Urgent: 12 Oil & Gas Jobs in Nigeria 2026 | Onshore & Offshore
The global energy, oil and gas, and heavy infrastructure sectors are experiencing a massive surge in project execution. Nigeria remains at the absolute forefront of this industrial expansion, hosting some of the most complex onshore and offshore projects in the world. As major infrastructure assets, deepwater developments, and localized production facilities ramp up operations this year, a premier international engineering firm has announced an urgent recruitment drive.
High-paying, technically demanding positions are currently open for qualified expatriate and local professionals. If you are an engineer, supervisor, or specialist looking to elevate your career, maximize your earnings, and work on world-class industrial assets, this is your definitive gateway.
The landscape of global energy production relies heavily on the development of highly specialized human capital, a reality that is vividly apparent when examining the current state of oil and gas engineering jobs in Nigeria, where massive infrastructure upgrades, deepwater offshore campaigns, and comprehensive onshore facility modernizations drive a continuous demand for elite technical talent. This vibrant West African energy hub stands as a primary engine of economic activity on the continent, demanding a constant influx of skilled professionals capable of navigating complex geological formations, strict environmental regulations, and highly technical engineering specifications. Within this competitive market, the financial compensation reflects the immense operational risks and technical expertise required, as evidenced by the premium offshore piping engineer salary scales offered by international operators and prime engineering, procurement, and construction (EPC) firms to experts who can flawlessly execute asset stress calculations, manage complex fluid dynamics, and orchestrate critical pre-commissioning processes. At the core of sustaining these million-dollar production networks and preventing catastrophic asset failures are the highly technical qa qc engineer jobs energy sector organizations prioritize, roles that serve as the strict quality gatekeepers ensuring that every physical weld, alloy composition, and high-pressure valve fits perfectly into international safety frameworks such as ASME, API, and ISO specifications. Because local projects consistently scale into multi-billion-dollar joint ventures, the ecosystem relies heavily on specialized international construction recruitment africa agencies that bridge the geographic gap between global engineering talent pools and localized project execution fronts, ensuring that remote extraction sites, offshore floating production storage and offloading (FPSO) units, and massive cross-country trunklines are staffed by certified, high-performing operators, project controls managers, and superintendents.
The operational environment within Nigeria’s oil and gas engineering sectors demands a deep synthesis of theoretical engineering knowledge and rugged, field-tested adaptability, particularly because the geological and logistical challenges of the Niger Delta and deepwater blocks like Bonga, Egina, and Erha require specialized engineering solutions. Engineers working in these fields are tasked with managing complex multi-phase flow lines, designing high-pressure high-temperature (HPHT) subsea production loops, and maintaining aging onshore flow stations that require continuous structural and mechanical integrity updates. For a professional stepping into oil and gas engineering jobs in Nigeria, the daily reality involves balancing advanced computational modeling using tools like CAESAR II, PIPESIM, and Navisworks with direct, frontline field walkdowns to verify that the approved-for-construction (AFC) blueprints perfectly match the physical realities of the fabrication yards and installation platforms. This dual requirement for digital design mastery and physical construction execution creates a steep barrier to entry, which in turn drives up the market value of experienced engineers who understand how local environmental conditions, such as high ambient humidity, corrosive marine atmospheres, and shifting soil compositions, affect the long-term structural life of heavy industrial equipment. Furthermore, the transition toward localized gas monetization projects, including massive liquefied natural gas (LNG) expansion trains, domestic gas utilization networks, and regional pipeline infrastructure, has expanded the scope of traditional petroleum engineering to encompass complex chemical processing, advanced cryogenics, and localized power generation engineering disciplines.
The financial metrics of this specialized workforce are heavily weighted toward offshore assets, where the baseline offshore piping engineer salary is structurally designed to reward professionals for the isolation, technical complexity, and high-stakes environment of working on open-water drilling rigs, tension-leg platforms, and FPSO units. A qualified offshore piping engineer is responsible for the integrity of above ground and subsea piping systems that transport volatile hydrocarbons under extreme pressures, meaning that any failure in calculation or execution could lead to catastrophic environmental damage and billions of dollars in lost production revenue. To mitigate these risks, operators are willing to pay premium wages, often structured with tax-efficient expatriate allowances, comprehensive hard-site uplifts, premium medical coverage, and structured rotation schedules that allow engineers to maintain a balance between intense field execution and extended rest periods. The salary metrics are also heavily dependent on specific global certifications, where an engineer who possesses advanced qualifications in structural stress analysis, finite element analysis (FEA), or specialized metallurgy can command vastly superior day-to-rate terms compared to a generalist construction engineer. As the industry faces a tightening global supply of highly technical pipeline and piping specialists, the offshore piping engineer salary trends in the African region remain highly competitive with major energy hubs like the North Sea, the Gulf of Mexico, and the Middle East, making Nigeria a highly lucrative destination for career engineers focused on maximizing their lifetime earning potential while working on some of the world's largest offshore engineering structures.
Simultaneously, the foundational pillar that guarantees these high-pressure offshore and onshore systems do not fail prematurely is managed by the professionals filling QAQC engineer jobs energy sector companies distribute across every single phase of the project lifecycle. Quality Assurance (QA) and Quality Control (QC) are not merely administrative safety layers; they are highly specialized technical disciplines rooted in metallurgy, chemistry, non-destructive testing (NDT), and strict statutory law adherence. A QA/QC engineer operating within this high-velocity sector is tasked with auditing material supply chains to ensure that every raw steel plate, forged flange, and structural bolt carries flawless Mill Test Certificates (MTC) and matches the precise heat numbers stamped at the foundry, eliminating the risk of counterfeit or sub-standard materials entering the construction loop. In the field, these engineers oversee complex welding programs, verifying that every single welding technician passes rigorous performance qualification tests under specific Welding Procedure Specifications (WPS) before their arc touches live production steel. The daily workflow in qa qc engineer jobs energy sector organizations involves interpreting complex radiographic films, analyzing ultrasonic testing data, witnessing dye penetrant or magnetic particle inspections, and managing massive, auditable document databases known as test packs, which compile the entire mechanical history of a pipeline system before it is legally authorized for hydrostatic or pneumatic pressure testing.
The mobilization of this elite technical workforce across complex geopolitical borders is made possible by the structured frameworks of international construction recruitment africa agencies, which operate as highly specialized talent scouts capable of identifying, vetting, and deploying technical experts into demanding industrial zones. These recruitment networks must possess a deep understanding of international labor laws, visa mobilization protocols, localized content regulations—such as Nigeria's NOGICD Act—and the precise technical matrix required for heavy civil, structural, mechanical, and electrical infrastructure projects. When an international consortium secures a multi-billion-dollar EPC contract for a new refinery, pipeline expansion, or offshore jacket fabrication, the recruitment agency must rapidly deploy hundreds of specialized professionals, ranging from project directors and billing engineers to specialized welding foremen and material supervisors. The role of international construction recruitment Africa firms extends far beyond simple job placement; they manage the complex logistics of international medical screenings, offshore survival certifications like BOSIET and HUET, comprehensive emergency evacuation coverages, and localized security briefings, ensuring that when an engineer arrives on-site, they are fully compliant with both international corporate mandates and local regulatory laws. By aligning global technical competency standards with the localized execution requirements of African mega-projects, these recruitment firms act as critical catalysts that allow complex engineering designs to be successfully transformed into operating, revenue-generating physical realities on the ground.
As the energy transition continues to reshape the global industrial landscape, the interconnected nature of these fields becomes even more pronounced, creating an environment where a change in project design instantly ripples through the recruitment pipelines, salary structures, and quality control protocols of the entire region. The integration of digital twin technologies, automated welding tracking systems, and advanced remote sensing mechanisms means that oil and gas engineering jobs in Nigeria are rapidly evolving to require a high degree of digital literacy alongside traditional mechanical acumen. This shift means that tomorrow's offshore piping engineer must not only understand fluid dynamics and flange management but must also be comfortable interacting with cloud-based structural models and real-time sensor data feeds, a factor that will inevitably push the premium offshore piping engineer salary metrics even higher for multi-skilled professionals. Concurrently, QAQC engineer jobs energy sector projects deploy will increasingly leverage advanced digital radiography, automated phase-array ultrasonic testing (PAUT), and AI-driven weld defect recognition software, transforming the traditional quality inspector into a high-tech data analyst who interprets structural integrity data on a microscopic scale. Navigating this hyper-technical transformation requires the steady hand of experienced international construction recruitment Africa consultants who can look past generic CV buzzwords to identify professionals who possess the exact blend of traditional heavy industrial experience and modern digital competency. Ultimately, the successful execution of Nigeria’s future energy roadmap—whether through massive deepwater gas monetization strategies or regional infrastructure corridors—will depend entirely on this symbiotic relationship between bleeding-edge engineering talent, competitive financial compensation, uncompromising quality enforcement, and world-class international recruitment logistics.
This comprehensive guide provides an exhaustive breakdown of the current openings, specific technical requirements, day-to-day operational expectations, and the exact step-by-step application protocol to ensure your CV passes strict shortlisting metrics.
The Strategic Importance of Onshore & Offshore Engineering in Nigeria
Nigeria’s oil, gas, and infrastructure landscape is highly specialized, demanding rigorous adherence to international standards such as ASME, API, AWS, and ISO. Executing projects in this region involves overcoming complex logistical, geographical, and mechanical challenges.
Whether working on onshore flow stations, cross-country pipelines, or offshore floating production storage and offloading (FPSO) units, the engineering teams deployed here are responsible for maintaining structural integrity, strict safety protocols, and flawless operational execution.
Because the financial stakes of these mega-projects are incredibly high, employers prioritize candidates who possess deep domain expertise, hands-on troubleshooting capabilities, and a proven track record of managing high-pressure systems. The current recruitment drive focuses heavily on the critical phases of mechanical completion, pre-commissioning, and quality assurance—specifically looking at piping systems, hydrotesting, asset tracking, and precise financial billing.
Detailed Job Descriptions & Technical Requirements
To optimize your application and align your CV with what the technical review board is looking for, review the granular breakdowns of all 12 urgent vacancies below.
1. Above Ground (AG) Piping Engineer – Test Pack Specialist
Core Focus: Structural Integrity, System Boundary Definition, and Pre-Commissioning Documentation.
Work Environment: Dual allocation (Onshore fabrication yards and Offshore production platforms).
Detailed Job Description
The Above Ground (AG) Piping Engineer specializing in Test Packs is a foundational role bridging the gap between mechanical construction and system testing. This position is directly responsible for compiling, reviewing, and certifying technical test packages for above-ground piping networks. You will analyze complex Piping and Instrumentation Diagrams (P&IDs), isometric drawings, and line lists to break down massive piping networks into logical, testable segments (test packs).
This role ensures that all structural components, weld logs, non-destructive testing (NDT) clearances, and material certifications are perfectly synchronized before any high-pressure testing begins.
Key Responsibilities
Analyze engineering blueprints, isometric sheets, and P&IDs to establish clear boundaries for individual piping test packs.
Verify that all mechanical construction work within a defined test boundary matches the approved-for-construction (AFC) drawings.
Coordinate with the construction and quality control teams to ensure all weld inspections, radiography, and post-weld heat treatments (PWHT) are fully documented within the pack.
Identify and document punch-list items (outstanding construction tasks), categorizing them into critical (must fix before testing) and non-critical items.
Interface directly with client representatives and third-party inspectors to secure final sign-offs on completed test packages.
Required Skills & Qualifications
Bachelor’s degree in mechanical engineering or a closely related industrial discipline.
Minimum of 5 to 8 years of intensive experience in piping engineering, specifically focused on test pack compilation within oil, gas, or petrochemical environments.
Complete mastery of international codes, including ASME B31.3 (Process Piping) and ASME Section VIII.
Exceptional proficiency in reading and interpreting complex multi-discipline engineering drawings.
2. Above Ground (AG) Piping Engineer – Planning & Test Pack
Core Focus: Project Scheduling, Resource Optimization, Path-of-Construction Alignment.
Work Environment: Engineering Office with routine site walkdowns.
Detailed Job Description
Precision scheduling is what prevents million-dollar cost overruns on major energy projects. The AG Piping Engineer for Planning and Test Packs combines deep mechanical engineering insight with advanced project management methodologies. In this role, you will not only understand how a piping system is built, but you will also plan exactly when and in what sequence it must be tested to match the broader commissioning master schedule. You will prevent bottlenecks by ensuring resources, test water, equipment, and inspector availability align perfectly with construction completions.
Key Responsibilities
Develop, maintain, and update the master piping test pack tracker using tracking software and spreadsheets.
Integrate the test pack release schedule with the primary project timeline (Primavera P6 / MS Project) to ensure zero delays in the commissioning phase.
Evaluate construction progress data to predict test pack availability, proactively highlighting potential delays to project management.
Map out the optimal sequential path of testing to maximize resource utilization (cranes, compressors, pumps, and manifold setups).
Conduct weekly progress review meetings with construction superintendents and QA/QC managers to adjust schedules based on real-time field data.
Required Skills & Qualifications
Degree in Mechanical or Industrial Engineering, backed by specialized certifications in Project Management (e.g., PMP, Primavera certificates).
6+ years of experience juggling both technical piping execution and rigorous project planning.
Expert-level command of advanced Microsoft Excel (VBA, Pivot Tables) and dedicated scheduling software.
Strong communication skills, with a proven ability to lead multi-cultural engineering teams under tight deadlines.
3. Above Ground (AG) Piping Senior Engineer – Hydrotest Specialist
Core Focus: High-Pressure Safety, System Overpressurization Risk Management, Final Acceptance.
Work Environment: High-activity field execution blocks (Onshore/Offshore).
Detailed Job Description
As an AG Piping Senior Engineer for Hydrotesting, you shoulder the ultimate technical responsibility for the safe, successful execution of high-pressure hydrostatic and pneumatic tests. This is a high-visibility, senior-level role demanding absolute technical authority. You will design the actual testing parameters, determine the placement of high-pressure pumps, manifolds, and calibrated gauges, and calculate pressure drops, temperature variances, and water-filling/dewatering kinetics. Your signature on the test chart validates that the asset is safe to operate under extreme live process conditions.
Key Responsibilities
Author, review, and approve method statements, job safety analyses (JSA), and specific engineering procedures for all hydrotesting operations.
Calculate structural weight limits and temporary support requirements for piping systems when filled with hydrotest water.
Supervise the isolation of delicate instrumentation, inline valves, and rotary equipment that cannot be subjected to test pressures.
Lead the actual pressure escalation steps (e.g., 25%, 50%, 75%, and 100% hold periods) in strict compliance with ASME B31.3 protocols.
Troubleshoot complex issues in real-time, such as sudden pressure drops, localized yielding, or system leaks, implementing immediate safe isolation protocols.
Required Skills & Qualifications
B.Sc. or B.Eng. in Mechanical Engineering from a recognized institution.
10+ years of verifiable experience in oil and gas piping construction, with at least 5 years serving as a dedicated Senior Hydrotest Engineer.
Extensive knowledge of high-pressure safety procedures, relief valve sizing, and digital data logging instrumentation.
Proven leadership capability, with experience managing large teams of field engineers and technicians in remote environments.
4. Above Ground (AG) Piping Hydrotest Supervisor
Core Focus: Field Execution, Crew Leadership, Safety Enforcement, Toolbox Talks.
Work Environment: 100% frontline field presence.
Detailed Job Description
If the senior engineer is the brain of the hydrotest operation, the AG Piping Hydrotest Supervisor is the hands and eyes on the ground. This role requires a rugged, highly experienced field leader who translates engineering procedures into safe, physical execution. You will directly manage crews of pipefitters, riggers, pump operators, and bolt-torquing technicians. Your primary directive is to ensure that temporary test manifolds, blinds, gaskets, and high-pressure hoses are installed perfectly, and that exclusion zones are strictly enforced during active pressurized testing.
[Hydrotest Safety Loop]
Key Responsibilities
Conduct mandatory daily pre-shift toolbox talks, explicitly highlighting pressure hazards, line walkdown safety, and emergency energy release protocols.
Oversee the physical installation of heavy blinds, temporary bypasses, filling lines, and calibrated pressure recorders.
Direct the filling operations, ensuring proper venting of air pockets to prevent dangerous compressed air pockets within the hydrotest loop.
Visually inspect every joint, flange, and structural weld during the official hold periods to spot any microscopic sweating or structural weeping.
Manage post-test dewatering, line blowing (air drying), and the meticulous re-instatement of permanent inline components, valves, and production gaskets.
Required Skills & Qualifications
Technical Diploma or certified apprenticeship in Pipefitting/Mechanical Technology, or equivalent field experience.
8+ years of field execution experience, with a solid track record as a frontline supervisor on heavy industrial projects.
Certified expertise in high-pressure bolting and torquing standards, flange management, and rigging safety.
Strong physical stamina and the mental resilience required to maintain safety compliance in demanding offshore or remote onshore conditions.
5. Billing Engineer
Core Focus: Commercial Management, Progress Measurement, Claims Certification, Invoicing.
Work Environment: Project Control Office with routine field validation audits.
Detailed Job Description
The Billing Engineer is the financial watchdog of the project construction cycle. This position requires an engineering professional with a sharp commercial mind who translates physical steel, completed welds, and verified hydrotests into certified monthly progress invoices. You will work closely with both the construction team and the quantity surveyors to audit daily progress logs, verify quantities against the Bill of Quantities (BOQ), and justify revenue metrics to the client's commercial division. Your accurate reporting directly secures the cash flow of the entire operation.
Key Responsibilities
Quantify and certify all physical construction progress (e.g., linear meters of piping erected, total inch-diameter of welds completed, metric tons of structural steel placed).
Prepare detailed Joint Measurement Sheets (JMS) and secure matching formal approvals from the client’s site quantity surveyors.
Compile and draft comprehensive monthly progress invoices, tracking cumulative variations and extra-work claims.
Audit subcontractor progress bills, verifying that their field claims perfectly match actual, physically completed milestones.
Maintain a highly organized, auditable database of all commercial sign-offs, material delivery notes, and verified work certificates.
Required Skills & Qualifications
Degree in Civil, Mechanical, or Production Engineering, or a Quantity Surveying qualification with strong mechanical project exposure.
5+ years of dedicated experience acting as a Billing or Progress Measurement Engineer for major heavy industrial or energy infrastructure projects.
Expert proficiency in processing industrial contracts (FIDIC, modified lump-sum, or unit-rate structures).
Mastery of professional estimation software, advanced commercial spreadsheets, and ERP financial engines (such as SAP or Oracle).
6. QA/QC Test Pack Engineer (AG/UG – Above Ground / Under Ground)
Core Focus: Quality Assurance Governance, Traceability Auditing, Code Compliance Verification.
Work Environment: Quality control office, laboratory, and field fabrication sites.
Detailed Job Description
Quality is paramount when dealing with hazardous hydrocarbon process systems. The QA/QC Test Pack Engineer for both Above Ground (AG) and Under Ground (UG) systems serves as the ultimate quality gatekeeper. This role demands an absolute focus on material traceability, welding chemistry, and non-destructive testing verification. You will audit every single element that makes up a piping system, ensuring that every heat number on a pipe matches its mill test certificate, every weld matches a certified welder's ID, and all NDT records are flawless before authorizing final hydrotests.
Key Responsibilities
Audit and clear all components within a test pack for absolute material traceability, verifying mill test certificates (MTC) and heat numbers.
Review all non-destructive testing (NDT) documentation, including radiography (RT), ultrasonic testing (UT), magnetic particle testing (MT), and dye penetrant testing (PT) reports.
Ensure that all underground (UG) piping specific requirements, such as holiday testing (coating integrity checks) and wrapping certifications, are fully documented.
Author and sign off on formal Quality Release Notes, confirming that a given loop is fully compliant with all client specifications and international statutory codes.
Monitor the calibration status of all field inspection tools, including pressure gauges, chart recorders, and NDT equipment.
Required Skills & Qualifications
B.Sc. in Engineering or Metallurgy, paired with internationally recognized quality credentials (such as AWS-QC1, CSWIP 3.1, or ASNT Level II in NDT methods).
7+ years of experience in oil and gas quality control, focusing specifically on comprehensive test package auditing.
In-depth understanding of NDT data interpretation, welding metallurgy, and corrosive soil environments characteristic of underground piping installations.
Impeccable document control and structural organizational skills.
7. QA/QC Engineer – Under Ground (UG) Specialist
Core Focus: Soil Mechanics, External Corrosion Mitigation, Cathodic Protection Integration, Civils Interfacing.
Work Environment: External field trenches, pipeline right-of-ways (ROW).
Detailed Job Description
Underground piping systems face completely different environmental threats compared to their above-ground counterparts. Soil stress, moisture ingress, microbial corrosion, and shifting earth loads require highly specialized quality management. The QA/QC Engineer for Under Ground (UG) piping oversees all quality aspects of trenching, bedding, pipe laying, joint wrapping, holiday detection, backfilling, and cathodic protection. You ensure that the pipe's external protective barrier remains 100% uncompromised, guaranteeing an operational lifespan spanning decades.
[Underground Piping Quality Sequence]
Key Responsibilities
Supervise and inspect trench excavation, ensuring proper bottom bedding materials are placed to prevent rock puncture damage to the pipe coating.
Inspect the application of specialized field joint coatings (heat-shrinkable sleeves, liquid epoxies, or cold-applied tapes) to ensure flawless bonding.
Lead high-voltage Holiday Detection testing across the entire surface of buried lines to find and fix any microscopic pinholes in the coating.
Monitor and document backfilling operations, verifying soil compaction layer-thicknesses and the placement of warning meshes/marker tapes.
Review and witness soil resistivity tests and the installation of sacrificial anodes or impressed current cathodic protection systems.
Required Skills & Qualifications
Mechanical, Civil, or Corrosion Engineering Degree, with specialized NACE (AMPP) CIP Level 1 or 2 coating certifications highly preferred.
6+ years of specialized experience executing quality management on buried cross-country trunklines, plant water networks, or underground utility headers.
Strong familiarity with API 5L, ASME B31.4/B31.8, and relevant NACE standards for corrosion control.
Proven ability to coordinate efficiently across mechanical piping crews and heavy civil earthmoving teams.
8. QA/QC Engineer (Rotary / Static Equipment)
Core Focus: Rotating Machinery Alignment, Pressure Vessel Inspection, Precision Tolerances.
Work Environment: Heavy equipment foundations, mechanical maintenance workshops.
Detailed Job Description
This role moves beyond piping to focus on the heavy mechanical heart of industrial plants. The QA/QC Engineer for Rotary and Static Equipment ensures the flawless installation, alignment, and internal inspection of complex machinery. Static equipment includes massive pressure vessels, columns, towers, heat exchangers, and storage tanks. Rotary equipment includes critical machinery like high-capacity centrifugal pumps, compressors, gas turbines, and mixers. You will verify internal clearances, check laser shafts for precise alignment, and review hydrotest/pneumatic data for heavy process equipment.
Key Responsibilities
Witness and document internal cleanliness inspections, tray installations, and nozzle configurations inside towers, reactors, and pressure vessels.
Monitor and certify the precise alignment of rotating equipment shafts using advanced dial indicators or specialized laser alignment tools.
Inspect equipment leveling, grout placement under heavy machine skids, and the torque values applied to critical foundation anchor bolts.
Audit vendor data packages, manufacturing data reports (MDR), and check for any transit damage to delicate precision internal components.
Review piping connection tie-ins to rotating machinery, ensuring zero pipe-strain is transferred onto pump or compressor casings.
Required Skills & Qualifications
Degree in Mechanical Engineering, accompanied by API 510 (Pressure Vessel Inspector) or API 653 (Tank Inspection) certifications.
8+ years of heavy mechanical construction experience, specializing in mechanical equipment QA/QC governance.
Comprehensive knowledge of API standards (API 610, API 617, API 650) and ASME Section VIII divisions.
High proficiency in interpreting mechanical cross-sectional drawings, shaft runout logs, and vibration analysis base data.
9. Piping Engineer (Generalist / Construction Execution)
Core Focus: Material Take-offs, General Stress Evaluation, General Piping Support Design.
Work Environment: Fast-paced site execution office and field production zones.
Detailed Job Description
The Piping Engineer serves as the core technical resource for the entire pipeline construction crew. You convert raw engineering data from corporate design centers into practical, actionable field construction guidance. This involves resolving complex routing clashes in the field, designing custom structural supports for heavy lines, executing precise material take-offs (MTOs) to prevent material shortages, and providing immediate technical support to construction superintendents. You ensure that the physical installation matches both the design intent and the economic constraints of the project.
Key Responsibilities
Resolve day-to-day physical layout clashes between piping networks, electrical cable trays, and structural steel frames by drafting tailored field modifications.
Design, check, and authorize field-fabricated secondary piping supports, structural pipe shoes, and variable spring hanger settings.
Perform comprehensive material take-offs (MTO), tracking material delivery dates to prevent localized disruptions in field construction momentum.
Review and interpret stress analysis reports, ensuring that cold-springing or thermal expansion allowances are accurately executed in the field.
Technical oversight of critical pipe-bending, hot-tapping, and complex modification tie-ins on existing live production headers.
Required Skills & Qualifications
Bachelor’s Degree in Mechanical Engineering.
5+ years of well-rounded experience working as a field-facing Piping Engineer on energy or chemical process plants.
Proficiency with standard engineering design software (such as AutoCAD, CAESAR II for stress awareness, or Navisworks/SmartPlant Review for 3D model navigation).
Clear, concise technical writing skills and an analytical approach to solving complex spatial engineering problems.
10. Welding Foreman
Core Focus: Welder Performance, Weld Defect Minimization, Production Speed, Consumable Management.
Work Environment: 100% field presence at the welding booths, pipe racks, and tie-in locations.
Detailed Job Description
Welding is the structural backbone of any piping project. The Welding Foreman is a direct frontline leader responsible for a team of qualified welders, tackers, and grinding technicians. Your job is to maximize daily weld production (measured in high-quality inch-dia welds) while keeping repair rates close to zero. You ensure that welders use the exact specified welding rods or wires, maintain correct pre-heat temperatures, and follow the qualified Welding Procedure Specification (WPS) down to the letter.
[Weld Quality Control Loop]
Key Responsibilities
Supervise daily welding operations, matching individual welder skill profiles to specific alloy lines or difficult overhead positions.
Enforce strict compliance with approved Welding Procedure Specifications (WPS), monitoring parameters like amperage, voltage, travel speed, and gas flow rates.
Inspect pipe fit-ups, root gaps, bevel angles, and misalignment tolerances before giving the green light to strike an arc.
Manage welding consumables, ensuring low-hydrogen electrodes are kept in holding ovens at the correct temperatures to prevent moisture contamination.
Track individual welder performance metrics, proactively identifying and coaching personnel whose volumetric repair rates trend upward.
Required Skills & Qualifications
High School Diploma, Technical Apprenticeship, or formal Welding Certification (such as AWS Certified Welding Inspector or equivalent practical credentials).
10+ years of heavy industrial welding experience, with at least 4 years acting in a supervisory or foreman role.
Exceptional practical skill in multi-process welding applications, including GTAW (TIG), SMAW (Stick), and GMAW/FCAW (MIG/Flux-Core) across carbon, stainless, and duplex steels.
Deep understanding of weld defect root causes (e.g., porosity, lack of fusion, undercut) and immediate field remediation methods.
11. Store Manager
Core Focus: Materials Security, Inventory Accuracy, Warehouse Logistics, High-Value Asset Custody.
Work Environment: Industrial Warehouses, Open-air pipe laydown yards.
Detailed Job Description
An industrial project cannot move forward if parts are lost, damaged, or unaccounted for. The Store Manager has total administrative and security custody over millions of dollars in project assets—ranging from exotic duplex valves and high-yield fittings to specialized tools and high-cost instrumentation. You will organize massive warehouse spaces, implement robust inventory tracking protocols, oversee incoming material inspections, and ensure that material issuance happens rapidly without compromising financial tracking systems.
Key Responsibilities
Lead and organize warehouse operations, layout optimization, material classification, and safety zoning.
Implement rigorous Material Receiving Inspections (MRI), checking physical deliveries against packing lists, commercial invoices, and purchase orders.
Maintain near-perfect inventory accuracy within the enterprise tracking software, using barcode or RFID inventory tools.
Coordinate the safe storage of delicate items requiring climate-controlled spaces, such as gaskets, instrumentation, and specialized electronics.
Set up material issuance protocols, ensuring no items leave the warehouse footprint without matching authorized material requisition slips.
Required Skills & Qualifications
Degree or Professional Diploma in Supply Chain Management, Logistics, Business Administration, or an Engineering field.
8+ years of experience managing high-volume industrial warehouses on mega-scale oil, gas, or mining projects.
Expert mastery of enterprise resource planning materials modules (specifically SAP MM, Maximo, or Oracle Inventory Management).
Exceptional leadership skills needed to manage large teams of warehouse clerks, forklift operators, and material handlers.
12. Material Supervisor
Core Focus: Laydown Yard Operations, Rigging Safety, Material Flow Logistics, Shortage Prediction.
Work Environment: Open-air material storage yards, transit vehicles, fabrication borders.
Detailed Job Description
Working hand-in-hand with the Store Manager, the Material Supervisor oversees the heavy logistics and physical movement of materials across laydown yards, cutting stations, and active construction zones. This position focuses on the logistics of heavy bulk materials, such as massive structural steel beams, large-diameter pipe spools, and heavy crated equipment. You ensure these materials are stored safely to prevent environmental degradation, tagged clearly for rapid identification, and rigged and transported safely across the construction site.
Key Responsibilities
Manage massive open-air pipe yards and structural steel laydown zones, ensuring clear organization by size, wall thickness, and material grade.
Oversee heavy rigging, loading, and unloading operations for all incoming delivery fleets and outgoing site transport flatbeds.
Conduct routine field stock audits, cross-referencing physical counts with the store database to catch and flag any material shortages early.
Implement preservation routines for stored piping components, including checking end-caps, monitoring rust-preventative coatings, and ensuring pipes stay elevated off bare soil.
Interface daily with construction coordinators to schedule the on-time delivery of required raw materials and fabricated spools directly to their installation points.
Required Skills & Qualifications
Diploma in Logistics, Materials Management, or a structural engineering discipline.
6+ years of logistics experience centered on open-air heavy materials yard management for massive energy developments.
Certified expertise in heavy lifting operations, rigging safety standards, and crane cargo signaling methods.
High proficiency in using rugged, field-deployed asset tracking hardware and mobile inventory tracking applications.
Technical Comparison of Core Engineering and Quality Roles
To clarify how responsibilities are distributed across these critical piping and quality roles, review this structured technical matrix:
| Position Title | Primary Technical Directive | Core Code / Compliance Framework | Key Operational Interface |
| AG Piping Engineer (Test Pack) | System boundary definition & engineering package compilation | ASME B31.3 / P&IDs / Isometrics | Design Office & QA/QC Auditors |
| AG Piping Senior Engineer | High-pressure design, safety calculations, & execution authorization | ASME B31.3 / ASME Sec VIII | Client Representatives & Field Supervisors |
| QA/QC Test Pack Engineer | Integrity review & component chemical/welding traceability validation | ISO 9001 / AWS / ASNT Data | Construction Teams & Independent Auditors |
| QA/QC UG Specialist | Geotechnical protection, wrapping, & external corrosion mitigation | NACE / AMPP / API 5L / ASME B31.4 | Trenching Crews & Cathodic Technicians |
| Welding Foreman | Arc time optimization, WPS compliance, & defect rate elimination | AWS D1.1 / ASME Section IX | Qualified Welders & NDT Inspectors |
Safety and Operational Realities in Nigeria's Energy Infrastructure
Joining an onshore or offshore project infrastructure in Nigeria means working in an environment that prioritizes safety above all else. Because these projects manage high pressures and volatile hydrocarbons, adherence to a Zero-Harm Culture is mandatory for every single employee.
1. Offshore Working Protocols (FPSO and Fixed Platforms)
Positions deployed to offshore environments require passing specific survival and medical tests before stepping foot on a transport helicopter or sea vessel. Professionals must hold a valid BOSIET (Basic Offshore Safety Induction and Emergency Training) certificate, including HUET (Helicopter Underwater Escape Training) components.
Offshore rotators must adapt to confined living spaces, precise shift schedules, and strict environmental regulations governing zero-discharge protocols into marine ecosystems.
2. Onshore Pipeline Right-of-Way (ROW) Safety
Onshore piping execution frequently cuts across dense jungle terrain, swamp networks, and community borders. This environment demands strict adherence to rigorous permit-to-work (PTW) protocols, gas testing routines in deep trenches, and close coordination with specialized logistics teams.
Managing environmental factors—such as tropical rainfall cycles and soil instability—is an integral part of an engineer's or supervisor's daily planning routine.
3. Structural Flange Management and Leak Testing
A significant portion of the positions listed above focus entirely on preventing leaks during initialization phases. Flange management involves tracking every bolt-tightening sequence using hydraulic torque wrenches or tensioning equipment.
Following standards like ASME PCC-1 ensures that when pressure builds within these massive systems, structural failure is engineered entirely out of the equation.
Step-by-Step Application Instructions
Due to the urgent nature of this recruitment campaign, the selection panel is processing applications immediately. To give your profile the best chance of success, follow these application steps carefully.
Step 1: Optimize Your CV Format
Tailor your CV to clearly reflect the specific title of the position you are applying for.
Explicitly highlight your experience with the industry codes and software tools mentioned in the job descriptions (e.g., ASME B31.3, P&IDs, SAP, NACE, laser alignment).
Quantify your past career achievements (e.g., "Successfully compiled over 400 piping test packs with zero critical punch-list delays," "Managed 30+ multi-process welders keeping repair rates below 1.5%").
Step 2: Assemble Your Supporting Documentation
Gather legible, high-resolution scans of all relevant professional credentials, which may include:
Degree Certificates / Technical Diplomas.
Professional registrations or licenses.
Specialized quality or technical certifications (AWS, CSWIP, ASNT, NACE, PMP, P6 certificates).
Valid safety cards, offshore medical approvals, and BOSIET credentials (if applicable).
Reference letters or past employment verification certificates.
Step 3: Draft Your Application Email
Target Recipient Email Address:
aryaaint@gmail.comClear Subject Line Format: Use a direct, professional format so the HR routing system registers your application instantly.
Example:
Application for AG-Piping Senior Engineer - Hydrotest – [Your Full Name]Example:
Application for QA/QC Engineer (Rotary/Static) – [Your Full Name]
Step 4: Final Email Review and Dispatch
Ensure your updated CV and supporting document files are cleanly attached (ideally in consolidated PDF format). Write a brief, professional cover note in the email body summarizing your total years of experience, current location, and availability for mobilization. Send your complete package directly to the official recruitment email.
Key Industry Terms
P&ID (Piping and Instrumentation Diagram): A detailed schematic showing the interconnected piping, vessels, and control instruments within a process plant.
ASME B31.3: The international standard code governing design, material, fabrication, and testing protocols for industrial process piping.
Holiday Testing: A high-voltage non-destructive testing method used to detect microscopic discontinuities, pinholes, or gaps in a pipe's protective coating.
MTC (Mill Test Certificate): A quality document issued by steel manufacturers certifying a material's exact chemical composition and physical properties for traceability.
Punch-List: A comprehensive checklist of uncompleted tasks or structural non-conformances that construction teams must resolve before final system handover.
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