Job Description: The Site Planning Engineer is responsible for monitoring and controlling project schedules at the execution site. The role involves developing and updating detailed construction and commissioning schedules, tracking progress, analysing variances, and coordinating with project teams to ensure timely and cost-effective project delivery. Roles and Responsibilities: Develop, maintain, and update detailed project schedules (Level 3/4) for site execution phases. Monitor daily, weekly, and monthly progress of construction and commissioning activities. Measure physical progress based on earned value (EVMS) or planned vs. actual methodology. Analyze deviations and forecast schedule slippage or delays with recommended mitigation plans. Coordinate with site construction, engineering, procurement, and commissioning teams. Interface with subcontractors for schedule updates and alignment of workfronts. Participate in daily planning meetings and interface coordination meetings. Maintain control of the approved baseline schedule and monitor any schedule impacts. Track scope changes, site instructions, and their schedule implications. Support preparation of time-impact analyses (TIA) and extension-of-time (EOT) claims. Maintain S-curves, histograms, and productivity KPIs. Verify and report manpower, equipment, and material resources against planned values. Must Have Skills: E. / B.Tech in engineering discipline 12+yrs in project planning roles, preferably site-based in oil & gas EPC or PMC projects Primavera P6, MS Project, MS Excel, Strong understanding of construction workflows, project lifecycles Familiarity with S-curves, critical path method (CPM), resource loading Ability to work in fast-paced, high-risk environments like refineries, terminals, offshore, or cross-country pipelines. Time management, analytical thinking, communication, collaboration with multidisciplinary teams. Expected Outcome: Reliable, up-to-date project schedules reflecting actual field progress Timely alerts on potential delays and bottlenecks with mitigation proposals Accurate and actionable progress reports for project management Well-defined and regularly updated critical paths for execution priorities Aligned work sequences between disciplines and contractors Integration of cost and schedule data for earned value tracking (if required)
Job Description: The Structural & Mechanical T&I Engineer is responsible for supporting and executing engineering and site supervision activities related to transportation, lifting, load-out, launching, and offshore installation of jackets, decks (topsides), piles, risers, and other heavy offshore structures. The engineer ensures all structural and mechanical aspects comply with project specifications, safety standards, marine regulations, and execution plans. Roles & Responsibilities: Review and validate detailed engineering documents related to lifting, load-out, sea fastening, rigging, and installation methodology. Interface with structural designers, marine warranty surveyors (MWS), and naval architects to finalize engineering calculations. Support installation method statements and risk assessments (RAMS, HIRA). Provide engineering support for barge transportation, lifting (crane or float-over), upending, and pile driving operations. Review T&I drawings, rigging plans, grillage and sea-fastening designs, and installation sequences. Monitor offshore campaigns during jacket launch, pile driving, or topside lift/float-over. Act as an offshore field engineer or client representative during jacket and topside installation. Coordinate with vessel teams, subcontractors, marine spreads (crane barges, tugs), and construction management. Ensure real-time tracking of operations and document deviations or incidents. Supervise jacket and topside load-out at fabrication yard with alignment and weighing. Witness barge ballasting, skid-shoe placements, and tie-downs for transportation. Validate rigging inspection and load test records. Enforce structural integrity and safety of lifting/towing/launching operations. Ensure all marine activities are in compliance with project HSE and QA/QC standards. Support incident investigations and root cause analysis if any anomalies occur during T&I. Must Have Skill: E. / B.Tech in Structural, Mechanical, Marine or Offshore Engineering 12+yrs of experience in offshore T&I projects, including experience with jacket launch , pile installation , and topside lifting/float-over. Understanding of API RP 2A, DNV-GL, AISC, ISO offshore codes Familiarity with marine spread (crane barge, launch barge, tugs) operations Load-out calculations, lift analysis, rigging design Use of tools like SACS , Pro , Orcaflex , MOSES , or AutoPIPE Marine Ops Knowledge | Installation sequencing, float-over methods, ballasting, barge stability Expected Outcome: Incident-free installation of jackets and topsides in line with marine and lifting safety Adherence to project specs, marine class requirements, and client/MWS approvals Timely completion of T&I operations with minimum downtime or rework Effective interface with marine, structural, and HSE teams across pre-installation to offshore phases Complete and accurate post-operation documentation, installation logs, and red-line markups
Job Description: The Engineer (Mechanical or E&I) will be responsible for supervising and executing brownfield hook-up works, system pre-commissioning, and commissioning activities. The role ensures systems are installed, tested, energized, and handed over in a safe, timely, and compliant manner. Engineers will interface closely with construction, commissioning, QA/QC, HSE, vendors, and operations teams to ensure readiness and delivery of systems. Roles & Responsibilities: Participate in system walkdowns (pre/post punch) and manage punch list clearance. Develop and execute pre-commissioning/commissioning procedures and test plans. Liaise with commissioning leads to ensure timely execution and handover. Interface with vendors for SATs (Site Acceptance Tests), calibration, and start-up support. Coordinate with operations for safe system energization (hot works, permits, isolation). Supervise piping, static & rotating equipment hook-up, flange management, and torqueing. Ensure lube oil flushing, air blowing, chemical cleaning, and hydro-testing as per procedures. Oversee alignment, equipment preservation, leak tests, and vibration checks. Coordinate installation and pre-commissioning of pumps, compressors, valves, etc. Supervise termination, loop checking, cable routing, earthing, and gland/connections. Conduct MEG tests, insulation resistance testing, continuity, and loop folder validation. Support functional testing of instruments, DCS/PLC interfaces, F&G, and ESD systems. Manage energization of LV/MV switchgear, MCCs, UPS, transformers, and lighting systems. Must Have Skills: E. / B.Tech in Mechanical / Electrical or Instrumentation Engineering 10+yrs of experience in brownfield/offshore hook-up & offshore/onshore E&I systems, commissioning Equipment testing, flushing, alignment, leak tests, pre-comms checklists/ Loop checking, cable meggering, functional testing, DCS I/O P&IDs, isometrics, torque tools, flange management tools/ Loop folders, SmartPlant Instrumentation, ICSS/DCS BOSIET/FOET, H2S, Permit-to-Work systems/ CompEx, BOSIET, Offshore Electrical Safety Coordination, documentation, multi-discipline communication/ Attention to detail, procedural adherence, team leadership Expected Outcome: Mechanical and E&I systems installed, tested, and ready for commissioning Mechanical completion and punch list cleared for commissioning transition Successful and safe energization of electrical systems & rotating equipment Handover of systems to client/operations on schedule with full documentation Adherence to project specs, safety regulations, QA/QC standards Effective engagement with vendors, construction, and commissioning teams
Job Description: The Site Project Engineer is responsible for supporting the execution phase of oil & gas projects at the site. This includes planning, coordinating, and monitoring site activities to ensure project objectives (cost, schedule, safety, and quality) are met. The role acts as a bridge between engineering, procurement, construction, and commissioning teams, ensuring the work is completed as per project specifications and standards. Roles & Responsibilities: Experience in project execution in the oil & gas sector (preferably PMC background),Strong technical knowledge of civil, mechanical, or E&I construction. Experience in oil & gas infrastructure like pipelines, process units, tank farm facilities. Coordinate between site construction teams, subcontractors, and discipline engineers Familiarity with construction methodologies, standards, and regulatory requirements. Proficient in MS Project, Primavera P6, AutoCAD, and reporting tools. Coordinate between site construction teams, subcontractors, and discipline engineers. Knowledge of contractual terms and documentation . Identify risks, bottlenecks, or delays and escalate for resolution. Communicate effectively with clients, third-party inspectors, vendors, and construction teams. Coordinate with QA/QC, HSE, and commissioning teams for smooth work transitions. Ensure that all site instructions and NCRs are properly documented and closed. Ensure compliance with safety procedures, PTW (Permit to Work) systems, and toolbox talks. Participate in risk assessments and constructability reviews. Support safe execution of work in line with HSE policies. Assist commissioning team with system handover, punch list clearing, and documentation. Must Have Skills: E. / B.Tech in Mechanical, Electrical, Civil, Instrumentation, or related engineering discipline 12+yrs of experience in site-based project engineering in oil & gas, petrochemicals, or energy projects Knowledge of EPC workflows, construction, installation, and system handover Understanding of P&IDs, isometrics, GADs, equipment layout Basic understanding of all disciplines (piping, structural, E&I) Familiar with QA/QC and HSE procedures Certifications (preferred) | PMP, Construction Safety, or Offshore Training (e.g., BOSIET) Expected Outcome: Ensure construction/installation activities progress as per schedule Quick response and resolution of site technical queries to avoid delays Well-coordinated multidisciplinary activities with minimal rework Reliable progress updates, documentation, and punch list status Zero LTI (Lost Time Incidents) and compliance with site HSE standards Complete systems ready for pre-commissioning/commissioning with minimal open items
Job Description: The HSE Site Engineer is responsible for the implementation and monitoring of HSE procedures and safety systems at the site level. The role ensures that all field activities comply with safety regulations, standards, and project-specific HSE requirements, aiming to prevent incidents and promote a culture of safety at the worksite. Roles & Responsibilities: Enforce compliance with company and client HSE policies, procedures, and permit-to-work systems. Conduct pre-job safety briefings and toolbox talks. Supervise implementation of site-specific HSE plans and Job Safety Analysis (JSA) for all tasks. Verify that workers follow safety rules and use appropriate PPE. Monitor day-to-day construction or maintenance activities for unsafe acts or conditions. Ability to work with cross-functional teams under high-risk conditions Ensure control measures are in place for hazardous tasks: hot work, confined space, working at height, lifting operations, etc. Review and approve permits for high-risk activities (hot work, excavation, confined space, etc.). Ensure PTW systems are understood and followed by all workers and subcontractors. Report and investigate accidents, near-misses, and unsafe conditions. Track and verify closure of corrective and preventive actions (CAPA). Conduct emergency drills (fire, evacuation, oil spills). Coordinate with site emergency response teams and Ensure readiness of firefighting and lifesaving equipment. Conduct HSE induction training for new personnel and subcontractors. Must Have Skills: Degree or Diploma in Engineering, Safety, or Environmental Science. 12+yrs of experience in oil & gas construction or production sites. In-depth knowledge of HSE management systems, safety in construction, and oil & gas field hazards. Familiarity with OSHA, ISO 45001, ISO 14001, NEBOSH/IOSH, local safety regulations Experience with PTW systems, LOTO (Lockout/Tagout), confined space entry, etc. Incident reporting systems, hazard registers, MS Office, site inspection checklists Leadership, assertiveness, communication, conflict resolution, and proactive mindset Expected Outcome: Zero harm to people, assets, and environment during site activities 100% adherence to project and legal HSE requirements Decrease in TRIR, near misses, and recordable incidents through active monitoring Empowered workforce with high safety awareness and behavior Successful HSE audits with minimal non-conformities or findings Accurate and timely incident reports, inspections, and safety statistics
Job Description: The Electrical Designer/Modeler is responsible for developing and producing electrical design and 3D models of power and control systems in oil & gas facilities. This includes lighting, cable trays, earthing, power distribution, and instrument interfaces. The role involves close collaboration with electrical engineers and other disciplines to ensure constructible and clash-free electrical layouts in accordance with project requirements. Roles & Responsibilities: Create and update 2D drawings and 3D models of electrical systems like Cable tray routing, Lighting layouts, Grounding and lightning protection, Equipment location plans Develop general arrangement (GA) drawings, electrical room layouts, and interconnection diagrams. Prepare drawings for substation layouts, MCC rooms, JB schedules, and duct banks. Model electrical components using tools like SP3D , E3D , AutoCAD Plant 3D , or Revit MEP . Coordinate 3D models with piping, structural, mechanical, and instrumentation disciplines. Follow electrical equipment layout guidelines to ensure accessibility, maintainability, and safety clearances. Generate and update Cable tray layouts, Lighting & small power layouts, Earthing layouts, Equipment layout plans. Incorporate redlines and mark-ups from engineers, checkers, and site feedback. Prepare electrical MTOs (material take-offs) from models. Must Have Skills: Diploma in Electrical Engineering or Industrial Drafting. 7-12yrs of experience within the oil & gas or petrochemical industry. AutoCAD, MicroStation, SmartSketch SP3D, E3D, AutoCAD Plant 3D, SmartPlant Electrical (SPEL), Navisworks Equipment layouts, cable tray routing, lighting design, earthing concepts Ability to interface with other disciplines to avoid clashes and resolve routing issues Experience preparing detailed layout drawings, BOMs, and as-built drawings Expected Outcome: Accurate, detailed, and standards-compliant electrical drawings ready for construction and procurement Coordinated and interference-free 3D models aligned with piping, structural, and HVAC layouts Practical and safe electrical layouts ensuring maintainability, cable management, and space efficiency Timely completion of design packages and drawing submissions aligned with project schedules Reduction in rework and site conflicts due to thorough upfront coordination and constructible design
Job Description: The Instrumentation Designer/Modeler is responsible for producing detailed 2D and 3D layouts of instrumentation systems, ensuring all design outputs support proper installation, accessibility, maintainability, and compliance with industry standards. The role includes modeling of instruments, junction boxes, tubing systems, impulse lines, and instrument supports in close coordination with other disciplines. Roles & Responsibilities: Prepare and update 2D and 3D models of Instrument layouts, Junction box and marshalling cabinet layouts, Tubing and impulse line routing, Cable tray routing for instrument cables, Control room and local panel arrangements. Ensure proper instrument location with respect to accessibility, safety, and process requirements Generate and maintain accurate instrument index, location plans, and hook-up drawings Create and update Loop diagrams and wiring diagrams, Instrument hook-up drawings (process and pneumatic), Material take-offs (MTOs) for instrument bulk materials (tubing, fittings, trays, etc.) Model instruments and junction boxes in 3D platforms such as SP3D , E3D , or AutoCAD Plant 3D. Use tools like Navisworks , SmartPlant Review , or Intergraph tools for navigation and review. Must Have Skills: Diploma or ITI in Instrumentation Engineering / Industrial Drafting. 7-10yrs of experience within the oil & gas or petrochemical industry. AutoCAD, MicroStation, SmartSketch SP3D, E3D, AutoCAD Plant 3D, SmartPlant Instrumentation (SPI / Intools) Understanding of field instruments (transmitters, switches, analyzers, control valves), junction boxes, and DCS/PLC systems. Knowledge of tubing, fittings, manifolds, impulse line routing, and instrument installation details. Awareness of IEC, ISA, API, and client specifications (e.g., Shell DEPs, Aramco, ADNOC standards). Experience in interdisciplinary model coordination and drawing checking for quality and completeness. Expected Outcome: Instrumentation layouts and hook-ups that are safe, maintainable, and clash-free On-time completion of layouts, wiring diagrams, loop drawings, and 3D models as per project schedule. Accurate and clash-resolved instrument models within the overall plant design. Consistent, error-free drawings that reduce field modifications and installation issues Supports constructible and cost-effective installation of instrumentation systems
Job Description: The Senior Electrical Engineer is responsible for leading and executing electrical engineering activities across all phases of oil and gas projects from FEED and detailed design to construction, commissioning, and operation. The role focuses on ensuring that all electrical systems and components are designed, installed, and maintained in compliance with safety, operational, and regulatory standards, both onshore and offshore. Roles & Responsibilities: Design & Engineering: Lead electrical engineering tasks for offshore platforms, FPSOs, subsea systems, and onshore facilities such as processing plants, terminals, and substations. Prepare, review, and approve engineering deliverables including: Single-line diagrams (SLDs) Load lists and schedules Cable routing/layouts Lighting, grounding, and earthing systems Power system studies (load flow, short circuit, motor starting, arc flash) Specify electrical equipment such as transformers, switchgear, MCCs, UPS, motors, VFDs, and generators. Ensure compliance with applicable codes and standards (IEC, NEC, IEEE, API, ATEX,NEMA, ISO). Participate in all project phases (FEED, EPC, commissioning, startup). Review and approve vendor drawings, datasheets, and technical documentation. Perform and/or witness FAT (Factory Acceptance Tests), SAT (Site Acceptance Tests), and commissioning activities. Coordinate with cross-functional teams (mechanical, instrumentation, process) for integrated project delivery. Must-Have Skills: Bachelor s or master s degree in electrical engineering. 10+ yrs of experience in electrical engineering within the oil & gas or petrochemical industry. Strong knowledge of electrical systems used in hazardous areas (Ex systems), power generation/distribution, and substation design. Experience with both greenfield and brownfield projects. Proficient in design and analysis tools (ETAP, SKM, AutoCAD, Navisworks, etc.). Familiar with industry codes and standards (IEC, IEEE, NEC, API, etc.). Experience with international EPC contractors or oil companies is a plus. Excellent communication and team leadership skills. Expected Outcomes: Timely delivery of high-quality electrical engineering deliverables. Successful and safe implementation of electrical systems on site. Full compliance with project specifications and international standards. Reduced risk of electrical incidents and improved operational reliability. Effective mentoring of junior engineers and strengthening of the electrical engineering function.