Hi Ray How do you compute optimal amount of load shedding in MATPOWER
On Monday, September 21, 2020, 05:17:28 PM GMT+2, Ray Daniel Zimmerman
<r...@cornell.edu> wrote:
No, just modify the branch matrix in the case directly. For example …
define_constants;mpc = loadcase('case118');mpc.branch(12, BR_STATUS) = 0;
… would take branch 12 out of service.
Ray
On Sep 21, 2020, at 5:37 AM, sizod...@yahoo.com wrote:
To change the BR_STATUS column to zero do you use the mpoption On Saturday,
September 19, 2020, 05:39:15 PM GMT+2, Ray Daniel Zimmerman <r...@cornell.edu>
wrote:
That sounds like a dispatchable load … see Section 6.4.2 in the User’s Manual.
Ray
On Sep 18, 2020, at 8:22 AM, Davide Maglione <davide.maglion...@gmail.com>
wrote:
Thank you for the answer,i am working on a transmission network so i don’t
think a dc network model is adequate. I have read few articles that uses OPF
extensible structure to optimize storage size so i am leaning toward that.Sorry
i didn’t mean to ask you to show me how to use matpower to solve my problem, i
thought my question was way more trivial. I am just struggling a bit with the
User’s Manual.Hope my question is not too specific:Is there a way to assign a
maximum demand for a load (in order to simulate the size of the storage), and
then, after creating my cost function and constraints, solve the OPF to track
the variable power absorbed by that load/storage?Hope i was clear, just asking
this to understand if i am following the right path or i have to walk in
another direction to solve this. Thank you again, best regards, Davide Maglione
Da: Ray Daniel Zimmerman
Inviato: giovedì 10 settembre 2020 19:58
A: MATPOWER-L
Oggetto: Re: Bus, Loads and Generators question It sounds like you want to
solve a problem that MATPOWER does not implement directly, so I’m afraid you’ll
have to formulate the problem yourself and determine whether or not it fits
MATPOWER’s extensible OPF structure (see also FAQ #2). In general, when
introducing storage, you need to solve a multi-period problem that optimizes
across multiple time steps simultaneously. If a DC network model is adequate,
you might consider whether MOST would be able to solve your problem. Ray
On Sep 10, 2020, at 11:00 AM, Davide Maglione <davide.maglion...@gmail.com>
wrote: Hi Ray,thank you for your support and your answers. I am new to power
flows so i struggled a bit, but i managed to succesfully run a pf for a 4 month
period in my network. Thank you for your help. I want to add energy storage in
my network, and, taking into account a surplus of power occasionally in the 4
month period, i would like to create a new objective function in order to
minimize the cost of installation of the storage system. Is the Extended OPF
feature the best way to do this? Should i think of the storage simply as an
additional load on the bus and the occasional surplus of energy as an
additional power from the generators? Thank you for your help, Best Regards,
Davide Maglione Da: Ray Daniel Zimmerman
Inviato: venerdì 24 luglio 2020 16:10
A: MATPOWER-L
Oggetto: Re: Bus, Loads and Generators question It sounds like your P and Q are
branch flow values, not nodal loads, so no they should not be used as loads in
the bus matrix. Ray
On Jul 23, 2020, at 12:42 PM, Davide Maglione <davide.maglion...@gmail.com>
wrote: Hi Ray and thank you for your reply,i will try to make my case more
clear. I am studying a radial transmission network (150 kV). There are 3
branches directly connected to a station. I am thinking of using this station
as a “sink” (a load for Matpower) that collects the power generated by the wind
power plants in the network. My final goal is to do an extended optimal power
flow, using some custom constraints, to optimize size and location of energy
storage in order to avoid wind curtailment by the transmission operator. I have
data of P, Q and I of branches, and V at the nodes (intersection of branch and
power plant). Should i put those data (P,Q) in the 3rd and 4th column of the
bus matrix data despite they are not load buses? Or should i do something
different in my scenario? I have put an image to semplify things. Hope this
time i have make it more clear, thank you again for your time, Davide Maglione
Da: Ray Daniel Zimmerman
Inviato: venerdì 17 luglio 2020 22:40
A: MATPOWER-L
Oggetto: Re: Bus, Loads and Generators question It isn’t completely clear what
data you have to create your case, but you definitely need both load and
generation for the system to make any sense. Total generation is equal to total
load plus losses, so you need both. And dispatchable load refers to loads
whose quantities are not fixed, but can vary depending on the price. Ray
On Jul 16, 2020, at 10:06 AM, Davide Maglione <davide.maglion...@gmail.com>
wrote: Hello, For my thesys work i am trying to recreate a trasmission network
with high penetration of wind power. I have some doubts on how to consider my
buses, because in my network there are no loads but only generators and i am
considering the buses as the nodes of the system. I have V,I and P datas of
each n_i node, so can i put in the 3rd and 4th column of the bus matrix those
flow data despite they are not load buses? Finally, what do you mean with
“dispatchable load”? Thank you very much,best regards. Davide Maglione
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