What Does An Integrity Engineer Do?

WHAT DOES AN INTEGRITY ENGINEER DO?

Published: Oct 06, 2025 - The Integrity Engineer ensures the structural and operational reliability of assets by developing, implementing, and maintaining integrity management systems. This position involves conducting inspections, risk assessments, and data analysis to identify potential failures and recommend corrective actions that maintain safety and compliance standards. The Engineer also collaborates with multidisciplinary teams to optimize maintenance strategies, enhance asset lifespan, and support continuous improvement initiatives across projects.

A Review of Professional Skills and Functions for Integrity Engineer

1. Integrity Engineer Roles and Details

Technical Support: Provide technical support and expert advice to clients across multiple projects.
Risk Management: Develop risk-based inspection strategies tailored to client needs and industry requirements.
Site Inspection: Conduct site visits to perform plant inspections and gather condition data.
Data Analysis: Assess inspection results and make informed run, repair, or replace recommendations.
Proposal Development: Prepare proposals and tender documents to support business opportunities.
Report Writing: Produce formal technical reports and project deliverables on time and within budget.
Client Relations: Manage and strengthen long-term relationships with clients through effective communication.
Business Development: Identify and develop new business opportunities to expand service offerings.
Regulatory Compliance: Stay current with industry standards, legislation, and best practices to ensure compliance.
Technical Expertise: Apply advanced methods, data analysis, and specialized software tools in inspection activities.
Process Improvement: Contribute to continuous improvement by integrating lessons learned into client projects.

2. Power Integrity Engineer Key Accountabilities

Lab Measurements: Perform lab measurements of PDN in frequency and time domains.
Parameter Extraction: Extract PDN parameters using standard industry tools.
System Design: Design, simulate, analyze, and debug PDN systems.
Methodology Development: Participate in the development of PDN methodology.
Power Integrity: Conduct power integrity analysis for high-speed application processor cores.
Architecture Feedback: Provide feedback for the low-power chip and system architecture.
Technical Documentation: Write technical documentation.
Network Design: Design power delivery networks for die, package, and board-level DDR interfaces.
Pattern Definition: Define bump and ball patterns, on-die power grids, and decoupling capacitance.
SPICE Analysis: Perform SPICE analysis for power and signal integrity.
Team Collaboration: Collaborate with system designers, design verification, and physical design teams to define, implement, and verify PHY power delivery.

3. Structural Integrity Engineer General Responsibilities

Anomaly Assessment: Review inspection anomalies and conduct mitigation and risk assessments for topside and hull structures.
Technical Input: Provide technical input to formal risk assessments.
Risk Planning: Perform Risk-Based Assessment (RBA) and Risk-Based Inspection (RBI) planning.
Contractor Coordination: Liaise with engineering and construction contractors as well as inspection contractors to coordinate activities.
Technical Review: Review, analyze, and endorse technical submissions from third-party and modification contractors.
Strategy Development: Prepare and update inspection strategies for subsea and topside structures.
Criticality Assessment: Conduct component criticality assessments to prioritize inspection activities.
Inspection Planning: Develop detailed inspection plans and workpacks to support execution.
Offshore Survey: Carry out offshore structural surveys.
Structural Analysis: Perform structural calculations and assessments to support integrity evaluations.
Asset Support: Support floating asset topsides modules and structural stools to ensure compliance and reliability.

4. Asset Integrity Engineer Role Purpose

Strategic Leadership: Provide strategic direction, technical guidance, and process development to advance the Asset Integrity team and enhance risk management systems.
Workload Management: Manage workload distribution within the team to ensure alignment with broader business objectives.
Team Leadership: Lead a team of field technologists to consistently execute pipeline integrity programs.
Risk Mitigation: Identify integrity risks proactively and implement effective mitigation strategies.
Team Engagement: Maintain strong engagement and communication with operations and production teams to support Asset Integrity initiatives.
Performance Management: Ensure team performance targets and Key Performance Indicators (KPIs) are met or exceeded.
Cross-Functional Collaboration: Collaborate with Operations, Engineering, and Pipeline groups to optimize maintenance program execution.
Stakeholder Liaison: Liaise with regulatory authorities, vendors, engineering firms, and inspection contractors to resolve integrity-related issues.
Safety Culture: Promote a culture of safety, accountability, and continuous improvement within the team.
Strategic Planning: Contribute to long-term strategic planning to ensure reliability and regulatory compliance across all asset operations.

5. Signal Integrity Engineer Essential Functions

Team Leadership: Lead multi-disciplinary teams to support the development and integration of high-speed interconnect products operating beyond 10Gb/s.
Customer Interface: Interface directly with customers to capture product requirements and provide application support.
Design Verification: Develop and execute design verification and test plans to validate Amphenol products.
Performance Analysis: Independently analyze broadband performance of physical layer interconnects, including PCBs and connectors, using field solvers such as HFSS and CST.
Signal Integrity Expertise: Serve as a subject matter expert in signal integrity for product development and customer engagement.
Product Benchmarking: Benchmark Amphenol products against both customer expectations and industry standards.
Test Development: Design and implement test vehicles to support product validation and innovation.
Technical Leadership: Provide technical leadership to ensure solutions meet performance, reliability, and compliance requirements.
Industry Representation: Represent Amphenol at trade shows, technical forums, and customer sites.
Process Improvement: Contribute to continuous improvement initiatives and promote Amphenol’s expertise in high-speed interconnect technologies.

6. Pipeline Integrity Engineer Additional Details

Stakeholder Collaboration: Collaborate with and influence internal and external stakeholders, including government and development groups, to achieve integrated and optimized solutions.
Threat Assessment: Analyze information to assess and manage potential pipeline integrity threats and damage prevention issues.
Technical Communication: Confirm and communicate pipeline design and operational technical requirements to internal and external stakeholders.
Consultant Management: Manage and guide consultant activities representing client interests at the regional level.
Project Scoping: Define high-level work scope for potential mitigation projects and deliver work packages to the project management group for implementation.
Agreement Negotiation: Negotiate various types of agreements with third parties.
Technical Support: Provide technical support to pipeline integrity stakeholders and regional representatives.
Operational Safety: Ensure the safe and reliable operation of all the company's gas-carrying assets.
Risk Management: Focus on risk modeling and assessment, integrity data governance, and software administration for all integrity sub-programs.
Model Development: Expand the current scope of risk assessment models, make improvements to existing models, and manage and oversee integrity data collection to support new models.

7. Integrity Engineer Roles

Regulatory Compliance: Act as the competent person for the site in compliance with the Pressure Systems Safety Regulations (PSSR) 2000.
Scheme Management: Draw up or certify Written Schemes of Examination (WSEs), review WSEs at appropriate intervals for continued suitability and modification, and carry out examinations in accordance with WSEs.
Examination Oversight: Review requests for postponement of WSE examinations under PSSR requirements, ensuring they do not give rise to danger.
Inspectorate Role: Act as User-Inspectorate with respect to the Pressure Equipment Safety Regulations (S.I. 2016/1105).
Strategic Collaboration: Collaborate with other functions, technology teams, outside professional bodies, and colleagues to establish strategies and improvement goals for the department’s area of responsibility.
Cross-Functional Communication: Communicate and cooperate with mechanical maintenance and project groups across the organization to achieve shared goals.
Qualification Maintenance: Maintain non-destructive testing qualifications as directed by the Supervisor.
Safety Compliance: Adhere to all safety, health, and environmental policies, standards, and programs while complying with regulations.
Safety Promotion: Promote safe plant operations and prioritize health and environmental care.
Incident Investigation: Participate in incident investigations and risk assessments as requested by the Supervisor.
Safety Initiatives: Proactively provide safety suggestions and support safety initiatives such as Team Safety and Behavior-Based Performance (BBP).
Hazard Reporting: Report incidents, hazards, and near misses using the hazard observation system.
Quality Assurance: Ensure proper understanding and application of procedures for tool calibration and support quality programs.

8. Signal Integrity Engineer Tasks

Signal Integrity Design: Work on the design and analysis of signal integrity (SI) and electromagnetic (EM) effects in high-frequency (>1 GHz), high dynamic range (>80 dB) mixed-signal systems in a research and development environment.
System Analysis: Perform analytical studies of electronic systems and their active and passive components, including integrated circuits, chip-level packaging, interposers, printed circuit boards, connectors, and power delivery components, to support design tradeoffs.
Electromagnetic Modeling: Conduct electromagnetic modeling, driver/receiver circuit design, and related analyses such as SSN, ISI, crosstalk, EMC, and EMI.
Power Network Design: Design and analyze power delivery networks and estimate packaging parasitics.
Testing and Simulation: Develop test and simulation methods to support SI and EM design and analysis activities.
Design Strategy: Create new design strategies to meet functional requirements while achieving SI and EM performance goals.
Cross-Disciplinary Collaboration: Collaborate with domain experts in packaging design, circuit design, and thermal/mechanical analysis to support system-level solutions.
Design Review: Present work details to colleagues during design reviews.
Technical Reporting: Provide written and oral summaries of work performed for reports and documentation.

9. Integrity Engineer Details and Accountabilities

Asset Integrity Management: Identify, manage, and monitor asset integrity issues that may impact the continuing fitness for service of assets, including pipework, pressure vessels, processes, and procedures.
Inspection Coordination: Coordinate offshore inspectors to ensure efficient delivery of inspection plans for compliance with pressure systems, structural, and marine requirements.
Work Pack Management: Review and close out work packs.
Operational Integrity: Manage topside integrity activities throughout operations.
Reporting: Produce the Topside Annual Integrity Report.
RBI Management: Assist in managing the RBI system.
Deferral Input: Provide input on deferrals of inspection activities.
Technical Assessment: Perform technical assessments of anomalies identified during inspections, including API 579 Fitness for Service calculations.
Risk Assessment: Manage anomaly risk assessments and assign repair tasks.
Failure Investigation: Participate in integrity-related failure investigations and root cause analyses.
Vendor Coordination: Coordinate third-party vendors and develop scopes of work.
Integrity Planning: Create annual and five-year asset integrity plans for offshore assets.
Program Integration: Review and incorporate inspection and topside integrity programs into integrated activity and operations plans.

10. Senior Pipeline Integrity Engineer Overview

Business Development: Identify and create new opportunities for pipeline integrity advanced engineering by engaging with the global business unit and regional sales teams.
Technical Execution: Execute technical activities related to pipeline integrity projects, including fitness-for-service assessments, integrity management planning, threat identification, regulatory and code compliance, remaining life assessments, and stress analysis.
Project Management: Manage projects and deliverables while ensuring quality, timeliness, and adherence to budget.
Mentorship: Provide project oversight and mentorship to junior engineers.
Budget Contribution: Contribute input to the annual global budget.
Resource Planning: Collaborate with management to ensure adequate global resourcing of the Pipeline Integrity team and provide forecasts for growth, training, and expansion areas.
Client Relations: Build and maintain strong client relationships.
Technical Representation: Present advanced engineering capabilities at conferences, trade shows, and professional forums.
Team Development: Support team development through career progression, mentoring, and recruiting.
HSSE Compliance: Comply fully with all company HSSE requirements and lead by example in adherence to life-saving rules.

11. Integrity Engineer Job Description

Revenue Management: Deliver agreed turnover and revenue targets.
Business Development: Actively approach potential customers to develop business opportunities.
Service Definition: Define the scope of services that meet client needs and align with company capabilities and business strategy.
Risk Management: Ensure exposure to technical and commercial risks is limited.
Proposal Preparation: Assess and clarify project requirements, prepare proposals including technical and commercial aspects, and support contract negotiations to acquire projects.
Project Leadership: Lead and manage selected projects from initial contact through contract award, service delivery, and project completion.
Team Development: Collaborate with regional and worldwide resources to build and develop a team of engineers to deliver services.
Customer Feedback: Follow up with customers to obtain feedback and conduct internal lessons learned meetings.
Operational Compliance: Execute activities according to company expectations, corporate guidelines, processes, policies, and applicable laws.
Technical Expertise: Maintain a detailed technical understanding of products and services to represent the company in technical discussions during the sales process.
Cross-Functional Collaboration: Work closely with Process Professionals and Business Line Management to validate technical specifications for defined project scopes and ensure proposals meet customer expectations and company guidelines.
Continuous Improvement: Continuously improve and update functional and technical specifications of offerings.

12. Structural Integrity Engineer Functions

Regulatory Compliance: Ensure assets comply with statutory and company requirements, including Integrity Management Standards, Safety Case, Safety Management System, and relevant codes, regulations, and safety notices.
Inspection Planning: Develop and maintain detailed Topside Structural Inspection and Subsea Structural Inspection Plans using outputs from Maximo.
Documentation Management: Prepare and update structural integrity documentation to support compliance and monitoring.
Workpack Development: Develop and issue detailed inspection workpacks and workscopes for topside inspections.
Technical Guidance: Conduct pre-job briefings and provide technical guidance during inspection activities.
Report Review: Review and endorse Structural Inspection Reports, including third-party NDE reports, ensuring inspections meet strategic requirements.
Defect Assessment: Perform first-pass assessments of defects across Primary, Secondary, and Tertiary steelwork, and recommend risk mitigations and remedial actions.
Risk Evaluation: Deliver detailed risk and technical assessments of Material Corrosion and Damage Reports (MCDR), Passive Fire Protection (PFP) defects, and ad-hoc inspection results.
Structural Analysis: Conduct checks and analysis on structural steelwork.
Repair Design: Assist with or design structural repairs to maintain asset integrity.
Maintenance Strategy: Contribute to the development and execution of fabric maintenance strategies and programs.
Continuous Improvement: Promote continuous improvement by integrating lessons learned into inspection and maintenance practices.

13. Cavern Integrity Engineer Accountabilities

Project Management: Project manage mechanical integrity testing (MIT) and workovers of cavern and disposal wells, including project design, calculations, analysis, accounting, and reporting according to applicable Plains’ policies, regional regulations, and industry standards.
Vendor Coordination: Work with vendors to define job scope, obtain vendor bids, complete bid spreads, and evaluate technical qualifications for vendor selection.
Compliance Assurance: Ensure all vendors meet ISNetworld and other Plains requirements.
Safety Documentation: Prepare all health, safety, environment, and other program documents in accordance with Safe Operating Procedures (SOPs) and Plains’ governance procedures.
Stakeholder Coordination: Coordinate with other Plains stakeholders, particularly Operations, Engineering, Commercial, and Regulatory.
Data Analysis: Run various Excel-based simulations, including hydraulic simulations, MIT calculations (test pressures, nitrogen equivalent volumes, leak rate calculations), and project cost tracking and forecasting.
Reporting: Prepare comprehensive and accurate project completion reports.
Project Support: Assist with expansion project proposals where wells or caverns are involved.
Budget Development: Participate in the development of a yearly cavern integrity budget based on historic costs and market conditions.
Site Oversight: Visit sites on an infrequent basis to ensure quality execution of MITs and other well-related work.
Program Management: Participate in internal stakeholder collaboration meetings and manage the requirements of the Cavern Integrity Program.

14. Integrity Engineer Job Summary

Fitness-for-Service Assessment: Perform fitness-for-service engineering assessments for in-service pipelines on integrity threats.
Engineering Oversight: Provide engineering oversight, technical direction, and guidance to ensure alignment with industry standards, regulations, industry best practices, and company requirements.
Subject Matter Leadership: Act as a subject matter lead for the development of integrity-based standards, practices, and documentation.
Feasibility Analysis: Conduct economic, feasibility, and risk studies using practical experience and engineering principles, demonstrating originality and ingenuity when devising practical, economical, and value-added solutions to issues.
Program Management: Independently manage, update, improve, and conceive integrity program elements and identify asset risks to be investigated and projects to be developed.
Integrity Monitoring: Actively manage and provide oversight to various integrity monitoring and management programs, such as in-line inspection (ILI), over-the-line inspection, direct assessment, and facility inspection.
Risk Evaluation: Evaluate pipeline system integrity conditions and identify risk reduction and hazard control methodologies.
Defect Assessment: Perform pipeline system defect assessments and identify appropriate repair methodologies aligned with code requirements and industry best practices.
Data Management: Gather, analyze, and manage integrity program data in support of communications and performance measurement with the industry and regulators.
Data Quality Assurance: Provide integrity data QA/QC by reviewing direct assessment data on integrity digs, inspections, and repairs.
Data Analytics: Apply Machine Learning and statistical analysis to support engineering assessment assumptions and projected long-term integrity plans.
Project Management: Apply project management through successful development and implementation of justifications, cost estimates, schedules, feasibility and trade-off studies, budget control, scope management, risk identification and prioritization, resource and contract administration, and stakeholder management.
Technical Representation: Represent the company’s technical interests in written and verbal communications with internal stakeholders and external agencies, regulatory bodies, municipalities, industry partners, and other interest groups.

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