The first AI tutoring platform built exclusively for rotating equipment engineers. Pumps, compressors, turbines, reliability — mastered through adaptive AI, real case studies, and expert-built curriculum.
// Early access · No credit card · Limited spots
Rotating equipment knowledge is deep, highly specialized, and notoriously hard to access. Generic platforms don't cut it.
Most rotating equipment courses are dense PDFs, expensive in-person workshops, or dry lecture recordings with no interactivity. You forget 80% within a week.
Decades of hands-on knowledge is walking out the door. Junior and mid-level engineers are left to figure out surge, cavitation, and lube system failures on their own.
Udemy and Coursera have no idea what API 618 is, or why NPSH margin matters. You need a platform that already knows the fundamentals — and goes deeper.
Industry-specific live training is priced for corporate budgets. Self-funded engineers and small teams get priced out of the best knowledge in the field.
RotarIQ combines structured engineering curriculum with an AI tutor that knows rotating equipment inside out — and learns how you learn.
A diagnostic assessment maps exactly where you are — from centrifugal pump basics to advanced compressor surge analysis. No wasted time on what you already know.
Modules are built around real-world failure scenarios: a bearing that ran to destruction, a compressor that surged at startup, a seal system that cost 3 days of downtime.
Stuck on NPSH calculations? Confused about the difference between API 610 vs 674? The AI tutor gives you specific, technical answers — not generic search results.
Complete a module track and earn a RotarIQ certification in Pumps, Compressors, or Reliability. Verifiable, shareable, and recognized by industry professionals.
Built from decades of field experience across oil & gas, petrochemical, and power generation.
Performance curves, NPSH, cavitation, impeller selection, system resistance
API 682 seal plans, flush arrangements, failure modes, field troubleshooting
Surge, stonewall, performance maps, anti-surge control, inter/aftercooling
Valve mechanics, pulsation control, API 618, capacity control methods, lube systems
Stage efficiency, governing systems, trip & throttle valves, blade erosion, overhaul planning
ISO 10816 limits, spectrum analysis, bearing fault frequencies, alignment & balancing
Digital twins, IoT sensor integration, ML-based anomaly detection, RCM frameworks
RCA methods applied to 20 real rotating equipment failure scenarios with full investigation walkthroughs
Early access members lock in founding pricing — guaranteed for life. No corporate approval needed.
Join the waitlist and be first to access the only AI tutoring platform built for rotating equipment professionals.
No spam. No credit card. Just first access when we launch.