Itc emea – courses gas monkey cast

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This course prepares the student for qualification as a level 1 certified thermographer to DIN EN ISO 9712 TT. The participant will learn about the basics of infrared, how to operate the camera under different conditions and for various purposes, how to approprietely judge a measurement situation in the field and how to identify potential error sources. After the course, the participant will be able to undertake infrared inspections following written guidelines and to report the results of this inspection. electricity cost per kwh by country The optional examination will be done by SectorCert, an independant certifier accredited to DIN EN ISO 9712. gas laws worksheet with answers This course is offered only in Germany, Austria and Switzerland.

Course content: Introduction to thermography, camera operation, thermal science, heat transfer, temperature measurement, infrared science, infrared equipment, applications, thermal pattern recognition, qualitative and quantitative thermography, inspection routines and reporting, several hands-on laboratory sessions. The content of the course complies with the requirements of DIN EN ISO 9712 TT.

This course provides a general introduction to infrared thermography and an overview of its specific use for inspections of electrical and industrial systems. It aims at giving you suggestions on what you can do with your infrared camera. During the first day, you learn the basics of thermography and how to use your camera the best way (the first day is identical to the course Introduction to Thermography). The second day you will start with a brief reminder about thermal transfers before you learn about electrical and industrial systems and components, material properties and typical problems and faults. Emphasis is put on case studies, selected from the field.

Course content: Basics of thermography, basics of emissivity and reflected apparent temperature, introduction to electrical and building inspections, infrared camera handling, basics of heat transfer, electrical and industrial systems, important properties of materials, common problems, case studies, common mistakes, application guidelines, data analysis and reports, laboratory sessions.

This course gives a general introduction to infrared thermography and an overview on its specific use for inspections of heating and HVAC systems, and related installations. electricity flow chart It aims at giving you suggestions on what you can do with your infrared camera. During the first day, you learn the basics of thermography, and how to use your camera the best way (the first day is identical to the course Introduction to Thermography). electricity physics ppt The second day you will be introduced to various heating systems before learning about typical faults and how thermography can help you to locate and analyze these. Emphasis is put on case studies, selected from the field.

Course content: Basics of thermography, basics of emissivity and reflected apparent temperature, introduction to electrical and building inspections, infrared camera handling, basics of heat transfer, heating systems, pipe tracing and localization in water circuits, water leaks, moisture and humidity, water radiators, tanks, manifolds, plenums, HVAC systems, industrial heat exchangers, photovoltaic panel inspection, data analysis and reports, laboratory sessions.

This course consists of lectures on theoretical subjects, plus hands-on experience. After a general review of heat and heat transfer, the students will learn about radiative heat transfer. Starting with the standard measurement situation they will learn about the importance of emissivity and reflected apparent temperature. gas station near me The students will compute and estimate emissivity and compensate for the reflected apparent temperature. They will also learn about calibration and FLIR’s HyperCal software. Depending on the needs of the audience and the time available, additional topics covered may include measurement through windows, measurable figures of merit, signal generation, the influence of integration time, ROIC, etc., triggering and synchronization, non-uniformity correction and bad pixel replacement.

Course content: Thermal transfer, radiative heat transfer, thermal images, the standard measurement situation, computing the emissivity, estimating emissivity and the reflected apparent temprature, figures of merit, triggering and synchronization, measuring through a window, calibration, spectral filters, non-uniformity correction, bad pixels replacement, transient, lock-in and pulse and non-distructive testing. gas 91 octane Additional content upon request.