ABSTRACT

Tubular Heat Exchanger Double Pipe Exchangers. A double pipe heat exchanger has two concentric pipes, usually in the form of a LJ-bend design as shown in Fig. 2. The flow arrangement is pure countercurrent. A number of double pipe heat exchangers can be connected in series or parallel as necessary. Their usual application is for small duties requiring, typically, less than 300 ft2 and they are suitable for high pressures and temperatures, and thermally long duties [5]. This has the advan­ tages of flexibility since units can be added or removed as required, and the design is easy to service and requires low inventory of spares because of its standardization. Either longitudinal fins or circumferential fins within the annulus on the inner pipe wall are required to enhance the heat transfer from the inner pipe fluid to the annulus fluid. Design pressures and tempera­ tures are broadly similar to shell and tube heat exchangers. The design is straightforward, and carried out using the method of Kern [6], or proprietary programs. Shell and Tube Heat Exchanger. In process industries, shell and tube exchangers are used in great numbers, far more than any other type of exchanger. More than 90% of heat exchangers used in industry are of the shell and tube type [7]. The shell and tube heat exchangers are the “work horses” of industrial process heat transfer [8]. They are the first choice because of wellestablished procedures for design and manufacture from a wide variety of materials, many years of satisfactory service, and availability of codes and standards for design and fabrication. They are produced in the widest variety of sizes and styles. There is virtually no limit on the operating temperature and pressure. Coiled Tube Heat Exchanger.