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Large Shell Heat Exchangers

Large Shell Heat Exchangers. P M V Subbarao Professor Mechanical Engineering Department I I T Delhi. An Engineering Solution to the Crisis of Massive Volume Requirements… A Complex Blend of Simple Ideas…. Idea for Large Capacity for Ordinary Demand.

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Large Shell Heat Exchangers

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  1. Large Shell Heat Exchangers P M V Subbarao Professor Mechanical Engineering Department I I T Delhi An Engineering Solution to the Crisis of Massive Volume Requirements… A Complex Blend of Simple Ideas….

  2. Idea for Large Capacity for Ordinary Demand • A compulsion to use exclusive continuous multi tube exchangers in important industry of nations in early 20th century. • In laundry, textile, or paper mill applications. • Using "stacked" design the unit can be expanded as required by the addition of more sections. • Design is based on pure counter flow of fluids for most efficient heat transfer. • Temperature approaches as close as 3°C can be economically achieved for certain applications.

  3. Multiple Shell-Side Passes • In an attempt to offset the disadvantage of values of F less than 1.0 resulting from the multiple tube side passes, some manufacturers regularly design shell and tube exchangers with longitudinal shell-side baffles. The two streams are always countercurrent to one another, therefore superficially giving F = 1.0.

  4. A crisis of Loss of Heat Exchanging Surface Area

  5. Simple Shell & Tube Heat Exchanger

  6. Definition of Shell and Tube Heat Exchaner • A Shell and tube heat exchanger is a class of heat exchanger designs. • It is the most common type of heat exchanger in power plants, oil refineries and other large chemical processes. • As its name implies, this type of heat exchanger consists of a shell (a large vessel) with a bundle of tubes inside it. • In order to transfer heat efficiently, a large heat transfer area should be used, so there are many tubes. • In this way, even waste heat can be put to use. • This is a great way to conserve energy. • Usually cylindrically-shaped shell-and-tube heat exchangers are preferred.

  7. Why a Shell and Tube Heat Exchanger? • The reasons for general acceptance of S&THX are several. • The shell and tube heat exchanger provides a comparatively large ratio of heat transfer area to volume and weight. • It provides this surface in a form which is relatively easy to construct in a wide range of sizes and which is mechanically rugged enough to withstand normal shop fabrication stresses, shipping and field erection stresses, and normal operating conditions. • The shell and tube exchanger can be reasonably easily cleaned. • Those components often subject to failure - gaskets and tubes – can be easily replaced. • Shop facilities for the successful design and construction of shell and tube exchangers are available throughout the world.

  8. The outer details of S&T HX

  9. Inner Details of S&T HX

  10. Tube Sheets in S&T HX

  11. Design Features for Controlling the Fluid DYnamics

  12. Components of STHEs • It is essential for the designer to have a good working knowledge of the mechanical features of S&THXs and how they influence thermal design. • The principal components of an STHE are: • Shell & shell cover; • tubes & tubesheet; • Baffles & nozzles. • Other components include tie-rods and spacers, pass partition plates, impingement plate, longitudinal baffle, sealing strips, supports, and foundation.

  13. Tie Rods & Spacers

  14. Types of Shells

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