In this video, I take you through a detailed analysis of horizontal vessel piping systems in CAESAR II, covering five scenarios. This video combines theoretical knowledge with practical applications to enhance your stress analysis expertise. Gain practical insights and tips to handle these conditions effectively and ensure code compliance in your piping systems.

In this video, we dive deep into the crucial relationship between piping restraints and pipe racks in industrial plants. Learn about essential factors like load transfer, thermal expansion, restraint selection, and code compliance to ensure your design achieves structural stability and operational reliability.

Efficient and safe equipment spacing is the backbone of industrial plant design. From tanks to pumps and heat exchangers, we explain how proper spacing enhances safety, minimizes risks, and ensures easy access for maintenance, all while staying compliant with industry regulations.

Thinking about a career in piping stress engineering? In this video, We break down the education, skills, and industry standards you'll need to get started. Learn how to navigate the path to becoming a successful piping stress engineer.

In this video, we explore the crucial aspects of stress analysis for fire-water piping systems in industrial environments. From thermal expansion to support design, discover how to protect your piping network and equipment nozzle.

This video explains reboiler piping stress analysis using clear and concise animations. Understand the principles and practices needed to analyze and mitigate stress in reboiler piping systems.

Our latest video breaks down the fundamentals of flare piping, focusing on flare headers, pressure safety valves or relief valves (PSV), and atmospheric vent designs. Enhance your knowledge and stay ahead in the industry with this informative guide.

Join us for a walk-through of the best practices for conducting a piping hydro test. This video covers everything from the test method and necessary equipment to water quality criteria and the recommended number of personnel. Gain insights into the complete hydro testing process and ensure that your tests are effective and safe.

This video provides fundamental information about air coolers (air-cooled heat exchangers) and design considerations. It also covers piping design and piping stress-related issues explanations. Pros and cons of vendor-designed and contractor-designed air coolers are compared.

This video includes fundamental information about storage tanks and provides information on how to make piping design in terms of piping stress analysis. The video also shows the equipment's behavior during operation and the life span of the tank. And finally, you will see the use of spring supports for storage tank piping.

This video is prepared to explain the details of piping expansion loop calculation and design details. The video also contains a formula for an expansion loop for hand calculation. In the end, we summarised the tips on expansion loop design details.

This video is prepared for piping designers, engineers, piping stress engineers, and students to recommend the #5 most popular and useful books on piping design and stress analysis. The recommended books are also for pipeline designers and engineers.

In this video you will understand why we call "Pound" for the flange classes. Flange rating is defined by pound per square inch. This is the most famous word in use in piping design and engineering world. The historical benchmark condition is being compared with ASME B16.5 and Table 2-1.1.

Considering the heat exchanger displacement due to different average temperatures. You will understand the fundamental approach to nozzle displacements on shell and tube heat exchangers. A piping stress engineer should calculate the nozzle displacements before piping stress analysis.

In this video, the results of different expansions of piping and pressure vessels have been analyzed. Additionally, pipe support locations have been assessed. You will learn about piping stress analysis tricks within this video.

IFigure out the external forces (wind, seismic, and operating temperature) that a pressure vessel is exposed to. This is important for piping stress engineers to prevent the nozzle and piping from overstressing. A pressure vessel displacement is an essential item that must be identified.