SOCORRO PEAK SOLAR
755.791 MW hybrid in La Paz, AZ · In queue since April 2021 · Proposed COD March 2029
755.791 MW
Capacity
2
Components
Solar + Battery
5y 3m
In Queue
System Impact Study
IA Phase
COD target: 2029
Total Duration
7y 11m
Study Phase
C14
Interconnection request submitted to ISO/RTO
CAISO uses cluster studies where projects are batched annually and studied together.
Typical: 36–48 months (IR to IA)
Interconnection agreement not yet executed
Typical: 30–60 days (negotiation)
Proposed COD: 2029-03-26
BLM public input process initiated for Socorro Peak Solar project application
sourceThe Socorro Peak Solar project is a proposed 755.79 MW hybrid solar and battery energy storage development in La Paz County, Arizona. The project, under development by DCRT, consists of a 379.75 MW solar array coupled with a 376.04 MW battery energy storage system. It is currently active in the California Independent System Operator (CAISO) interconnection queue, identified as CAISO-2022, with an interconnection queue entry date of April 15, 2021. The proposed commercial operation date is March 26, 2029. The project's interconnection status is currently in the System Impact Study phase, and the point of interconnection is the Cielo Azul Substation 500 kV.
The Socorro Peak Solar project has been the subject of recent news coverage related to regulatory matters.
Generated from interconnection queue and public data sources
Realization risk before commercial operation — cluster-study clearance, IA timing, counterparty mix, and withdrawal probability vs cohort. The diligence view that determines whether this project is worth pursuing. Powered by InfraSure's development-stage modeling stack.
See the full development-risk decomposition for this project.
State
AZ
County
La Paz
Grid Region
CAISO (California)
Market
ISO/RTO Member
Developer
—
Utility
DCRT
Entity
CAISO
Service Type
NRIS
Point of Interconnection
Cielo Azul Substation 500 kV
Data Source
LBNL + Live
Composite operating-phase risk view — what this asset's risk profile would look like once it reaches commercial operation. Climate hazards across its operating life, expected generation variability, and offtake counterparty exposure, decomposed into a single decision-grade score. Powered by InfraRisk.
See the full risk decomposition + scenarios for this project.
Forward generation outlook — what this project would produce assuming it reaches commercial operation. Probabilistic ranges (P10/P50/P90) across weather, demand, and policy scenarios, conditioned on the proposed COD. Powered by InfraSure's generation modeling stack.
See the full forecast + scenario decomposition for this project.
Forward revenue, DSCR projection, and financing-close risk — conditioned on commercial operation. The bankability view that determines whether the deal clears its covenants once online. Powered by InfraSure's asset cashflow stack.
See the full revenue + DSCR projection for this project.
- ISO / RTO
- CAISO
- Trading Hub
- TH_SP15_GEN-APND
- Hub Confidence
- LOW
This project's market context is estimated from its Point of Interconnection. Hub and node assignments are approximate and based on geographic inference from the POI substation name.
Top solar plant owners in the US
Data tables and metrics from the InfraSure database.
Top solar plant owners in the US
Data tables and metrics from the InfraSure database.
Top 10 solar states
Data tables and metrics from the InfraSure database.
Forward forecasts, scenario decomposition, and risk-decision tooling for this queue project.