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Spanish Grid Curtailment Map

Explore our interactive map to find a 2 year-ahead technical restrictions curtailment estimate of the Spanish network nodes updated semiannually. A map that will help you reduce the effort required to find the best available nodes for agile decision making.

The intention of this tool is to facilitate informed decisions to the general public and for market agents to have a small hint of where the market can head in the different nodes of the Spanish geography.

ENTER

Interactive map with all the substations in Spain using a color coding to indicate the capacity of the node. The map discriminates between generation capacity for MPE and batteries.

Discover all the information related to capacity availability in the transmission and distribution grid nodes to connect generation in an interactive and dynamic map

The map is updated every first week of the month you will receive the updated map with the data published by DSOs and Red Eléctrica

OUR APPROACH

Our methodology for estimating nodal RRTT (technical restrictions) curtailment in Spain is based on a custom-built grid model and a simulation framework that closely replicates system operation conditions. The key steps of our approach are as follows:
STEP 1
Grid Model with 2030 Planning
We have developed an internal electrical grid model using open-source data, which is regularly updated and aligned with Spain’s official 2030 transmission expansion plan. As planning evolves, the network model is adapted accordingly to reflect future reinforcements and structural changes.
STEP 2
Simulation Environment and Forecasts
The model has been integrated into DIgSILENT PowerFactory and complemented with forecast forward-looking scenarios of generation and demand growth, including strategic load centers such as hyperscale data centers expected to be deployed across the peninsula.
STEP 3
Automated Load Flow Engine
A proprietary Python algorithm interacts with PowerFactory to run automated simulations using realistic time-varying generation and demand profiles. This allows us to compute hourly load flows and identify potential congestion points under diverse dispatch conditions.
STEP 4
Dispatch Simulation with N-1 Security Criteria
The model performs both base case (N) and contingency (N-1) analyses to identify network constraints and overloads, using generic generation profiles.
STEP 5
Automated Load Flow Engine
From the simulated dispatch and load flow results, the tool extracts a nodal-level approximation of technical restrictions curtailment arising from grid constraints and redispatch needs.