How To Better Detect Wet Hydrogen Sulfide (H2S) Damage
The Low-Down on Enhancing Boiler Tube Inspection Efficiency with Phased Array UT Technology
Thinking Big, Inspecting Small: Eddyfi’s Expertise in Small-Diameter Stainless-Steel Welds
How To Better Detect Wet Hydrogen Sulfide (H2S) Damage
Wet Hydrogen Sulfide (H2S) damage covers a range of damage caused by the effects of aqueous hydrogen charging in wet H2S refinery process environments. H2S is a highly corrosive gas that can cause severe damage to equipment and infrastructure, leading to safety hazards, production disruptions, and costly repairs. The sweet solution to preventing sour gas? Read on to find out.
https://blog.eddyfi.com/en/how-to-better-detect-wet-hydrogen-sulfide-h2s-damage .
The Low-Down on Enhancing Boiler Tube Inspection Efficiency with Phased Array UT Technology
When examining boiler tube welds, minimizing outage time and resource usage is critical. The industry demands a swift, volumetric non-destructive testing (NDT) technique to address these challenges. While radiographic testing (RT) is the traditional method, it suffers from insensitivity to specific planar defects, lacks immediate feedback for welders, and can disrupt concurrent activities. Moreover, increasingly stringent workplace safety regulations add an additional layer of complexity to the inspection process.
Thinking Big, Inspecting Small: Eddyfi’s Expertise in Small-Diameter Stainless-Steel Welds
Inspection of small-bore stainless-steel welds is traditionally carried out mainly by radiographic testing (RT). However, there is an increasing drive to reduce the use of radiography across industries while improving detection and sizing capabilities. With the right combination of advanced phased array ultrasonic testing (PAUT) probes, instrumentation, and software, a highly successful and reliable inspection approach can be realized for these challenging components, while bringing additional benefits to site production, safety, and efficiency. Eddyfi Technologies’ advanced solution combines expertise in probe design and manufacturing with best-in-class instrumentation and software.