Hi Elekk,I think you are looking at things the wrong way round. You do not size the overcurrent device to suit the cable, you size it to suit the design current of your circuit. So, first off, decide what the design current is going to be. You may well be able to "build in" a bit of "diversity" here, as that will help too.
Anyway, you mention 38A, so presumably that is the current you want your cable to carry.
As the overcurrent device obviously has to be rated higher than the design current [as otherwise as soon as you switch it all on the thing will trip/blow] you will need the "next size up" as it were.
If your design current is 38A, then you would use a 40A MCB of a suitable type for the load.
Now then, the "correction factors" for grouping etc etc, are not applied to the cable, they are applied to the overcurrent device protecting the cable.
Id disagree, it all depends on what your trying to achieve, you may apply them to It,Ib,In.
So next you need to know the "correction factors" you need. As your cable in a group of 12 others, making 13 in all, i would say that the CF is .41 provided that is, that they are all in free air and not in ducts of whatever, and that no other CF's apply.
Again, this may be very inaccurate and may lead to oversized cables, several key factors need to be considered before applying Cg. Alternativle ERA utilize UFG for derating cables.
So now, you need to divide the rating of your overcurrent device by whatever correction factors are applicable. So, 40A divided by .41 is 97.5 so now you need to look up in the charts, whatever size cable is required, that has a tabulated current carrying capacity of 97.5Amps when using the applicable installation method.
This is going to give a huge cable for just 38A so could you run it on its own?? Then you could use a more sensibly sized cable as you would not have to divide the 40A by .41 to come up with over 97A and you .could just have a 40A rated cable, although, as you say you might need a huge cable anyway for volt drop purposes
Would you not calculate for volt drop first?
Apart from this, you will also have to check volt drop [as you have already done] and then also calculate what r1 + r2 is going to be for your length of run, and add it to Zdb as measured at your panel, and make sure that the resultant ELI is low enough to operate your chosen overcurrent device in the required time.
Next you should use the adiabatic equation [or look in the charts] to make sure that your cable provides an adequate size cpc, and that therefore, the cable will not cook itself in the time it takes for the overcurrent device to operate in the event of a fault to earth.
You will also need to check that your overcurrent device is rated to handle the max PFC [PEFC OR PSCC] at the point it is installed.
Have a look at page 255, 256, and 257 in the BRB. They explain all this better than me!
Well, youve not done too bad for a apprentice 
Is this thing three phase or single, and what is the length of the run??
john.
