Steam Systems: Design Sizing Operation Mtce & Optimization

Steam Systems: Design Sizing Operation Mtce & Optimization, available at $44.99, has an average rating of 4.65, with 141 lectures, 16 quizzes, based on 23 reviews, and has 240 subscribers.

You will learn about Understand the science behind modern steam engineering Acquire a solid foundation for understanding the principles and practices relating to steam Delve into the physics that lies behind steam Understand the triple point, saturated steam tables, steam dryness, and what is flash steam Explore why superheated steam is used, the superheated steam table, and its pros and cons Learn about the properties that ensure steam works effectively, why noncondensable gasses matter, and what is a waterhammer and why they should be avoided Understand how heat is transferred, the barriers to heat transfer, and the various equations needed to measure the efficiency of heat transfer Estimate your steam needs, both in flow and non-flow applications Calculate your steam consumption Understand the concept of thermal rating and the factors you will need to consider when interpreting it Calculate the amount of energy required for tanks and vessels Understand the principle of operation of submerged steam coils and steam jackets Understand how the pipes that carry steam affect your plant's efficiency Understand the difference between warm-up and running loads, and know the calculations needed to measure heat losses Know and understand what is the steam and condensate loop, the working pressure of a system, and see why pressure-reducing valves are used Select the appropriate pipe size for saturated and superheated steam systems in accordance with international standards Know how to use sizing equations, charts and tables to size your steam piping system Understand the requirements for steam mains and drainage and what to look out for to avoid waterhammer Understand the concept of steam pipe expansion allowance and discover the various methods of making sure your pipes are properly installed Know the different types of steam traps, how they work, and the pros and cons of each Understand why steam traps are important, how they operate and the standards applied to them Be aware of the considerations for selecting steam traps Successfully identify issues with steam traps and how they can impact your plant's performance Demonstrate how little energy steam traps use Examine routine maintenance, replacement of internal parts, and potentially replacing steam traps Know the different types of strainers and how they work Understand the hazards of steam for safe operation of your plant and piping systems Test your knowledge with a 120+ question quiz Download a valuable booklet containing steam tables, charts and engineering data This course is ideal for individuals who are Piping Designers or Design Engineers or Process, Mechanical and Chemical Engineers or Operation and Maintenance Engineers or Plant Operators or Maintenance Personnel or Technical Personnel involved in inspection It is particularly useful for Piping Designers or Design Engineers or Process, Mechanical and Chemical Engineers or Operation and Maintenance Engineers or Plant Operators or Maintenance Personnel or Technical Personnel involved in inspection.

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Summary

Title: Steam Systems: Design Sizing Operation Mtce & Optimization

Price: $44.99

Average Rating: 4.65

Number of Lectures: 141

Number of Quizzes: 16

Number of Published Lectures: 141

Number of Published Quizzes: 16

Number of Curriculum Items: 157

Number of Published Curriculum Objects: 157

Original Price: $69.99

Quality Status: approved

Status: Live

What You Will Learn

• Understand the science behind modern steam engineering
• Acquire a solid foundation for understanding the principles and practices relating to steam
• Delve into the physics that lies behind steam
• Understand the triple point, saturated steam tables, steam dryness, and what is flash steam
• Explore why superheated steam is used, the superheated steam table, and its pros and cons
• Learn about the properties that ensure steam works effectively, why noncondensable gasses matter, and what is a waterhammer and why they should be avoided
• Understand how heat is transferred, the barriers to heat transfer, and the various equations needed to measure the efficiency of heat transfer
• Estimate your steam needs, both in flow and non-flow applications
• Calculate your steam consumption
• Understand the concept of thermal rating and the factors you will need to consider when interpreting it
• Calculate the amount of energy required for tanks and vessels
• Understand the principle of operation of submerged steam coils and steam jackets
• Understand how the pipes that carry steam affect your plant's efficiency
• Understand the difference between warm-up and running loads, and know the calculations needed to measure heat losses
• Know and understand what is the steam and condensate loop, the working pressure of a system, and see why pressure-reducing valves are used
• Select the appropriate pipe size for saturated and superheated steam systems in accordance with international standards
• Know how to use sizing equations, charts and tables to size your steam piping system
• Understand the requirements for steam mains and drainage and what to look out for to avoid waterhammer
• Understand the concept of steam pipe expansion allowance and discover the various methods of making sure your pipes are properly installed
• Know the different types of steam traps, how they work, and the pros and cons of each
• Understand why steam traps are important, how they operate and the standards applied to them
• Be aware of the considerations for selecting steam traps
• Successfully identify issues with steam traps and how they can impact your plant's performance
• Demonstrate how little energy steam traps use
• Examine routine maintenance, replacement of internal parts, and potentially replacing steam traps
• Know the different types of strainers and how they work
• Understand the hazards of steam for safe operation of your plant and piping systems
• Test your knowledge with a 120+ question quiz
• Download a valuable booklet containing steam tables, charts and engineering data

Who Should Attend

• Piping Designers
• Design Engineers
• Process, Mechanical and Chemical Engineers
• Operation and Maintenance Engineers
• Plant Operators
• Maintenance Personnel
• Technical Personnel involved in inspection

Target Audiences

• Piping Designers
• Design Engineers
• Process, Mechanical and Chemical Engineers
• Operation and Maintenance Engineers
• Plant Operators
• Maintenance Personnel
• Technical Personnel involved in inspection