Channing Wind (ERCOT-28INR0018) — Project Summary

Queue ID
ERCOT-28INR0018
Capacity
360.5 MW
Technology
Wind
Status
suspended
Location
Oldham, TX
Region
ERCOT
Developer
IA Status

Channing Wind

ERCOT-28INR0018BetaSuspendedWindERCOTLBNL

360.5 MW generation in Oldham, TX · In queue since December 2023 · Proposed COD December 2028

BA: ERCOISO/RTO: ERCOTNERC: TRERC: ERCOT

360.5 MW

Capacity

1

Components

Wind

2y 7m

In Queue

IA Status

COD target: 2028

Interconnection

Total Duration

5 years

Suspended0%
Queue EntryDec 19, 2023

Interconnection request submitted to ISO/RTO

Interconnection Study

ERCOT uses a serial "connect and manage" approach — fastest among major ISOs.

Typical: 18–30 months (fastest major ISO)

Interconnection Agreement

Interconnection agreement not yet executed

Typical: 30–60 days (negotiation)

Commercial Operation

Proposed COD: 2028-12-31

About

The Channing Wind project is a proposed wind generation facility with a total capacity of 352.38 MW. Located in Oldham County, Texas, the project is being developed by NextEra Energy Interconnection Holdings, LLC. It is currently listed as active in the ERCOT interconnection queue under queue ID ERCOT-28INR0018, with an entry date of December 20, 2023. The proposed commercial operation date is December 31, 2028, and the project's interconnection agreement status is currently in the Facility Study phase.

The project consists of 352.38 MW of wind generation capacity. The point of interconnection is the 23906 AJ Swope Station 345kV. The Channing Wind project has appeared in recent news coverage regarding renewable energy development in Texas.

Generated from interconnection queue and public data sources

Development Risk

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.

Available on the InfraSure platform

See the full development-risk decomposition for this project.

P(COD by stated date)
Withdrawal probability vs cohort
IA cluster risk
Project Details

State

TX

County

Oldham

Grid Region

ERCOT (Texas)

Market

ISO/RTO Member

Developer

Utility

Entity

ERCOT

Service Type

Data Source

LBNL

Risk Analytics

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.

Available on the InfraSure platform

See the full risk decomposition + scenarios for this project.

Climate hazards (8+)
Generation variability (P10/P50/P90)
Offtake + transmission counterparty
Generation Forecast

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.

Available on the InfraSure platform

See the full forecast + scenario decomposition for this project.

P50 conditioned on COD
Capacity factor vs cohort
Weather + policy scenarios
Financial Forecast

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.

Available on the InfraSure platform

See the full revenue + DSCR projection for this project.

Revenue conditioned on COD
Financing close risk
Cohort DSCR comparison
Market Context
Approximate
ISO / RTO
ERCOT
Trading Hub
HB_WEST
Hub Confidence
MEDIUM
POI Substation
AJ Swope Substation

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.

No insights available for this project.
InfraSure platform

Forward forecasts, scenario decomposition, and risk-decision tooling for this queue project.