The Complete TeOsAcademy Technical Training Catalogue — 40+ Engineering Courses

Advanced Knowledge for Cryogenics, Hydrogen, LNG, Carbon Capture, Energy Transition & Industrial Engineering

At TeOsTeam, we have spent over two decades designing, operating, and supervising highly technical industrial systems across Cryogenics, Hydrogen Systems, LNG, Carbon Capture, Pressure Equipment, Energy Transition, and Marine Fuels.This experience forms the backbone of TeOsAcademy — our specialised training platform built to deliver practical, engineering-grade learning to teams, operators, and decision-makers.

While our homepage highlights 8 flagship courses, TeOsAcademy actually includes a much broader library of 40+ modular courses designed for professionals at different levels:

• Core Level (fundamentals for engineers & operators)

• Intermediate (hands-on, application-oriented)

• Advanced / Specialist (project, design & leadership roles)

This article provides the full catalogue, grouped under eight major technical domains.

Hydrogen Systems – 8 Trainings

1. Hydrogen Economy — Fundamentals

Introductory overview of hydrogen value chain, production pathways, storage, distribution technologies, and safety concepts.

2. Hydrogen Systems — Safety & Operations

Practical training on operational safety, behaviour of hydrogen, emergency response, and system components.

3. Hydrogen Storage Technologies

LH₂, compressed storage (350/700 bar), metal hydrides, cryo-compression — engineering principles and design considerations.

4. Hydrogen for Industrial Applications

Use of hydrogen in process industries, refineries, metallurgy, and energy systems.

5. Hydrogen Combustion & Burner Technologies

Basics of hydrogen flame properties, combustion dynamics, burner retrofits, NOx control.

6. Hydrogen Pipeline & Transport Systems

Design and operation of hydrogen-compatible pipelines, materials selection, embrittlement risks.

7. LH₂ Systems – Design & Safety

Fundamentals of cryogenic hydrogen storage tanks, insulation systems, operational risks, and process design.

8. Regulatory Framework for Hydrogen Systems

EN, ISO, NFPA, CGA, and emerging EU hydrogen safety regulations.

LNG & Marine Fuels – 5 Trainings

9. LNG – Marine Systems (Flagship)

Design principles, shipboard LNG systems, bunkering, and operational requirements.

10. LNG Terminal Operations

Process flow, safety concepts, transfer systems, emergency scenarios.

11. LNG Bunkering — Safety & Procedures

Ship–ship, truck–ship, and terminal bunkering operations.

12. LNG Combustion & Dual-Fuel Engines

Basics of dual-fuel engine operation, emissions, controls, and safety.

13. LNG Supply Chain & Logistics

Liquefaction, transport, regasification, and commercial considerations.

Carbon Capture, Climate & Decarbonisation – 7 Trainings

14. Carbon Capture – Design & Integration (Flagship)

End-to-end design of CCS systems, absorption technologies, engineering integration principles.

15. Carbon — “Net Zero” Foundations (Flagship)

Core concepts of Net Zero, carbon accounting frameworks, climate drivers, and basic methodologies.

16. Carbon Accounting & Reporting Standards

GHG Protocol, ISO 14064, Science-Based Targets (SBTi), Scope 1/2/3 frameworks.

17. Industrial Decarbonisation Technologies

Fuel switching, electrification, heat pumps, low-carbon design strategies.

18. CO₂ Transport, Storage & Monitoring

Pipeline and ship-based CO₂ transport, injection, well integrity, monitoring technologies.

19. Energy Efficiency for Industrial Systems

Process optimisation, heat integration, and equipment efficiency analysis.

20. Life Cycle Assessment (LCA) — Engineering Applications

Performing LCAs, boundary setting, impact categories, and industrial case studies.

Alternative Fuels – 5 Trainings

21. Alternative Fuels — eFuels, SAF & Ammonia (Flagship)

Structured insight into sustainable fuels, production pathways, safety, and applications.

22. Ammonia Fuel Systems & Safety

Handling, storage, combustion risks, and marine integration.

23. Methanol as a Marine & Industrial Fuel

Properties, bunkering, tank design, and engine compatibility.

24. eMethane / Bio-LNG Fundamentals

Production pathways, system compatibility, emissions performance.

25. Synthetic Fuels (Power-to-X) Technologies

Electrolyser systems, CO₂ utilisation, Fischer–Tropsch processes.

Cryogenics & Pressure Equipment – 6 Trainings

26. Pressure Equipment & Cryogenic Systems (Flagship)

Industrial cryogenics, tank design, materials, valves, safety, and operational practices.

27. Cryogenic Tank Design (EN 13458 / ASME)

Materials, insulation, mechanical design, and safety requirements.

28. Industrial Gas Systems – Oxygen, Nitrogen, Argon

Operational behaviour, safety engineering, and plant-level integration.

29. Cryogenic Pumps, Compressors & Rotating Equipment

Design fundamentals, failure modes, and maintenance strategies.

30. Helium Handling & Ultra-Low Temperature Systems

Storage systems, cryostats, boil-off management, and special equipment.

31. Pressure Vessel Integrity, Testing & Inspection

NDT methods, risk-based inspection programs, and regulatory compliance.

Energy Transition & Power Systems – 5 Trainings

32. Renewable Energy — Systems & Opportunities (Flagship)

Fundamentals of wind, solar, and hybrid systems; industrial applications and opportunities.

33. Energy Storage Technologies

Battery systems, thermal storage, long-duration storage, and hybrid architectures.

34. Microgrids & Distributed Energy Systems

Architecture, control & protection, industrial campus applications.

35. Electrification Strategies for Industry

Transitioning from fuel-based to electric processes.

36. Grid Integration of New Energy Systems

Frequency stability, reactive power, power electronics, and system modelling.

Engineering & Systems Design – 4 Trainings

37. Systems Engineering Fundamentals

Requirements, interfaces, V-model, configuration management.

38. Reliability & Safety Engineering (RAMS)

FMECA, hazard analysis, reliability modelling.

39. Project Engineering & Technical Leadership

Managing engineering work packages, design reviews, supplier qualification.

40. Technical Procurement & Supplier Development

Supplier audits, specifications, FAT/SAT, and quality control.

Marine & Industrial Operations – 3 Trainings

41. Industrial Risk Management & HAZOP

Risk frameworks, facilitation methods, HAZOP workshops.

42. Maintenance Excellence & Asset Management

TPM, RCM, spare parts strategy, CMMS best practices.

43. Process Safety for Engineers

Barriers, LOPA, functional safety principles, and emergency response.

TeOsAcademy’s 40+ course library allows organisations to build tailored training programs across multiple technical domains — from hydrogen and cryogenics to decarbonisation and marine fuels.Whether you require introductory onboarding, operator-level competence, or project-specific advanced design modules, our team delivers industry-grade training backed by decades of global engineering experience.

For custom programs or course recommendations, contact us anytime: teosacademy@teosteam.com