Open protocol · 24/7 CFE deliverability

Today, most systems verify when clean energy is produced. Few verify whether it was physically deliverable across the grid.

Building the infrastructure for credible clean energy markets.

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Aligned ecosystem
⚠ Illustrative scope

Disclaimer: The logos below represent organizations whose public commitments or industry scope align with DeliveryTag's verification layer. They are illustrative of the working-group scope only and do not imply confirmed partnerships, endorsements, or any commercial relationship.

Google Microsoft Shell TotalEnergies Schneider Electric EDF Engie Vattenfall Statkraft Amazon Salesforce Hitachi Energy Siemens Energy ABB
Google Microsoft Shell TotalEnergies Schneider Electric EDF Engie Vattenfall Statkraft Amazon Salesforce Hitachi Energy Siemens Energy ABB
The Output

What DeliveryTag outputs

A standardized deliverability verification layer for each MWh, designed to slot into existing certificate systems and audit workflows.

API Structured Reports Smart-Contract Anchoring
  • Deliverability Score 0–100% per MWh, time- and node-aligned
  • Grid Constraint Validation Pass / fail under PTDF corridor topology
  • Congestion-adjusted Matching Source-to-load attribution under live network conditions
  • Time + Location Verification Hourly granular, node-bound
  • Audit-ready Evidence Pack Designed for ISAE 3000 attestation by an Accredited Signer
Market timing

Why now

01

24/7 CFE commitments are accelerating

Hyperscaler and industrial buyers are setting hourly carbon-free targets that go beyond annual REC accounting.

02

Grid congestion is rising

Across EU and US markets, transmission corridor utilization is climbing, exposing the gap between certified energy and physically deliverable energy.

03

GHG Protocol revisions are tightening

Scope 2 guidance updates and EC Recommendation 22 April 2026 are introducing stricter requirements for time- and grid-aware accounting.

04

Buyers are raising the integrity bar

Procurement teams and auditors are increasingly asking for evidence that goes beyond temporal matching, toward physically credible energy verification.

Run a pilot

Test DeliveryTag on a real dataset, PPA, or asset.

Bring us a portfolio, a single PPA, or a hyperscale campus. We model deliverability against current grid conditions and return an audit-ready evidence pack.

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What we provide

  • Deliverability analysis on a selected time period
  • Grid constraint validation across the relevant corridor
  • Sample audit-ready output (designed for ISAE 3000)

What we'll need from you

  • Asset and contract context (generator, PPA, buyer)
  • Time-series data over the analysis window
  • Grid and jurisdictional context
  • The specific claim you want verified

A full scoping checklist is shared under NDA at kickoff.

Timeline

Initial results within 7–14 days from data handoff, for a single PPA or single corridor pilot scope.

Value Proposition

The Verification Framework for Industrial Energy

DT-PRT-001

Spatial Binding

Nodal attribution via PTDF corridor inference and spatial witness data, supporting auditable deliverability evidence from source to sink across congested grids.

DT-PRT-002

Auditability

Evidence pack structured for third-party verification under ISAE 3000 (accredited signer path) or ISO 14065 (validation body path).

DT-PRT-003

Native Compatibility

A drop-in extension to the existing EnergyTag GC schema, adding the missing layer of physical delivery verification.

2001 – present

Annual REC

IREC / APX Standard

2020 – present

Granular Certificate

EnergyTag Foundation

2026 – present

DeliveryTag

Integrity Protocol Foundation

Validation criteria

DeliveryTag extends, not replaces

18
EnergyTag Inherited principles
14
DeliveryTag Extension protocols
32
Total Validation criteria

"If you can't measure it, you can't manage it."

Technical Specification
DeliveryTag v1.2
DeliveryTag
PROTOCOL REF:
IPF-DT-2026-01
Standard Release

DeliveryTag Technical Whitepaper

A comprehensive definition of the physical delivery verification protocol. Our technical framework introduces nodal attribution, forensic congestion proofing, and the Hepta-Validation™ mechanism for institutional CFE reporting.

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