Risk-Based Inspection (RBI) — API 580 / 581 — Applicable Engineering Standards & Codes

Description

Risk-based inspection methodology for process plant equipment.

API 580 Risk-Based Inspection

Edition: 3rd Edition (2016) Region: USA, Global

Recommended practice for RBI program development.

Key requirements (8)

Risk-Based Inspection (RBI) framework — qualitative, semi-quantitative, quantitative.
Risk = POF (probability of failure) × COF (consequence of failure).
POF drivers: damage mechanism, corrosion rate, inspection effectiveness.
COF drivers: flammable inventory, toxic release area, business interruption.
Risk matrix typical: 5×5, with 'high' risk items getting tightest inspection intervals.
Inspection interval typically capped at one-half remaining life by API 510/570/653.
Re-evaluate RBI: every 5 years OR after significant change.
Companion API 581 provides quantitative methodology and damage factor tables.

API 581 Risk-Based Inspection Methodology

Edition: 3rd Edition (2016, A1 2019, A2 2020) Region: USA, Global

Quantitative RBI calculation methodology — POF, COF, risk ranking, inspection planning.

Key requirements (7)

Quantitative RBI methodology — damage factor approach.
Damage factor (DF) by mechanism: thinning, SCC, HTHA, brittle fracture, fatigue, etc.
Generic failure frequency (gff) baseline: typically 4×10⁻⁵/yr leak frequency.
Adjusted POF = gff × DF × FMS (management systems factor).
COF: area-based (ft²) for flammable, dispersion modeling for toxic.
Inspection effectiveness: A (highly effective) to E (no effectiveness) — degrades DF.
Re-inspection date driven by acceptable risk threshold (often 5×10⁻⁴/yr).

API 571 Damage Mechanisms Affecting Fixed Equipment in the Refining Industry

Edition: 3rd Edition (2020) Region: USA, Global

Catalog of ~70 damage mechanisms (corrosion, cracking, metallurgical, mechanical, environmental).

Key requirements (5)

Catalog of >70 damage mechanisms in refining and petrochemical service.
For each mechanism: description, materials affected, factors, appearance, prevention/mitigation.
Examples: high-temp H2S corrosion, naphthenic acid corrosion, polythionic acid SCC, CUI, MIC.
Hydrogen damage: HTHA per Nelson curves (now revised post-Tesoro 2010 incident).
Used as input to RBI (API 580/581) and inspection planning.

Edition: 2021 Edition Region: USA, Global

Quantitative engineering assessment of equipment with flaws (corrosion, cracks, dents, blisters, fire damage, creep, etc.) for continued service.

Key requirements (7)

Fitness-For-Service standard, jointly with ASME (FFS-1).
Three assessment levels: 1 (screening), 2 (detailed analytical), 3 (advanced FEA / fracture mechanics).
Part 4: General metal loss; Part 5: Local metal loss; Part 6: Pitting.
Part 7: HIC and SOHIC; Part 8: Weld misalignment; Part 9: Crack-like flaws.
Part 10: Creep; Part 11: Fire damage; Part 12: Dents and gouges; Part 13: Laminations.
RSF (Remaining Strength Factor) method for general metal loss; RSF ≥ 0.90 typical screening.
Companion to API 510, 570, 653 for repair-vs-replace decisions.