Hi Surbhi,
First of all why do you want to increase the number of steps/ iterations in
the calculation? Is there any specific need? Actually the number of
iterations depends on the power flow optimization tolerance. Maybe you can
focus on the mpoption function and read it carefully. You can update
something like here:
mpopt = mpoption('pf.alg', 'FDXB', 'pf.tol', 1e-4)
I'm not 100 % sure about it but it may help you. Thanks.
Kind regards
Mirish
On Fri, Sep 11, 2020 at 8:41 AM Surbhi Aggarwal <[email protected]>
wrote:
> Hello Everyone,
> I tried your suggestions and it somehow helped me.
> Now my doubt is " If I want to increase my number of iterations, what
> steps I have to do"?
> Please help me out
> Regards
> Surbhi Aggarwal
>
>
> On Wed, Sep 9, 2020 at 7:50 PM Ray Daniel Zimmerman <[email protected]>
> wrote:
>
>> I also suspect that the network becomes disconnected by removing certain
>> lines. You can check the connectivity using case_info()
>> <https://matpower.org/docs/ref/matpower7.0/lib/case_info.html> or
>> find_islands()
>> <https://matpower.org/docs/ref/matpower7.0/lib/find_islands.html>. If
>> there are islands, then each island needs to have its own reference bus,
>> and the local generation needs to be able to meet the local load in each
>> island.
>>
>> Ray
>>
>>
>> On Sep 9, 2020, at 4:57 AM, Mirish Thakur <[email protected]> wrote:
>>
>> Hi Surbhi,
>>
>> Could you please check the continuity of the system before running opf? I
>> mean to say if you run opf for (n-1) criteria the system should be still
>> well connected. There shouldn't be any island within the system itself.
>> Perhaps you can test your model by removing any one parallel line (which
>> you can observe later for analysis) and run the model under (n-1) criteria.
>> This could be the easiest way to test the model. Thank you.
>>
>> Kind regards
>> Mirish
>>
>>
>> On Wed, Sep 9, 2020 at 9:11 AM Surbhi Aggarwal <
>> [email protected]> wrote:
>>
>>> Dear All,
>>> I am working on optimal power flow to find the contingency (N-1)
>>> situation of the system. For some of the line outage, certain output pops
>>> out
>>>
>>> MATPOWER Version 7.0, 20-Jun-2019 -- AC Power Flow (Newton)
>>> Warning: Matrix is singular to working precision.
>>> > In mplinsolve (line 75)
>>> In newtonpf (line 110)
>>> In runpf (line 260)
>>> Warning: Matrix is singular to working precision.
>>> > In mplinsolve (line 75)
>>> In newtonpf (line 110)
>>> In runpf (line 260)
>>> Warning: Matrix is singular to working precision.
>>> > In mplinsolve (line 75)
>>> In newtonpf (line 110)
>>> In runpf (line 260)
>>> Warning: Matrix is singular to working precision.
>>> > In mplinsolve (line 75)
>>> In newtonpf (line 110)
>>> In runpf (line 260)
>>> Warning: Matrix is singular to working precision.
>>> > In mplinsolve (line 75)
>>> In newtonpf (line 110)
>>> In runpf (line 260)
>>> Warning: Matrix is singular to working precision.
>>> > In mplinsolve (line 75)
>>> In newtonpf (line 110)
>>> In runpf (line 260)
>>> Warning: Matrix is singular to working precision.
>>> > In mplinsolve (line 75)
>>> In newtonpf (line 110)
>>> In runpf (line 260)
>>> Warning: Matrix is singular to working precision.
>>> > In mplinsolve (line 75)
>>> In newtonpf (line 110)
>>> In runpf (line 260)
>>> Warning: Matrix is singular to working precision.
>>> > In mplinsolve (line 75)
>>> In newtonpf (line 110)
>>> In runpf (line 260)
>>> Warning: Matrix is singular to working precision.
>>> > In mplinsolve (line 75)
>>> In newtonpf (line 110)
>>> In runpf (line 260)
>>>
>>> Newton's method power flow (power balance, polar) did not converge in 10
>>> iterations.
>>>
>>> >>>>> Did NOT converge (7.38 seconds) <<<<<
>>>
>>> What to do to correct this error. It would be of great help.
>>> Regards
>>> Surbhi Aggarwal
>>>
>>
>>
