Hello Akash
You might want to try the function *Losses=get_losses(results) . *It
computes branch series losses and optionally also returns reactive
injections from line charging as functions of bus voltages and branch
parameters.
Thanks,
On Sun, May 14, 2017 at 4:02 AM, Akash Tyagi
lambda-voltage curve (both predicted and corrected).
>2. runcpf’s output struct stores all the states for each continuation
>step in its cpf field (results.cpf). You can use these values to create the
>active power-voltage curve.
>
> Hope this helps,
> Shri
>
&g
Dear Dr. Zimmerman and Friends
I have a question regarding CPF in Matpower. In matpower the CPF algorithm
plots the bus voltage against the continuation parameter (λ). However I'd
like to plot the voltage against the active power at a bus(abscissa ). Is
there any specific function that can let me
Thank you Dr. Zimmerman. I am more inclined to the third answer. The
challenge for me right now is to update the [*Ybus*] matrix whenever any
generator hits its reactive limit, and that I can do by adding the
generator synchronous reactance in series to the diagonal element in the
[Ybus] matrix,
Dear Dr. Zimmerman and Friends
I have a query about updating the Ybus matrix. While running the power flow
on any system, it is possible that some of the generators will hit their
respective reactive limits, and change from a PV to a PQ bus. When this
happens, how can I update the Ybus matrix
Dear Dr. Zimmerman and Friends
I have a query about updating the Ybus matrix. While running the power flow
on any system, it is possible that some of the generators will hit their
respective reactive limits, and change from a PV to a PQ bus. When this
happens, how can I update the Ybus matrix