ADVANCE THERMOGRAPHY & QUANTITATIVE OPTICAL GAS IMAGING TRAINING, 26 & 27 AUGUST 2024
TOPICAL OUTLINE ADVANCE THERMOGRAPHY
- Introductions
- Certification Overview
- Level I Self-Evaluation
- Camera Features and Specifications
- Describe the significance of different detector types, IR resolution and optics, sensitivity, and other key parameters
- Discuss the advantages of using different lenses depending on the application
- Review some important camera features and why they might be beneficial
- Thermal Science
- Discuss the concept of temperature
- Identify some common energy units
- Discuss heat capacity
- Illustrate thermodynamic laws
- Discuss the effects of temperature on material
- Explain states of matter and energy conversion
- Heat Transfer
- Define heat transfer
- Identify the direction of heat flow
- Explain the three modes of heat transfer
- Explain the difference between Steady State and Transient heat transfer
- Identify a conduction and convection thermal pattern
- Explain wind speed effects on temperature and differentials
- Identify an evaporation thermal pattern
- Infrared Science
- Discuss why it is necessary to understand IR science when using an infrared camera
- Describe the electromagnetic spectrum
- Identify infrared wave bands and their usefulness for different applications
- Explain emission and background energy
- Explain the importance of using IR windows and how to compensate for transmission loss
- Overview of Inspection Report Creation
- Review some important safety practices and considerations for thermal inspections
Quantitative OGI and the QL320
QL320 is a quantitative optical gas imaging (QOGI) system that allows surveyors to measure the leak rates for methane and other hydrocarbons. This eliminates the need for secondary sampling with a toxic vapor analyzer or similar tool. This course will provide an introduction to quantitative optical gas imaging and the QL320.
Learning Objectives
- Benefits of Optical Gas Imaging when compared to other technologies
- Midwave camera vs. longwave camera
- The theoretical foundation of OGI and why it works
- General principles of QOGI
- Selecting an adequate background for optimal results
- Preparing the FLIR QL320 for quantification
- Quantification procedure
- Utilizing the Q-Mode in the GF-Series cameras
- OGI Applications
| Time | Day 1 | Day 2 |
| 08.00 – 08.30 | Introductions | Benefits of Optical Gas Imaging when compared to other technologies Midwave camera vs. longwave camera The theoretical foundation of OGI and why it works |
| 08.30 – 09.00 | Level I Knowledge Check | |
| 09.00 – 09.30 | Camera Features and Specifications | |
| 09.30 – 10.00 | ||
| 10.00 – 10.30 | Thermal Science Heat Transfer | |
| 10.30 – 11.00 | ||
| 11.00 – 11.30 | ||
| 11.30 – 12.00 | Lunch | Lunch |
| 12.00 – 12.30 | ||
| 12.30 – 13.00 | Infrared Science Safety Camera Labs Study Guide & Review Applications | General principles of QOGI Selecting an adequate background for optimal results Preparing the FLIR QL320 for quantification Quantification procedure |
| 13.00 – 13.30 | ||
| 13.30 – 14.00 | ||
| 14.00 – 14.30 | ||
| 14.30 – 15.00 | ||
| 15.00 – 15.30 | ||
| 15.30 – 16.00 | Reporting Final Exam | Utilizing the Q-Mode in the GF-Series cameras OGI Applications |
| 16.00 – 16.30 | ||
| 16.30 – 17.00 |
| Speaker: |
|---|
| Mr. Diki Suhardian |
| Mr. Dwi Prayitno |
| Mr. Dimas Pradiningrat |
| Mr. Jacob Ryu |
| Mr. Peter de Iesa |
| Mr. Craig O’Neill |
Location:
SHERATON Bali Kuta Resort
Beachwalk Shopping Center
Jl. Pantai Kuta, Kuta, Bali 80361
($ 1500 Fee)