Since storage ties problems together in time, it does not apply to
single-period power flow or optimal power flow, but rather only to the
multi-period optimizations handled by MOST (e.g multiperiod economic dispatch,
multiperiod OPF, unit commitment).
Ray
> On Feb 7, 2018, at 1:13 PM, Charalambos Ioannou <[email protected]>
> wrote:
>
> Thank you so much for your information.
>
> Moreover, the energy storage is it applicable for power flow or only for
> optimal power flow because of the inequality and equality constraints??
>
>
>> On 7 Feb 2018, at 16:23, Ray Zimmerman <[email protected]
>> <mailto:[email protected]>> wrote:
>>
>> Yes, the storage formulation can be used for any system you like. I suggest
>> you study the tutorial examples that include storage to understand how.
>>
>> Section 3.6 in the MOST User’s Manual
>> <http://www.pserc.cornell.edu/matpower/docs/MOST-manual-1.0.pdf> describes
>> the formulation. The details are contained in equations (4.12) and
>> (4.28)-(4.39), and in Section 4.4. Most of the complexity of the model is
>> there to handle the stochastic case. For the deterministic case, it ends up
>> being pretty simple and straightforward, since there is a single scenario
>> per period and the s+ and s– variables always take on the same values.
>>
>> Ray
>>
>>
>>> On Feb 6, 2018, at 6:37 PM, Charalambos Ioannou <[email protected]
>>> <mailto:[email protected]>> wrote:
>>>
>>> Dear Friends,
>>>
>>> I am curious if its is possible to use the energy storage that exist in
>>> the most manual at a different casefile for example at case5 or case9 and
>>> so on.
>>>
>>> Also i would like to learn if it is possible to see the equations on the
>>> implementation of the energy storage.
>>>
>>> Thanks in advance,
>>>
>>> Harry
>>
>
