Hi;
You can use the ability to include additional linear constraints,
additional variables and additional costs on all variables
to formulate this. Roughly sketched, you must model loads
using generators (the details of this are in the manual),
compute unserved loads using additional variables and
linear constraints, and then impose some kind of cost
on the variables that represent unserved load. A similar
application can be found in
J.M. Lopez-Lezama, C.E. Murillo-Sanchez, L.J. Zuluaga, and
J.F. Gutierrez-Gomez,
"A Contingency-Based Security-Constrained Optimal Power Flow Model For
Revealing The Marginal Cost of a Blackout Risk-Equalizing Policy in the
Colombian Electricity Market", in
2006 Transmission and Distribution Conference and Exposition: Latin America
http://www.ieeexplore.ieee.org/search/srchabstract.jsp?arnumber=4104708&isnumber=4104474&punumber=4104473&k2dockey=4104708@ieeecnfs&query=%28%28murillo-sanchez%29%3Cin%3Eau+%29&pos=3&access=no
IEEEXplore# A Contingency-Based Security-Constrained Optimal Power Flow
Model For Revealing The Marginal Cost of a Blackout Risk-Equalizing
Policy in the Colombian Electricity Market
Zhe Chen wrote:
Hi Carlos,
My name is Zhe Chen, I like using Matpower very much and I'm running
Matpower to see if Matpower can minimize Unserved Load in comparison
with Generation Cost for Case30.m. Can you please let me know what
functions and parameters need to be adjusted to achieve that goal?
Thanks a lot.
Sincerely,
Zhe
