sort out the terminology. It might be clearer if we come up with something a little less ambiguous than this:
When I look at the picture, I see that the electrician observed a color coding convention of Red-White-Blue. That might be a better way to refer to the physical circuits. We could also use the positional terminology of L1, L2 and L3. So I’m going to go with L1, L2 and L3 because you already have your mains labelled that way, but the colors will be useful for configuring branch circuits where the convention has been observed. So to reconcile R=L1, W=L2, B=L3.
With that set, I’m getting from your explanation that the VT is probably on L2 and I see that is IoTaWatt phase A.
The picture does not show enough detail for me to verify that the mains CTs are all oriented the same. You should double check that, as going forward, everything will rely on that being the case.
In the status I see that L2 has a credible value and power factor. What I see on L1 and L3 is not impossible, but to be negative would require solar export, but the power factor of L3 doesn’t look like solar export.
So I’m going to suggest that we take a baby step here and get back to basics. I recently posted the procedure for sorting out three-phase derived reference mains.
I recommend either shutting down the inverters or doing this at night. Also, try to get a fairly high power resistive load for use in the procedure. It appears you have plugs on all three phases, so you should be able to do this fairly easily. You will also be able to verify the phase that you have noted in the picture for each of the plug phases.
Once that is done, the solar inverters appear to have color coded phases, so it should be easy to follow through with assigning the proper phase as determined at the mains.