1、,Baffling in SHELL-AND-TUBE HEAT EXCHANGERS,P M V Subbarao Professor Mechanical Engineering Department I I T Delhi,A Trade-Off Agent Between Heat Transfer & Flow Loss ,Correlations for Shell side,Kerns Focus : Cost Vs Benefit,Heat Transfer Vs Flow Loss,Heat transfer and fluid friction losses tend to
2、 compete with one another. The total energy loss can be minimized by adjusting the size of one irreversibility against the other . These adjustments can be made by properly selecting physical dimensions of the solid parts (Baffles). It must be understood, however, that the result is at best a thermo
3、dynamic optimum. Constraints such as cost, size, and reliability enter into the determination of truly optimal designs.,Experience of Baffling,One of the most effective methods of enhancing the heat transfer coefficient for shell and tube heat exchangers is the use of a baffle arrangement. Baffles a
4、lso serve as support s for the tubes during operation and help in preventing vibration from flow induced eddies. Although heat transfer is increased through the baffle arrangement, the pressure drop of the shell side fluid is also increased due to the decreased flow area, leakage and bypass effects.
5、,Nomenclature of Baffle Spacing,Geometrical Details of Baffles,Baffle Spacing,Baffle spacing is among the most important parameters used in the design of shell and tube heat exchangers. Closer spacing causes higher heat transfer, but this leads to poor stream distribution and higher pressure drop. O
6、n the other hand, higher baffle spacing reduces the pressure drop, but this will allow more longitudinal flow, which decreases the coefficient of heat transfer. It is, thus, difficult to realize the advantage of baffle arrangements.,Fluid Dynamics of Baffle Spacing,Baffles Spacing to Baffle Window,B
7、 (mm), Central Baffle Spacing:,The term central in central baffle spacing is to state a uniform baffle spacing over the baffled length of the tube bundle because sometimes, the baffle spacing changes due to the inlet and outlet regions. The minimum acceptable baffle spacing Bmin is required for reas
8、ons of good flow distribution to get a steady flow pattern of the cross flow and baffle window flow. Minimum baffle spacing according to firmly established rules is equal to 20% of the shell diameter Ds, but not less than approximately 50 mm.The maximum acceptable baffle spacing Bmax is limited by s
9、ome requirements.,One of these requirements is that for getting good flow distribution, which in connection with the baffle window dimensioning, the maximum baffle spacing should not exceed the shell diameter Ds. So, Bmax = Ds. Another requirement for the restriction Bmax of is the sufficient suppor
10、t for the tubes to prevent sagging and possible tube vibration. This dimension is defined as the maximum unsupported span,LB,max. The recommended values of LB,max for plain tubes are a function of the tube diameter and two tube material groups: group A, steel and steel alloys; group B, aluminum and
11、copper alloys.,Inlet and outlet baffle spacings,Inlet and outlet baffle spacings,In the cases where large inlet and outlet nozzles must be used and the baffle spacing adjoining the nozzles must be enlarged.The additional data entries of Bi and Bo are necessary. In these cases the longest unsupported
12、 tube span is in the baffle window adjoining the enlarged baffle space B1 and B2. This value must not exceed LB,max.,Baffle Cut,Baffle cut is the height of the segment that is cut in each baffle to permit the shell side fluid to flow across the baffle. This is expressed as a percentage of the shell inside diameter. Although this, too, is an important parameter for STHE design, its effect is less profound than that of baffle spacing.,