Platform · Engineering Tools
The Platform, tool by tool

Quantitative screening, engineered.

Each tool on the platform is built to a documented engineering methodology and calibrated against the authoritative published research for the mechanism it addresses. Tools are gated. Access is granted after a short scoping conversation to confirm the use case.

Platform StatusLIVE
Tools in productionLive
Tools in developmentActive
DM libraryExpanding
Sector coverageU · M · D
Access modelGated · by request
01 · In Production
Live

What ships today.

Two platform tools are available for authorised users now. Both are browser-native, server-side protected, and run against validated datasets.

Live
KNOWLEDGE BASE

Damage Mechanism Library

Built around the authoritative refining-industry damage-mechanism framework — navigable, searchable, and decision-tree driven.
Scope: Refining · Petrochemical

A comprehensive interactive reference to the damage mechanisms affecting fixed equipment in refining service. Each published module carries a mechanism walkthrough, a method × context inspection-effectiveness matrix, a decision tree, original damage illustrations, and a knowledge-verification register that separates cited from practitioner-judgement content. New modules are added continuously.

Published modules — sample
885°F Embrittlement
Amine Corrosion
Amine SCC
Ammonia SCC
NH₄HS Corrosion
NH₄Cl Corrosion
Aqueous Organic Acid
Atmospheric Corrosion
Boiler Water
Brine Corrosion
Brittle Fracture
Carbonate SCC
Carburization
Caustic Corrosion
Caustic SCC
  • CataloguedEvery mechanism from the recognized refining damage-mechanism reference
  • InteractiveLive and expanding coverage
  • Per moduleDecision tree, inspection-effectiveness matrix, verification register, original damage illustrations
  • ScreeningDeterministic engine accepting operating-condition inputs; identifies credible and potential mechanisms
  • FrameworkCross-references recognized refining-integrity practices
Open the libraryAuthorised access
Live
QUANTITATIVE SCREENING

NH₄HS Verdict Engine

Structured around the methodology of the recognized NH₄HS corrosion engineering practice; calibrated against published industry research on sour-water corrosion.
Scope: Downstream · Reactor Effluent & Overhead Systems

Quantitative ammonium bisulfide corrosion screening for reactor effluent air coolers, overhead condensers, and downstream piping. The engine covers the common sour-service corrosion regimes across the materials used in this duty, with cyanide correction for FCC and Coker service, and returns per-material rate prediction, remaining-life estimate, and a screening verdict in a single workflow.

  • MaterialsCarbon steel, 316L, 2205, 2507, Alloy 825, Alloy 625, Alloy C-276
  • RegimesLow, moderate, and severe NH₄HS service
  • DatasetReference library calibrated against the published sour-water JIP research
  • OutputsPer-material corrosion rate, remaining-life estimate, screening verdict, inspection-interval indication
  • FrameworkReferences the recognized industry practice for NH₄HS corrosion control and the published NACE Sour Water JIP research series
Open the toolAuthorised access
02 · Access
Gated by design

Platform access on request.

The platform embeds proprietary engineering methodologies and validated datasets. Access is granted by request, after a short scoping conversation to confirm the use case and match the tool to the asset. Credentials are time-bounded and scope-bounded.

01
Request
A short form — company, role, the asset or problem you have in mind, and the tool you want to work with.
02
Scope call
A 20–30 minute conversation to confirm the use case, the service conditions, and the output you need.
03
Credentials
Time-bounded access credentials issued for the agreed tool and the agreed scope.
04
Work the platform
Run assessments, export results, and request engineering review or study deliverables where the output needs senior sign-off.
03 · Roadmap
In development

What's being built.

Three platform modules currently in active specification and build. Nothing on this list is a wish. Each has a reference framework, a target scope, and a technical specification already drafted.

In build
RISK-BASED INSPECTION
Scope: U · M · D · fixed equipment

Risk-Based Inspection

Inspection planning for fixed equipment structured around the recognized risk-based-inspection methodology — probability and consequence calculation, inspection-interval logic, and programme-level risk matrix output.

PoF / CoF5 × 5 matrixInterval planning
In build
CATHODIC PROTECTION
Scope: Upstream · Midstream · buried / submerged

CP Assessment

Cathodic protection assessment for buried and submerged pipelines and structures — potential-measurement interpretation, TR evaluation, interference analysis, and design-review support. Structured around the recognized CP-control framework.

Survey analysisTR evaluationDesign review
Design phase
CORROSION ASSESSMENT STUDIES
Scope: Downstream · process units · mixed-metallurgy circuits

Corrosion Assessment Studies

Loop- and circuit-level corrosion assessment for process units with mixed-material circuits. Rate profiling, mechanism screening drawn from the DM library, and remaining-life projections — ready to feed IOW and CCD deliverables.

Corrosion loopsMixed metallurgyIOW / CCD ready

Need a walkthrough?

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