Download PSR SDDP 17.2.7

PSR SDDP

PSR has developed a suite of tools that jointly cover the full range of analytical questions around the power system as well as coupled sectors, such as electricity, natural gas, and the WEF nexus (water, energy, and food security). The different tools can be used separately or combined, depending on analytical priorities, and required technical depth.

SDDP is a stochastic dispatch model for electrical systems representing the transmission, gas, and hydrogen networks used in long, medium, and short-term operation studies. It is highly flexible in terms of its temporal and spatial levels of detail. In the temporal dimension, it can represent very long decision horizons (several decades) with weekly or monthly stages and intra-stage resolution of load blocks or hours. Spatially, it can handle the detailed operation of small islands up to the study of regional markets integrating several national power systems.

The model represents the following elements:

• Hydroelectric plants: detailed representation for each reservoir; storage and flow rate limits through turbines, spillways, head effect, infiltration, and others; stochastic inflow model representing seasonality, time, and spatial correlations; modeling of specific climatic phenomena (such as El Niño); ramping constraints, etc.;
• Thermoelectric plants: unit commitment constraints, fuel availability, fuel contracts (including take-or-pay clauses), thermal efficiency curves, CO₂ and other pollutants emission, ramping constraints;
• Variable Renewable Energy: solar, wind, and concentrated solar power plants, the definition of VRE historical, generation through global reanalysis database, stochastic VRE power production, model, generating future synthetic scenarios with hourly resolution, VRE scenarios are temporally and especially correlated with hydro inflows;
• Batteries and other fast storage devices: storage capacity, charge/discharge capacities, efficiencies, ramping constraints;
• Demand side response: response to price, signals by segment by system-, area-, or bus-level;
• Transmission network: Kirchhoff laws, power flow limits, quadratic losses, security constraints, limits on export and import
  among electric areas, sum of flow constraints, and others;
• Natural gas network: gas production and transportation constraints, production capacity in the fields, pipeline flow limits and losses;
• Hydrogen and electrification processes: hydrogen production, energy consumption, detailed hydrogen supply chain;
• Co-optimization of energy and reserve markets
• Dynamic probabilistic reserve
• Water nexus

The objective of SDDP is to minimize the sum of costs and maximize the revenue in the energy market. Costs include the purchase and transportation of fuels for thermal plants, pollutant emission costs, hydro and thermal plants’ O&M costs, transmission wheeling rates, cost of energy not supplied, and other penalties. Revenues include trades in energy, water, and hydrogen markets.

Download PSR SDDP 17.2.7

Download PSR SDDP 17.2.7

Password extract file: 1soft.link OR 2020

How to install PSR SDDP 17

Installation guide: Read the Readme.txt file

NOTE: Some software requires:

• Disable anti-virus software when unpack and install
• After the installation is done, open anti-virus software, add installation directory OR Cracked file to exclusion (including windows security)