Saipem-Offshore-Vacancies-Rotational-Shift-Jobs

 

Saipem Offshore Vacancies 2026: 28/28 Rotational Jobs (Immediate Hiring)

The global offshore oil and gas industry is experiencing an unprecedented surge in capital expenditure, particularly across major Engineering, Procurement, Construction, and Installation (EPCI) subsea projects. At the forefront of this industrial expansion is Saipem, a world leader in the execution of complex turnkey projects both onshore and offshore.

The global energy landscape is undergoing a monumental transformation as capital expenditure into deepwater assets reaches record levels, sparking an unprecedented surge in demand for Saipem offshore vacancies and specialized high paying offshore engineering jobs. As major Engineering, Procurement, Construction, and Installation (EPCI) subsea initiatives scale rapidly across key maritime corridors, international contractors are facing a critical talent shortfall, necessitating a wave of immediate hiring offshore oil and gas 2026 to staff premium upstream assets. At the absolute forefront of this worldwide mobilization is Saipem, a tier-one global contractor renowned for executing complex turnkey projects, whose expanding portfolio of deepwater drillships, jack-up rigs, massive pipelay vessels, and Floating Production Storage and Offloading (FPSO) units has created highly coveted Saipem careers international oil and gas. For seasoned professionals and ambitious technical experts seeking long-term financial security and top-tier operational exposure, these positions offer a definitive pathway to working on high-profile infrastructure projects while benefiting from a highly structured, industry-standard offshore oil and gas jobs 28 28 rotation. This lucrative 28 days on-duty and 28 days paid off-duty shift pattern provides an optimal balance between intense, high-risk operational performance and extended personal recovery time, making it one of the most attractive lifestyle packages in the modern industrial workforce. Because these complex maritime assets operate in unforgiving, extreme deepwater environments, the technical specifications, structural responsibilities, and procedural requirements governing these roles are exceptionally rigorous, spanning from specialized engineering disciplines down to fundamental rig floor mechanics. Within the elite domain of offshore engineering, professionals such as Commissioning Engineers are tasked with verifying that integrated mechanical, electrical, and process piping networks transition safely from fabrication to dynamic runtime operations, relying on strict Operational Readiness and Assurance (ORA) frameworks and Commissioning Management Systems (CMS) to eliminate systemic risks before hydrocarbon introduction. Simultaneously, Subsea Engineers manage the structural integrity and long-term reliability of deepwater installation architectures—including complex manifolds, dynamic risers, umbilical lines, and Subsea Production Systems (SPS)—utilizing cutting-edge hydrodynamic simulation software like Orcaflex and adhering strictly to API RP 17A design parameters. Pipeline Engineers complement this structural matrix by executing real-time stress analysis and structural mechanics evaluations during deepwater pipe-laying operations onboard flagship vessels like the Castorone, maintaining definitive compliance with DNV-ST-F101 submarine codes and ASME B31.8 standards to ensure the continuous pipelines can withstand massive hydrostatic pressures. Quality assurance and risk mitigation are governed by QA/QC Engineers, who oversee strict non-destructive testing (NDT) data management loops, root-cause analysis (RCA) protocols, and welding code compliance, frequently holding advanced CSWIP 3.1 or AWS Certified Welding Inspector credentials to validate structural sound welds. Meanwhile, the logistical and financial parameters of these multi-billion-dollar developments are monitored by Planning Engineers, who utilize advanced Oracle Primavera P6 scheduling systems and earned value management (EVM) tracking models to identify critical-path variances, mitigate complex maritime bottlenecks, and preserve project timelines. Parallel to the engineering brain trust, the Operations and Production Division functions as the continuous heartbeat of the production asset, where Production Operators directly control high-pressure wellheads, chemical injection skids, and multiphase pumping arrays to ensure uninterrupted fluid extraction. Process Technicians manage the downstream separation systems, operating massive three-phase separators, glycol dehydration units, and gas turbine compressors to refine the crude stream while maintaining rigorous compliance with zero-discharge environmental regulations. The entire operational choreography is overseen by the Control Room Operator (CRO), who sits at the apex of the platform’s digital ecosystem, interpreting real-time telemetry from Distributed Control Systems (DCS) like Honeywell Experion or Yokogawa Centum, and managing complex Emergency Shutdown (ESD) matrices to neutralize safety hazards instantly. Supporting these primary workflows are Utility Operators, who bear responsibility for the vital auxiliary infrastructure—including reverse-osmosis seawater desalination plants, complex sewage treatment facilities, steam boilers, and industrial plant air compressors—that keeps the remote offshore installation habitable and operationally viable. Because mechanical wear is accelerated by the corrosive, high-saline marine atmosphere, the Mechanical and Maintenance Division works tirelessly to prevent catastrophic downtime through precise intervention. Mechanical Technicians execute corrective and preventative maintenance, employing advanced laser alignment systems, hydraulic bolt tensioning equipment, and detailed cross-sectional engineering blueprints to service high-pressure valves and heavy structural components. Rotating Equipment Technicians specialize in high-value asset protection, conducting vibration profiling and major overhauls on massive gas turbines, multi-stage centrifugal pumps, and primary power generation units to ensure mechanical tolerances never drift from design limits. Static Equipment Technicians manage the internal integrity and structural servicing of non-moving pressure equipment, navigating complex vessel entry procedures, blinding protocols, and hydro-testing sequences to maintain heat exchangers and storage vessels. This is supported by Pump and Compressor Technicians, who diagnose mechanical seal flush systems and analyze performance degradation curves across high-pressure transfer machinery, while Hydraulic Technicians troubleshoot complex fluid-power loops driving massive marine winches, crane mechanics, and subsea launch systems through the meticulous reading of schematic diagrams. The digital and electrical stability of these highly automated platforms falls squarely upon the Electrical and Instrumentation (E&I) Division, where Offshore Electricians maintain high-voltage generation networks, marine switchgear, and uninterrupted power supplies (UPS), demanding strict compliance with CompEx (Ex01-Ex04) explosion-proof standards to operate safely within hazardous, gas-prone zones. Instrument Technicians ensure the reliability of thousands of data points by calibrating smart transmitters via the HART protocol and servicing control valves and electronic positioners, while Automation and PLC Technicians diagnose logic code, debug industrial communication networks like Profibus or Industrial Ethernet, and modify ladder logic diagrams across Siemens S7 or Allen-Bradley systems. DCS Technicians focus exclusively on the underlying network node integrity and server architecture supporting the asset's centralized brain, executing high-risk live system hot-swaps, while High Voltage Technicians safely navigate distribution lines ranging from 6.6kV to 11kV, utilizing vacuum circuit breakers and managing high-voltage switching permits under strict Lockout-Tagout (LOTO) protocols. Out on the open decks and beneath the waves, the Subsea and Marine Operations Division handles complex spatial and structural positioning. ROV Pilot Technicians fly heavy work-class Remotely Operated Vehicles to perform deepwater subsea interventions, tool manipulation, and detailed structural inspections, tracking their expertise through meticulously logged IMCA flying hours. Crane Operators execute high-consequence lifts, navigating dynamic sea states and vessel list factors using massive lattice-boom or active heave-compensated (AHC) knuckle-boom cranes to transfer critical cargo and personnel safely under Stage 3 marine certifications. Marine Engineers look after the underlying vessel propulsion, thruster dynamics, and auxiliary marine power systems under international STCW frameworks, while Ballast Control Operators utilize automated pumping networks and stability calculators to continuously preserve the hydrostatic equilibrium and trim of semi-submersible rigs during heavy weather anomalies or intense listing events. Down on the high-hazard drill floor, the Drilling and Rig Support Division operates the heavy industrial machinery required to tap subsea reservoirs, a structural workflow moving from entry-level Roustabouts handling general deck cargo, manual slinging, and supply vessel offloading, up to Roughnecks operating heavy iron roughnecks, power tongs, and pipe slips directly on the floor. Derrickmen brave extreme heights to manipulate drill pipe strands from the derrick’s monkeys-board during tripping operations while simultaneously monitoring mud pits and shale shakers to manage drilling fluid properties at deck level. Assistant Drillers coordinate these floor crews directly, monitoring critical downhole parameters, rate of penetration (ROP), hook loads, and pit levels via advanced cyber-chair interfaces while maintaining active well control certifications from institutions like the IWCF or IADC to prevent catastrophic blowout scenarios. Rig Mechanics keep this specialized drilling equipment running, focusing their mechanical expertise on top drives, drawworks, and massive high-pressure mud pumps. Overseeing the entirety of these multi-disciplinary operations is the Safety, QA/QC, and Support Division, where HSE Officers and Safety Supervisors enforce Saipem's core safety visions, controlling Permit to Work (PTW) compliance and conducting incident investigations through advanced methodologies like TapRoot or Kelvin TOP-SET. Fire and Gas Technicians maintain life-safety integrity by testing infrared gas detectors, flame arrays, and aspirating smoke systems, while Welding Inspectors and NDT Technicians utilize advanced Phased Array Ultrasonic Testing (PAUT) and Time of Flight Diffraction (ToFD) to visually and digitally verify that structural fabrications are entirely free of internal defects. Finally, Material Controllers manage critical supply chain links through advanced SAP modules, Helideck Assistants secure vital aviation transport links under rigid OPITO protocols, and Camp Bosses oversee the extensive hospitality, catering, and maritime living conditions required to maintain workforce morale during long deployments. Securing entry into these highly competitive positions during this period of intense recruitment requires absolute compliance with global maritime safety standards, meaning candidates must proactively hold fully verified, unexpired OPITO-approved BOSIET or FOET survival training certificates, complete Compressed Air EBS (CA-EBS) credentials, and clear stringent international maritime medical fitness exams such as the OGUK medical assessment. Because Saipem prioritizes rapid, direct deployment to meet its immediate 2026 operational milestones, candidates are subjected to demanding online technical video interviews where senior asset superintendents rigorously evaluate system isolation expertise, emergency response capabilities, and familiarity with international engineering codes before initiating mobilization. This sweeping recruitment campaign represents an exceptional convergence of high-value professional opportunities, offering unparalleled industry day-rates and long-term security, but it demands an unwavering commitment to technical excellence, rigorous safety adherence, and procedural mastery from every professional who steps onto a Saipem offshore asset.

Saipem has officially commenced a massive global recruitment drive for its premium offshore assets, including drilling rigs, pipe-laying vessels, construction barges, and Floating Production Storage and Offloading (FPSO) units. If you are a skilled energy professional seeking a stable, highly lucrative career with a prestigious global energy contractor, these Saipem Offshore Vacancies present a definitive pathway.

This comprehensive operational guide details every available position, specific engineering and technical requirements, the targeted high-value skill sets required for selection, and how to successfully clear the online technical evaluation.

🔹 Strategic Project Parameters & Employment Terms

Understanding the operational framework of a major offshore deployment is crucial before entering the technical interview phase. Saipem’s current offshore projects are engineered around specific logistical and contractual parameters designed to attract top-tier global talent.

Parameter	Operational Specification & Contractual Terms
Hiring Enterprise	Saipem Offshore (Global EPC/Subsea Division)
Asset Categories	Deepwater Drillships, Jack-up Rigs, Pipelay Vessels (e.g., Saipem FDS, Castorone), FPSO Units
Shift Pattern	Strict 28/28 Rotational Schedule (28 Days On-Duty / 28 Days Paid Off-Duty)
Deployment Window	Immediate Mobilisation (Targeting candidates with active, valid offshore credentials)
Assessment Protocol	Multi-stage Online Technical Interview via secure video conferencing
Financial Package	Tax-free offshore day-rates, comprehensive medical indemnity, and full travel serialization

🔹 Comprehensive Breakdown of Offshore Vacancies & Technical Roles

To assist you in aligning your professional background with Saipem’s operational needs, we have compiled an exhaustive technical breakdown of every vacant position. To maximize your chances of selection, ensure your CV explicitly incorporates the specific systems, software, and regulatory codes detailed below.

1. Offshore Engineering Division

The offshore engineering department forms the technical brain of Saipem’s fleet and production platforms. These roles demand advanced analytical capability, mastery of simulation software, and structural safety compliance.

Commissioning Engineer

• Role Profile: Responsible for verifying that all offshore systems (mechanical, electrical, instrumentation, and process piping) are integrated, tested, and operational according to design specifications before being brought online.

• Core Systems & Software: Mastery of Operational Readiness and Assurance (ORA) frameworks, Commissioning Management Systems (CMS), P&ID (Piping and Instrumentation Diagrams) interpretation, and loop testing protocols.

• Key Requirements: Extensive experience in Pre-Commissioning, Dynamic Commissioning, and hand-over protocols to asset operations.

Subsea Engineer

• Role Profile: Focuses on the structural integrity, installation, and long-term reliability of subsea infrastructure, including manifolds, risers, umbilical lines, flowlines, and Subsea Production Systems (SPS).

• Core Systems & Software: Deepwater riser analysis, subsea tree architectures, Orcaflex, and math-modeling software for subsea hydrodynamics.

• Key Requirements: Mastery of API RP 17A standards for subsea production systems and deepwater installation methodologies.

Pipeline Engineer

• Role Profile: Executes and monitors offshore pipeline installation, stress analysis, and structural mechanics during shallow and deepwater pipe-laying operations.

• Core Systems & Software: Abaqus, CAESAR II, AutoPIPE, and advanced structural finite element analysis (FEA).

• Key Requirements: Full working knowledge of DNV-ST-F101 (Submarine pipeline systems) and ASME B31.8 codes.

QA/QC Engineer

• Role Profile: Governs the quality assurance frameworks and quality control inspections across all offshore fabrication, welding, coating, and structural installation activities.

• Core Systems & Software: Non-Destructive Testing (NDT) data management systems, root-cause analysis (RCA) software, and ISO 9001 quality systems.

• Key Requirements: CSWIP 3.1 or AWS Certified Welding Inspector credentials, alongside NDT Level II certifications in multi-method applications.

Planning Engineer

• Role Profile: Manages project execution timelines, resource allocations, critical-path paths, and structural cost engineering metrics for complex offshore operations.

• Core Systems & Software: Oracle Primavera P6, Microsoft Project, and advanced earned value management (EVM) tracking platforms.

• Key Requirements: Proven history in identifying schedule variances and mitigating logistical bottlenecks within marine environments.

2. Operations & Production Division

Production professionals ensure the safe, continuous extraction, separation, and processing of hydrocarbons on-board FPSOs and production platforms.

Production Operator

• Role Profile: Directly manages the physical extraction assets, processing equipment, wellhead control panels (WHCP), and chemical injection systems.

• Core Systems: High-pressure wellheads, gas lift systems, multiphase pumps, and production manifolds.

• Key Requirements: Ability to monitor process variables visually and through local instrumentation, executing manual changes safely under hazardous conditions.

Process Technician

• Role Profile: Specialized in the operational maintenance and optimization of oil separation, gas compression, water injection, and chemical treatment units.

• Core Systems: Three-phase separators, glycol dehydration units, gas turbine compressors, and produced water treatment systems.

• Key Requirements: High proficiency in safe isolation protocols, sampling techniques, and environmental discharge compliance.

Control Room Operator (CRO)

• Role Profile: The central nervous system of the production asset. The CRO monitors and operates the entire plant via advanced distributed control systems, managing emergency shutdown matrices.

• Core Systems: Honeywell Experion, Yokogawa Centum, Foxboro DCS, and automated Emergency Shutdown (ESD) / Fire & Gas (F&G) logic systems.

• Key Requirements: Exceptional rapid-response decision-making capabilities, alarm management proficiency, and high psychological stability under emergency simulation stress.

Utility Operator

• Role Profile: Oversees the auxiliary support systems that keep the primary production asset habitable and operationally viable.

• Core Systems: Sea water desalination plants (RO units), sewage treatment plants, boiler systems, plant air compressors, and diesel bunkering systems.

• Key Requirements: Thorough comprehension of utility routing diagrams and preventative maintenance loops on auxiliary rotating machinery.

3. Mechanical & Maintenance Division

The mechanical division prevents catastrophic downtime by ensuring all static and rotating heavy machinery operates within designed engineering tolerances.

Mechanical Technician

• Role Profile: Executes routine corrective and preventative mechanical maintenance across the entire offshore installation.

• Core Systems: Heavy machinery alignment, valve overhauls, flange management, and structural bolt tensioning.

• Key Requirements: Mastery of laser alignment tools, torque wrenches, and detailed reading of engineering cross-sectional drawings.

Rotating Equipment Technician

• Role Profile: Specializes exclusively in the maintenance, vibration tracking, and overhaul of massive rotating assemblies.

• Core Systems: Gas turbines (e.g., Solar, GE), multi-stage centrifugal pumps, turbo-compressors, and power generation units.

• Key Requirements: Strong knowledge of vibration analysis protocols, hydrodynamic bearings, and mechanical seal replacements.

Static Equipment Technician

• Role Profile: Manages the internal and external integrity, cleaning, blinding, and structural servicing of non-moving pressure vessels.

• Core Systems: Heat exchangers (shell-and-tube, plate), pressure vessels, storage tanks, and structural piping systems.

• Key Requirements: Expertise in vessel entry procedures, hydro-testing protocols, and executing specific bolt-torque specifications.

Pump & Compressor Technician

• Role Profile: Tasked with the continuous optimization, mechanical sealing integrity, and failure analysis of fluid and gas transfer machinery.

• Core Systems: Reciprocating compressors, screw pumps, progressive cavity pumps, and high-pressure chemical injection skids.

• Key Requirements: Deep mechanical troubleshooting skills, seal-flush system maintenance, and performance curve calculations.

Hydraulic Technician

• Role Profile: Manages fluid-power systems responsible for crane mechanics, winches, subsea launch systems, and heavy mechanical actuators.

• Core Systems: High-pressure hydraulic power units (HPUs), proportional control valves, hydraulic accumulators, and closed-loop marine winches.

• Key Requirements: Fault-finding via hydraulic circuit schematics, oil particulate analysis, and high-pressure hose crimping protocols.

4. Electrical & Instrumentation (E&I) Division

Modern offshore assets are highly automated. The E&I team preserves power generation stability and ensures the integrity of thousands of digital and analog sensor loops.

Offshore Electrician

• Role Profile: Maintains the generation, distribution, and consumption networks of electrical energy across the marine asset.

• Core Systems: Ex-rated explosion-proof equipment, emergency diesel generators, marine switchgear, and uninterrupted power supplies (UPS).

• Key Requirements: CompEx (Ex01-Ex04) certification is mandatory; deep knowledge of electrical isolation and Lockout-Tagout (LOTO) protocols.

Instrument Technician

• Role Profile: Calibrates, troubleshoots, and installs electronic, pneumatic, and hydraulic instruments measuring pressure, temperature, level, and flow.

• Core Systems: Smart transmitters (HART protocol), control valves, positioners, and analytical element sensors.

• Key Requirements: Fault isolation inside complex loops, instrument loop testing, and calibration bench software fluency.

Automation / PLC Technician

• Role Profile: Diagnoses and maintains the logic controllers that govern automated machinery sequences throughout the rig or vessel.

• Core Systems: Allen-Bradley ControlLogix, Siemens S7-300/400/1500, Modicon PLCs, and SCADA architectures.

• Key Requirements: Ability to read and modify ladder logic, function block diagrams, and diagnose industrial Ethernet/Profibus communication failures.

DCS Technician

• Role Profile: Focuses on the physical hardware, server architectures, and network nodes supporting the Distributed Control System.

• Core Systems: Fieldbus systems, fiber-optic communication networks, input/output (I/O) modules, and control room hardware interfaces.

• Key Requirements: Specialized vendor certifications (e.g., Emerson DeltaV, Honeywell) with experience in live-system hot-swapping procedures.

High Voltage (HV) Technician

• Role Profile: Safely operates and services the high-voltage generation and distribution infrastructure driving heavy marine propulsion and drilling motors.

• Core Systems: 6.6kV to 11kV distribution systems, HV transformers, vacuum circuit breakers, and protection relays.

• Key Requirements: Formal High Voltage Authorization (HV Switching certification) with strict adherence to electrical safety procedures.

5. Subsea & Marine Operations Division

This specialized marine crew controls vessel position, heavy lift dynamics, and subsea vehicle interventions.

ROV Pilot Technician

• Role Profile: Pilots heavy work-class Remotely Operated Vehicles (ROVs) for deepwater subsea construction, inspection, and tooling intervention tasks.

• Core Systems: Hydraulic/Electrical Work-Class ROVs (e.g., Schilling UHD, Perry Slingsby), manipulators, and subsea sonar arrays.

• Key Requirements: IMCA ROV Pilot Technician logbook detailing logged flying hours, combined with advanced electronics or electronics engineering backgrounds.

Crane Operator

• Role Profile: Executes high-risk offshore lifts, including ship-to-ship transfers, subsea deployments, and internal platform deck lifts under dynamic sea conditions.

• Core Systems: Lattice-boom marine cranes, knuckle-boom active heave-compensated (AHC) cranes, and deepwater winch systems.

• Key Requirements: Stage 3 Offshore Crane Operator Certification (Sparrows, OMHE, or equivalent) tracking dynamic load factors.

Marine Engineer

• Role Profile: Manages the primary propulsion, ballast, auxiliary, and marine engineering systems of the vessel.

• Core Systems: Marine diesel engines, thruster assemblies, auxiliary power plant units, and dynamic positioning machinery.

• Key Requirements: STCW III/1 or III/2 Certificate of Competency (CoC) matching the vessel's propulsion ratings.

Ballast Control Operator (BCO)

• Role Profile: Ensures the stability, trim, and structural equilibrium of semi-submersible rigs or FPSOs during heavy listing operations and adverse weather events.

• Core Systems: Automated ballast pumping networks, tank gauging arrays, and structural stress calculators.

• Key Requirements: Valid BCO endorsement, profound understanding of marine metocean dynamics, and stability calculation methodologies.

6. Drilling & Rig Support Division

The drilling crew operates the mechanical assembly lines directly responsible for making hole and managing well pressures.

Roustabout

• Role Profile: The entry-level backbone of deck operations. Focuses on general labor, offloading supply vessels, and assisting the crane crew with rigging.

• Key Tasks: Safe slinging techniques, manual handling, high-pressure washing, and basic structural painting.

• Key Requirements: Strong physical endurance, clear understanding of banksman/signaling protocols, and basic safety compliance.

Roughneck

• Role Profile: Works directly on the high-hazard drill floor handling pipe, making up connections, and maintaining the drilling equipment.

• Key Tasks: Operating iron roughnecks, spinning wrenches, power tongs, and handling slips.

• Key Requirements: Proven experience on high-drag drill floors with complete knowledge of drill floor hazard management.

Derrickman

• Role Profile: Operates high above the drill floor on the derrick monkeys-board during tripping operations; manages the drilling fluid properties at ground level.

• Key Tasks: Guiding drill pipe into fingerboards, monitoring shale shakers, mud pits, and mud pump manifolds.

• Key Requirements: High comfort working at extreme heights, complete fall-protection awareness, and understanding of basic mud chemistry parameters.

Assistant Driller (AD)

• Role Profile: Directly assists the Driller in regulating wellbore operations, managing the floor crew, and tracking safety parameters on the cyber-chair systems.

• Key Tasks: Monitoring well parameters (pit levels, hook load, ROP), coordinating the floor crew, and standing in for the Driller.

• Key Requirements: Active IWCF or IADC Well Control certification at the Supervisor or Driller level.

Rig Mechanic

• Role Profile: Keeps the specialized heavy mechanical components of the drilling package operational.

• Core Systems: Top drives (e.g., Nov, Varco), drawworks, mud pumps, iron roughnecks, and blow-out preventer (BOP) stack lifters.

• Key Requirements: Advanced heavy mechanical diagnostic skills, specialized top-drive training certificates, and high-pressure fluid engineering.

7. Safety, QA/QC & Support Divisions

These departments establish the operational boundaries for safety, regulatory compliance, and day-to-day camp logistics.

HSE Officer / Safety Supervisor

• Role Profile: Enforces Saipem’s strict "Leadership in Health and Safety" vision, monitors risk assessments, controls Permit to Work (PTW) compliance, and leads emergency response exercises.

• Key Requirements: NEBOSH International Technical Certificate in Oil and Gas Operational Safety, combined with formal incident investigation training (e.g., TapRoot or Kelvin TOP-SET).

Fire & Gas (F&G) Technician

• Role Profile: Keeps critical safety detection arrays operational, preventing undetected gas clouds or thermal flashes.

• Core Systems: Infra-red gas detectors, flame detectors, toxic gas sensors, aspirating smoke detection systems (VESDA), and deluged water valves.

• Key Requirements: Specialized electronics or instrumentation training focused entirely on life-safety control panels.

Welding Inspector

• Role Profile: Verifies that all offshore welding procedures and structural fabrications adhere strictly to international codes and approved project specifications.

• Key Requirements: CSWIP 3.2 Senior Welding Inspector or AWS-CWI certification, with comprehensive experience in duplex, super-duplex, and high-alloy metallurgy.

NDT Technician

• Role Profile: Conducts non-destructive structural mapping of welds and high-stress components to identify internal structural defects.

• Core Methods: Phased Array Ultrasonic Testing (PAUT), Time of Flight Diffraction (ToFD), Magnetic Particle Inspection (MPI), and Dye Penetrant Inspection (DPI).

• Key Requirements: PCN or ASNT Level II certifications in the specified methods, with marine structure deployment experience.

Logistics & Support Roles (Material Controller / Admin / Helideck / Camp Boss)

• Profiles: This essential support network coordinates inventory control, helideck arrivals, regulatory manifest entries, and catering infrastructure.

• Key Requirements: Material Controllers must have advanced SAP Material Management experience. Helideck Assistants must hold a valid OPITO HDA certificate. Camp Bosses must hold advanced food hygiene and maritime catering management credentials.

🔹 Crucial Certification & Safety Requirements

Securing a position with Saipem Offshore requires complete compliance with international maritime and offshore safety frameworks. Candidates who do not possess these active, verifiable credentials will not pass the initial HR screening matrix.

Mandatory Offshore Survival Certifications

1. OPITO-Approved BOSIET or FOET: A valid Basic Offshore Safety Induction and Emergency Training certificate containing Helicopter Underwater Escape Training (HUET) with an Emergency Breathing System (EBS) or Compressed Air EBS (CA-EBS).

2. Metocean Medical Fitness Certificate: A valid, unexpired Offshore Medical Certificate recognized internationally (e.g., OGUK Medical, Norwegian Maritime Directorate Medical).

3. STCW Security Awareness: For roles deployed on dynamic positioning vessels or mobile offshore drilling units, basic STCW maritime safety awareness is required.

🔹 Strategic Insights: Navigating Saipem's Online Technical Interview

Because Saipem leverages digital infrastructure to fast-track its global mobilisation, candidates will undergo a rigorous Online Technical Evaluation. This interview is conducted by senior asset engineers and technical superintendent managers.

What the Interview Panel Evaluates:

• System Isolations & Safety Protocol Mastery: You will be given hypothetical scenarios asking you to isolate an asset component (e.g., a high-pressure control loop or a turbine fuel line). The panel looks for a strict chronological sequence honoring safety over speed.

• Emergency Response Matrices: For control room and operational roles, expect questions designed to test your mental stability and procedural obedience under simulated cascade failures (e.g., "You lose instrument air pressure simultaneously with an automated ESD signal; what is your first action?").

• International Engineering Code Familiarity: Engineers and inspectors must be ready to defend their design or inspection selections using exact code numbers from API, DNV, ASME, or AWS frameworks.

🔹 Direct Application Protocols: Secure Your Offshore Selection

Saipem does not authorize third-party agencies to collect processing or recruitment fees. This recruitment drive is a direct placement pipeline. Use the official secure tracking links below to enter your application into the system.

⚠️ Verification Warning: Ensure your CV is formatted in standard, machine-readable PDF typography. Explicitly outline your past offshore asset names, your current notice period, and your precise location of residency to accelerate your mobilization profile.

Official Application Pathways:

• Primary Executive CV Submission Portal:

  👉 Submit CV & Professional Profile

• Live Comprehensive Vacancy Dashboard:

  👉 View Open Active Positions

• Corporate Offshore Talent Network Contact:

  👉 Connect with Saipem Recruitment Operations

Ensure your safety certifications are compiled into a single file alongside your updated resume prior to initiating the submission sequence.