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Infrared inspection system allows energy assessors to check the effectiveness of insulation in a building’s construction. The resulting thermograms help assessors determine whether a building needs insulation and where in the building it should go.
Because wet insulation conducts heat faster than dry insulation, thermographic scans of roofs can often detect roof leaks. Infrared scanners are used to measure temperature of the human body, machine surfaces, concrete surfaces etc. It provides an estimate for surface temperature of a body.
Infrared (IR) inspection system is used to measure the temperature of an object. All objects emit electromagnetic radiation, primarily in the IR wavelength, which cannot be seen by the naked eye. However, IR radiation can be felt as heat on one’s skin. The hotter the object, the more IR radiation it emits.
A spot radiometer (also called a point radiometer) is the simplest. It measures radiation one spot at a time, with a simple meter reading showing the temperature of a given spot. The auditor pans the area with the device and notes the differences in temperature.
A thermal line scanner shows radiant temperature viewed along a line. The thermogram shows the line scan superimposed over a picture of the panned area. This process shows temperature variations along the line.
The Global Infrared inspection system market accounted for $XX Billion in 2022 and is anticipated to reach $XX Billion by 2030, registering a CAGR of XX% from 2023 to 2030.
SEA Vision launches new infrared inspection system SEA Vision, an innovation-based vision system company, has launched its near infrared hyperspectral vision (NIR)system, HarleNir.
Based on its Harlequin blister control system, HarleNIR is a new generation of blister inspection technology that goes beyond visible inspection to provide a chemical analysis of drug products.
HarleNIR can inspect an entire batch on the manufacturing line in a fully automated fashion, removing human error and speeding up batch release times. Even if a product appears visually sound, errors in the API can now be identified.
Through integrated imaging technology, HarleNIR can distinguish products directly from their active ingredients and perform a chemical analysis to identify compounds with different active principle, different dosage or measure the active ingredient uniformity distribution inside products.
