| Author institution
|
Institute of Electrical Engineering +
|
| Authors
|
Ruben Chaer, Pablo Alfaro y Gonzalo Casaravilla +
|
| Citation references
|
Chaer, R. (2008.). Simulación de sistemas de energía eléctrica. Tesis de maestría. Universidad de la Republica (Uruguay). Facultad de Ingenieria.
|
| Computation time comments
|
the 15 min with 8 cpus is for a optimizaion/simulation of the uruguayan system over 10 years horizon with a daily time-step
|
| Computation time minutes
|
15 +
|
| Contact email
|
rchaer@simsee.org +
|
| Contact persons
|
Ruben Chaer +
|
| Data availability
|
some +
|
| Decisions
|
dispatch +
, investment +
|
| Deterministic
|
stochastic, hydro inflows, wind velocity, solar radiation, temerature an Demand. +
|
| Full Model Name
|
Simulator of System of Electrical Energy. +
|
| Is suited for many scenarios
|
true +
|
| License
|
GNU General Public License version 3.0 (GPL-3.0) +
|
| Math modeltype
|
Optimization +
, Simulation +
|
| Math modeltype shortdesc
|
Optimal Stochastic Dynamic Programming solver for computation of the operational Policy and a Monte Carlo style simulator of the system using the computed Policy +
|
| Math objective
|
minimization of the future operational cost. +
|
| Model class
|
Optimal energy dispatch +
|
| Model source public
|
true +
|
| Modelling software
|
freepascal +
|
| Network coverage
|
net transfer capacities +
|
| Number of variables
|
1,000 +
|
| Open future
|
false +
|
| Open source licensed
|
true +
|
| Processing software
|
freepascal +
|
| Report references
|
Chaer R. (2018) Handling the Intermittence of Wind and Solar Energy Resources, from Planning to Operation. Uruguay’s Success. September 2018 Conference: 36th USAEE/IAEE NORTH AMERICAN CONFERENCEAt: Washington DC USA
|
| Sectors
|
Electricity Market +
|
| Source download
|
https://sourceforge.net/projects/simsee/ +
|
| Technologies
|
Renewables +
, Conventional Generation +
, CHP +
|
| Text description
|
SimSEE is a platform for the Simulation of … SimSEE is a platform for the Simulation of Systems of Electrical Energy. As such, it allows creating simulators tailored to a generation system, simply by adding the different types of Actors (thermal, wind, solar and hydraulic generators, demand, interconnections, etc.) to a Play-Room (simulation environment). These Actors behave in the Room according to their type.
It is 100% programmed with Object Oriented technology which makes it easy to incorporate new models (types of Actors).
To simulate the optimal operation of an Electric Power System, SimSEE solves a Dynamic Stochastic Programming problem, obtaining as a result an Optimal Operation Policy. Using this Policy, different realizations of the stochastic processes (chronicles or possible histories of the future of the system) are simulated.
Since 2010, SimSEE has become the tool commonly used in Uruguay to simulate the operation of the energy system, mainly due to the good stochastic models developed for the modeling of wind and solar energy.
These models achieve an adequate representation, both in the long term (Investment Planning) and in the short term (System Operation). and in the short term (System Operation).
|
| Timeresolution
|
Hour +
|
| Website
|
https://simsee.org/index_en.html +
|
| Creation dateThis property is a special property in this wiki.
|
9 July 2022 20:31:37 +
|
| Categories |
Model +
|
| Last editor isThis property is a special property in this wiki.
|
User:Ruben Chaer +
|
| Modification dateThis property is a special property in this wiki.
|
9 July 2022 20:38:48 +
|
| Is a new pageThis property is a special property in this wiki.
|
false +
|
