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DTSTART;TZID=America/New_York:20260804T100000
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UID:10000272-1785837600-1785852000@e2g.com
SUMMARY:Bolted Flanged Joint Integrity: Design\, Evaluation\, and Optimization
DESCRIPTION:Achieving leak-free performance in bolted flanged joints (BFJs) requires more than just tightening bolts—it demands a solid understanding of the mechanics\, design rules\, and assembly practices behind every BFJ. This course demystifies how torque translates to load and how each component contributes to overall joint integrity. Participants learn to apply ASME Section VIII-1 Appendix 2 flange design rules to calculate bolt loads\, flange stresses\, and flange rigidity\, while also understanding the limitations of Appendix 2 with regard to bolted joint reliability. Building on this foundation\, the course dives into ASME PCC-1 and specifically Appendix O to teach proven methods for determining ideal bolt stresses\, identifying limiting components\, and optimizing joint performance. Real-world example problems reinforce key concepts and help participants translate engineering theory into practical field decisions. Attendees will leave with an awareness of how to design\, assess\, and improve BFJs across demanding process environments.
URL:https://e2g.com/event/bolted-flanged-joint-integrity-design-evaluation-and-optimization/
CATEGORIES:ETI
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DTSTART;TZID=America/New_York:20260811T080000
DTEND;TZID=America/New_York:20260813T120000
DTSTAMP:20260418T122220
CREATED:20251124T201206Z
LAST-MODIFIED:20251124T201207Z
UID:10000295-1786435200-1786622400@e2g.com
SUMMARY:Storage Tanks
DESCRIPTION:Learn the essential knowledge needed for effective welded storage tank design and analysis with this comprehensive course. Focused on the key requirements of API 650\, this course equips attendees with a practical understanding of aboveground storage tank design and analysis. Through expert instruction\, you’ll gain insights into critical aspects such as roof designs\, foundations\, material considerations\, fabrication processes\, and testing protocols—all in the context of API 650 standards. Additionally\, we explore other relevant tank designs like API 620 tanks.
URL:https://e2g.com/event/storage-tanks-8/
CATEGORIES:ETI
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DTSTART;TZID=America/New_York:20260825T080000
DTEND;TZID=America/New_York:20260826T170000
DTSTAMP:20260418T122220
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LAST-MODIFIED:20251124T195618Z
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SUMMARY:Piping Vibration
DESCRIPTION:This course combines a rigorous technical overview of measurement and severity analysis of piping vibration from the perspective of plant engineers that are interested in identifying if a problem actually exists\, how it should be evaluated\, and\, if necessary\, how it should be mitigated. Not all piping vibration needs to be addressed; therefore\, this course approaches piping vibration from the mindset of an API 579 Fitness-for-Service assessment and uses numerous case studies and examples to illustrate how assessments should take place. Measurement technologies and their limitations are covered\, including motion amplification\, impact testing\, operating deflection shape assessments\, and single- and multi-channel accelerometer measurements. An overview of the upcoming API 579 Part 15 assessment methodology is covered with a focus on Level 1 and Level 2 assessments\, along with a discussion of its technical basis so the plant engineer can best understand the relevancy and limitations of the methods. Use of the Energy Institute approach to vibration risk identification in the design phase is also covered\, including piping design practices to ensure fatigue-tolerant designs. Many case studies of typical piping vibration problems that Equity has solved in the energy industry are included to illustrate the concepts covered. Participants are encouraged to bring examples of vibration issues they have experienced or are experiencing at their facilities for class discussion.
URL:https://e2g.com/event/piping-vibration-3/
CATEGORIES:ETI
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