Pure Integrity FAQs

Absolutely. By feeding historical inspection data into Machine Learning (ML) models, we can identify patterns in pitting corrosion or stress corrosion cracking (SCC) that human eyes might miss. This is the core of predictive maintenance.

As plants age past their original design life, we perform LifeEx studies. We analyze historical data and current degradation to see if an asset can safely run for another 10–20 years with specific mitigation strategies.

PIMS is a dedicated framework for gathering data on pipeline health, from In-Line Inspections (ILI) using “smart pigs” to monitoring Geohazards like soil movement that could stress the pipe.

Process Safety Management (PSM) focuses on the systems and procedures to prevent hazardous releases. Asset Integrity Management (AIM) focuses on the physical equipment itself. You can’t have one without the other.

A HAZOP (Hazard and Operability) study is a systematic brainstorming session. We use “guide words” to explore deviations from the design intent, ensuring we catch potential safety hazards before they manifest in real-world operations.

If your inspection data is messy, your risk model is garbage. We ensure Data Integrity by using standardized reporting formats and validated databases, so the “Golden Thread” of information is never broken.

Safety isn’t just about metal and bolts; it’s about people. We integrate Human Factors Engineering (HFE) to ensure that control rooms, valves, and maintenance tasks are designed to minimize human error.

CUI is the silent killer of the O&G industry. We use advanced Non-Destructive Testing (NDT) techniques like Pulsed Eddy Current (PEC) and Long Range Ultrasonic Testing (LRUT) to detect moisture and wall loss without stripping the insulation.

SCC is tricky because it’s environment-specific. We use a combination of material selection, environmental control (like pH monitoring), and specialized NDT to catch it before it goes catastrophic.

A Digital Twin is a virtual mirror of your physical asset. By integrating real-time sensor data with structural models, we can run “what-if” scenarios to predict fatigue life and corrosion rates before they become critical issues.

We track both Leading Indicators (like the percentage of scheduled inspections completed) and Lagging Indicators (like Loss of Primary Containment – LOPC events). A healthy system balances both.

We conduct Safety Integrity Level (SIL) studies, including LOPA (Layer of Protection Analysis), to ensure that your Safety Instrumented Systems (SIS) are designed to provide the necessary risk reduction.

By using drones and crawlers for RVI, we eliminate the need for personnel to enter Confined Spaces or work at heights. It’s safer, faster, and provides high-definition data for our integrity reports.

Think of it as the immune system for industrial assets. It’s a multidisciplinary approach involving Process Safety Management (PSM) and Asset Integrity Management (AIM) to ensure that equipment operates without failing, leaking, or blowing up. We focus on keeping the “nasty stuff” inside the pipes.

Offshore platforms face brutal environments. We focus on Topside Structural Integrity and Subsea Inspections, monitoring for fatigue cracks and cathodic protection (CP) effectiveness to prevent structural collapse.

When we find a flaw, we don’t just scrap the equipment. We perform an FFS assessment (usually per API 579) to determine if the asset can continue to operate safely under current conditions or if it needs a de-rate or immediate repair.

We combine “boots-on-the-ground” engineering experience with high-tech data analytics. We don’t just give you a report; we give you a roadmap to operational excellence and peace of mind.

AI helps us synthesize thousands of pages of inspection reports into actionable summaries. For a site like pureintegrity.co, this means faster turnaround times for clients who need to make quick “Repair or Replace” decisions.

Compliance is our baseline. Whether it’s ASME Section VIII for pressure vessels or API 510/570 for inspections, our engineers are certified experts who ensure every assessment meets global regulatory benchmarks.

We don’t believe in “one size fits all.” Our RBI methodology follows API 581 standards, utilizing data-driven modeling to prioritize inspections where the probability and consequence of failure are highest. It’s about working smarter, not just harder.