AI-Powered Asset Hierarchy

MAG Centrifugal Pump – ISO 14224 Asset Hierarchy (FMECA Pack)

Durco® MARK 3™ ISO MAG (CBMM/CBME) – Flowserve | Extracted by AI from PUIOM000266 (EN), July 2020

Prepared: August 14, 2025 – Generation approach: structured JSON provided

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Executive summary

This document presents a clean, ISO 14224-aligned asset hierarchy for a sealless magnetic-drive centrifugal pump. It was automatically extracted by AI from the referenced user manual and structured for direct use in an FMECA package.

Systems (L5)

Equipment (L6)

Sub-equipment (L7)

Components (L8)

Component criticality mix (L8)

Class	Count
A	16
B	28
C	2

Counts reflect component-level criticality where provided.

Criticality mentions across hierarchy (Site + L5 to L8)

Class	Mentions
A	23
B	29
C	2

Includes site, system, equipment, sub-equipment, and components.

How this was generated

Source: PUIOM000266 (EN), July 2020 – Flowserve Durco® MARK 3™ ISO MAG (CBMM/CBME) user manual.
Method: AI-assisted extraction of equipment taxonomy, mapped to ISO 14224 levels (L5 to L8) and enriched with functions, failure modes, and instrument codes where available.
Traceability: Each element retains tag numbers, alt tags, part numbers, and class or type annotations where present for auditability and spare parts alignment.
FMECA fit: Structure feeds directly into Item → Function → Requirement → Failure Mode → Effect chains, with instrumentation signals highlighted for detection and condition indicators.
Limitations: Some manuals omit explicit values (for example material options, balancing details). Use this as a seed and finalize with site data (duty, fluid, speed) and OEM specs.

L7 sub-equipment overview

#	Sub-equipment (L7)
1	Magnetic System
2	Power End
3	Casing Group
4	Impeller Group
5	Pump Instrumentation

Instrumentation quick view

Signals mapped to ISO 14224 instrument codes with AI relevance for predictive analytics and detection coverage.

Sensor	ISO 14224 Code	Instrument Type	AI Relevance
Containment Shell Temperature Sensor	TI	Temperature Transmitter	High – Early demagnetization indicator
Inner Rotor Vibration Sensor	VAI	Accelerometer	Critical – Bearing failure prediction
Magnetic Flux Density Sensor	MAG	Flux Density Transmitter	High – Unique to mag-drive systems
Strainer Differential Pressure	PDT	Differential Pressure Transmitter	Critical – Bearing starvation prevention
Drive End Vibration Sensor	VAI	Tri-axial Accelerometer	Critical – Primary bearing failure indicator
Non-Drive End Vibration Sensor	VAI	Tri-axial Accelerometer	Critical – Secondary bearing failure indicator
Bearing Temperature Sensor DE	TI	RTD Temperature Transmitter	High – Thermal signature analysis
Bearing Temperature Sensor NDE	TI	RTD Temperature Transmitter	High – Thermal signature analysis
Oil Level Sensor	LI	Ultrasonic Level Transmitter	Medium – Lubrication system health
Oil Condition Sensor	QI	Multi-parameter Oil Analyzer	High – Predictive lubrication analytics
Shaft Proximity Probe	PRX	Eddy Current Proximity Sensor	High – Mechanical coupling health
Suction Pressure Transmitter	PI	Pressure Transmitter	Critical – Cavitation prevention and NPSH monitoring
Discharge Pressure Transmitter	PI	Pressure Transmitter	Critical – Performance curve analysis
Differential Pressure Transmitter	PDT	Differential Pressure Transmitter	High – Pump curve degradation tracking
Flow Transmitter	FI	Electromagnetic Flow Transmitter	Critical – Hydraulic performance analytics
Casing Vibration Sensor	VAI	Piezoelectric Accelerometer	High – Cavitation signature analysis
Leak Detection Sensor	LDS	Conductive Leak Detection Sensor	Medium – HSE compliance and early warning
Impeller Acoustic Emission Sensor	ACO	Acoustic Emission Sensor	High – Impeller condition signature analysis
Impeller Proximity Sensor	PRX	Eddy Current Proximity Sensor	High – Wear ring condition monitoring
Cavitation Detection Sensor	CAV	Ultrasonic Cavitation Detector	Critical – Cavitation damage prevention
Hydraulic Efficiency Sensor	EFF	Computed Efficiency Transmitter	High – Performance degradation analytics

Hierarchy tree (print-friendly)

Tip: click “Expand all” before printing.

SITECIP Station ABC-FR-SL-LN01-ST02 Criticality A

L5 SYSTEMCIP Pump Skid ABC-FR-SL-LN01-ST02-SKP01 Criticality A

L6 EQUIPMENTCentrifugal Pump — Sealless Mag-Drive ABC-FR-SL-LN01-ST02-SKP01-PMP01 ISO 14224 Class 311 Criticality A

L7 SUB-EQMagnetic System …PMP01-MAG02 A (9 components)

Inner Magnet Rotor — A
Outer Magnet Rotor — A
Containment Shell — A
Clamping Ring — B
Front SiC Sleeve Bearing — A
Rear SiC Sleeve Bearing — A
Secondary Control Seal — A
Self-Cleaning Strainer Insert — B
Filter Cover — B

L7 SUB-EQPower End …PMP01-PEND02 B (9 components)

Bearing Bracket — B
Drive Shaft — B
Outer-Rotor Flange — B
Drive End Ball Bearing — B
Non-Drive End Ball Bearing — B
Bearing Gard Isolator DE — B
Bearing Gard Isolator NDE — B
Oil Sight Glass — C
Magnetic Drain Plug — C

L7 SUB-EQCasing Group …PMP01-CASG02 A (4 components)

Volute Casing — A
External Cover — A
Internal Cover — A
Casing Gasket — A

L7 SUB-EQImpeller Group …PMP01-IMPG02 A (3 components)

Closed Impeller — A
Impeller Lock Nut — A
Impeller Key — A

L7 SUB-EQPump Instrumentation …PMP01-INSTR02 A (21 components)

Containment Shell Temperature Sensor — B (TI)
Inner Rotor Vibration Sensor — B (VAI)
Magnetic Flux Density Sensor — B (MAG)
Strainer Differential Pressure — B (PDT)
Drive End Vibration Sensor — B (VAI)
Non-Drive End Vibration Sensor — B (VAI)
Bearing Temperature Sensor DE — B (TI)
Bearing Temperature Sensor NDE — B (TI)
Oil Level Sensor — B (LI)
Oil Condition Sensor — B (QI)
Shaft Proximity Probe — B (PRX)
Suction Pressure Transmitter — B (PI)
Discharge Pressure Transmitter — A (PI)
Differential Pressure Transmitter — B (PDT)
Flow Transmitter — A (FI)
Casing Vibration Sensor — B (VAI)
Leak Detection Sensor — A (LDS)
Impeller Acoustic Emission Sensor — B (ACO)
Impeller Proximity Sensor — B (PRX)
Cavitation Detection Sensor — B (CAV)
Hydraulic Efficiency Sensor — B (EFF)

Why this matters

Speed: Generate a complete, standards-aligned pump hierarchy with 40 plus components in minutes, not weeks.
Quality: Consistent naming, tag fidelity, and ISO 14224 mapping reduce downstream rework in CMMS or ERP.
Predictive by design: Sensors are explicitly tied to likely failure modes (for example cavitation, demagnetization, bearing wear).
Ready for FMECA: Components include functions and candidate failure modes, accelerating severity or occurrence or detection scoring.
Audit and compliance: Traceable back to OEM documentation with explicit part numbers and configuration variants (CBMM or CBME).