Insulating liquids tests course
Check out the course brochure
Marius Grisaru is a chemist, user and an analyst in the DGA field, here successfully explaining proper DGA diagnosis.
Unlock the Secrets of Insulating Oil Testing with Our Expert-Led Course!
Transform your approach to transformer maintenance with the “Insulating Liquids Test” course by Marius Grisaru, featuring real-life insights and visuals from the Tesla Institute.
Why Join?
Gain a clear understanding of insulating oil testing and its vital role in transformer reliability.
Learn how to tailor tests to your equipment’s needs, saving time, money, and resources.
Explore practical applications with hands-on demonstrations, short films, and expert-led sessions.
What You’ll Learn:
Basic Level: Discover essential standards and foundational knowledge.
Intermediate Level: Master diagnostics, sampling best practices, and maintenance planning.
Master’s Level: Dive deep into advanced testing techniques like breakdown voltage, moisture, acidity, and interfacial tension.
Who Should Attend?
This course is perfect for utility engineers, manufacturers, students, and maintenance professionals looking to elevate their expertise and extend transformer life sustainably.
🌍 Take a step towards cost-effective maintenance and environmental sustainability. Let’s redefine transformer care together! 💼✨
Insulating liquids test – lesson #1 – Introduction to insulating oil test
Improving the efficiency invests on dissolved gas analysis, planning synchronizing and selecting most adequate paths for the DGA tests
Insulating liquids test – lesson #2 – Review of available conventional literature, guides, and standards for oil testing
Improving the efficiency invests on dissolved gas analysis, planning synchronizing and selecting most adequate paths for the DGA tests
Insulating liquids test – lesson #3: Oil test priorities: specification, frequencies, limits
Improving the efficiency invests on dissolved gas analysis, planning synchronizing and selecting most adequate paths for the DGA tests
Insulating liquids test – lesson #4: Insight into transformer oil sampling, obtaining a reliable oil sample
Improving the efficiency invests on dissolved gas analysis, planning synchronizing and selecting most adequate paths for the DGA tests
Insulating liquids test – lesson #5: Diagnostics and actions based on the results of transformer oil tests
Improving the efficiency invests on dissolved gas analysis, planning synchronizing and selecting most adequate paths for the DGA tests
Insulating liquids test – lesson #6: Breakdown voltage tests
Improving the efficiency invests on dissolved gas analysis, planning synchronizing and selecting most adequate paths for the DGA tests
Insulating liquids test – lesson #7: Moisture, water, methods’ significance, and compatibility
Improving the efficiency invests on dissolved gas analysis, planning synchronizing and selecting most adequate paths for the DGA tests
Insulating liquids test – lesson #8: Electrical measurements for insulating oils
Improving the efficiency invests on dissolved gas analysis, planning synchronizing and selecting most adequate paths for the DGA tests
Insulating liquids test – lesson #9: Oil acidity measurements
Improving the efficiency invests on dissolved gas analysis, planning synchronizing and selecting most adequate paths for the DGA tests
Insulating liquids test – lesson #10: Color and Interfacial test. IFT
Improving the efficiency invests on dissolved gas analysis, planning synchronizing and selecting most adequate paths for the DGA tests
Insulating liquids test – lesson #1 – Introduction to insulating oil test
Improving the efficiency invests on dissolved gas analysis, planning synchronizing and selecting most adequate paths for the DGA tests
Insulating liquids test – lesson #2 – Review of available conventional literature, guides, and standards for oil testing
Improving the efficiency invests on dissolved gas analysis, planning synchronizing and selecting most adequate paths for the DGA tests
Insulating liquids test – lesson #3: Oil test priorities: specification, frequencies, limits
Improving the efficiency invests on dissolved gas analysis, planning synchronizing and selecting most adequate paths for the DGA tests
Insulating liquids test – lesson #4: Insight into transformer oil sampling, obtaining a reliable oil sample
Improving the efficiency invests on dissolved gas analysis, planning synchronizing and selecting most adequate paths for the DGA tests
Insulating liquids test – lesson #5: Diagnostics and actions based on the results of transformer oil tests
Improving the efficiency invests on dissolved gas analysis, planning synchronizing and selecting most adequate paths for the DGA tests
Insulating liquids test – lesson #6: Breakdown voltage tests
Improving the efficiency invests on dissolved gas analysis, planning synchronizing and selecting most adequate paths for the DGA tests
Insulating liquids test – lesson #7: Moisture, water, methods’ significance, and compatibility
Improving the efficiency invests on dissolved gas analysis, planning synchronizing and selecting most adequate paths for the DGA tests
Insulating liquids test – lesson #8: Electrical measurements for insulating oils
Improving the efficiency invests on dissolved gas analysis, planning synchronizing and selecting most adequate paths for the DGA tests
Insulating liquids test – lesson #9: Oil acidity measurements
Improving the efficiency invests on dissolved gas analysis, planning synchronizing and selecting most adequate paths for the DGA tests
Insulating liquids test – lesson #10: Color and Interfacial test. IFT
Improving the efficiency invests on dissolved gas analysis, planning synchronizing and selecting most adequate paths for the DGA tests
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About the author
Marius Grisaru
The author – Marius Grisaru is a chemist with expertise in the insulating oil domain, focusing on oil test procedures from sampling to diagnosing. Marius has vast and worldwide experience on sampling, testing, ordering, diagnosing, and debating among fellow experts around the globe.
