Thanks for making the tool available and supporting this tutorials. Not sure if you are still working on this, but if you are and are looking for suggestions ... I am going to evaluate different ways to get the increased wind power from the North of the UK to the increased demand in the South. I am looking at upgrading & uprating of the AC transmission system (>280kv), partial switch to DC OHL, dedicated new DC OHL and dedicated subsea DC cables. The North South cnxn will need to carry an additional 20 GW (rough estimate) on windy days. A video with technical comparison of transmission options would be very useful. I will also need to extend the libraries for transformers and lines, so a video on that topic would also be very useful. The documentation is very good and even without new videos, I should be able to figure this out.
Thx for sharing (this is really rare in the power system domain see in your comments it is more taking than sharing). This can be competed with the PSS sincal from siemens. Hope it can be recognized by the industry.
Hi - thank you very much for the tutorial. Really useful. One question - what happens with fault currents when starting to have inverter-based generation. Can PandaPower do that accurately and would be nice to see a tutorial for that and the minimum information required. Thanks a lot again
Hello, Thank you very much for your videos. I want to implement short circuit fault in each line of may power system and then calculate tcr of each line. i want to know is this possible with pandapower?
Hello, I'm writing a master thesis and I intent to calculate short-circuit current of DC system. Ideally, DC cables connecting Li-ion battery banks and inverter. Could you please suggest something on this like any literature or methedology using analytics/mathematically? I know pandapower supports only 3 phase symmetrical faults.
Hello, this feature is not implemented. But you could have a look at this function here: github.com/e2nIEE/pandapower/blob/develop/pandapower/shortcircuit/results.py#L66 and try to extend it so that you'll get the angles
