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Spray towers heat transfer

Equipment suitable for reactions between hquids is represented in Fig. 23-37. Almost invariably, one of the phases is aqueous with reactants distributed between phases for instance, NaOH in water at the start and an ester in the organic phase. Such reac tions can be carried out in any kind of equipment that is suitable for physical extraction, including mixer-settlers and towers of various kinds-, empty or packed, still or agitated, either phase dispersed, provided that adequate heat transfer can be incorporated. Mechanically agitated tanks are favored because the interfacial area can be made large, as much as 100 times that of spray towers, for instance. Power requirements for L/L mixing are normally about 5 hp/1,000 gal and tip speeds of turbine-type impellers are 4.6 to 6.1 i7i/s (15 to 20 ft/s). [Pg.2116]

The spray-filled tower, Figure 9-100, is also an atmospheric type, containing no fill other than the water sprays and no fans. The water-air contact comes about due to the spray distribution system [144], This design is often used where higher water temperatures are allowed, and the situations where excessive contaminants building up in the water would cause fouling of other direct contact heat transfer surfaces. [Pg.380]

Transfer of heat by direct contact is accomplished in spray towers, in towers with a multiplicity of segmented baffles or plates (called shower decks), and in a variety of packed towers. In some processes heat and mass transfer occur simultaneously between phases for example, in water cooling towers, in gas quenching with water, and in spray or rotary dryers. Quenching of pyrolysis gases in transfer lines or towers and contacting on some trays in fractionators may involve primarily heat transfer. One or the other, heat or mass transfer, may be the dominant process in particular cases. [Pg.185]

The key properties of mixtures of air and water vapor are described in Section 9.1. Here the interactions of air and water in packed towers under steady flow conditions will be analyzed. The primary objectives of such operations may be to humidify or dehumidify the ait as needed for particular drying processes or other processes, or to cool process water used for heat transfer elsewhere in the plant. Humidification-dehumidification usually is accomplished in spray towers, whereas cooling towers almost invariably are filled with seme type of packing of open structure to improve contacting but with minimum pressure drop of air. [Pg.277]

Heat Transfer/Cooling Towers. . . Spray Cooling System Design Elgawhary, A. W. [Pg.329]

Other results on heat transfer in a large spray condenser are given by Waintraub et al. ( Removing Packings from Heat Transfer Sections of Vacuum Towers, AIChE 2005 Spring National Meeting, Proceed-... [Pg.91]

See other pages where Spray towers heat transfer is mentioned: [Pg.1899]    [Pg.1899]    [Pg.78]    [Pg.265]    [Pg.29]    [Pg.348]    [Pg.349]    [Pg.809]    [Pg.798]    [Pg.87]    [Pg.270]    [Pg.305]    [Pg.74]    [Pg.42]    [Pg.78]    [Pg.1658]    [Pg.1658]    [Pg.434]    [Pg.177]    [Pg.265]    [Pg.1627]    [Pg.2132]    [Pg.2378]    [Pg.2378]    [Pg.1366]    [Pg.220]    [Pg.57]    [Pg.17]    [Pg.25]    [Pg.26]    [Pg.1623]   
See also in sourсe #XX -- [ Pg.328 , Pg.329 ]



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