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Heat exchangers evaporator

Silver, with a thermal conductivity of 419 W/m°C is a somewhat better conductor of heat than copper, and this property is often utilised in the construction of heat exchangers, evaporator linings, etc. [Pg.925]

Internal energy (through the enthalpy, defined in Sec. 2.5) is useful for the calculation of heat and work quantities for such equipment as heat exchangers, evaporators, distillation columns, pumps, compressors, turbines, engines, etc., because it is a state function. The tabulation of all possible Q s and W s for all possible processes is impossible. But the intensive state functions, such as specific volume and specific internal energy, are properties of matter, and they can be measured and their values tabulated as functions of temperature and pressure for a particular substance for future use in the calculation of Q or W for any process involving that substance. The measurement, correlation, and use of these state functions is treated in detail in later chapters. [Pg.21]

The usefulness of tire entlralpy is suggested by Eqs. (2.12) and (2.13). It also appears hr energy balairces for flow processes as applied to heat exchangers, evaporators, distillatioir columns, pumps, compressors, turbines, engines, etc., for calculation of heat aird work. [Pg.35]

It is well known that, under summer conditions, the latent heat exchange by means of the droplet evaporation constitutes about 80% of the total cooling, [60], Therefore, let us consider, from the beginning, the only mass exchange of such an EPR. The prevalence of the latent heat exchange (evaporation) allows us to drop the first equations of systems (3.99) and to consider only the second term on the right-hand side of the penultimate equation. One of three unknowns should be eliminated due to the last algebraic relation. To do this, we introduce a new variable, the formal temperature... [Pg.134]

Today we switch from heat-transfer operations (heat exchange, evaporation, condensation) to mass-transfer operations (distillation, extraction, absorption, humidification). Instead of sizing equipment to exchange heat between two phases we will size equipment to exchange mass between two phases. [Pg.46]

Major industrial uses of tantalum include the production of electrical components (mainly capacitors), superalloys, tantalum carbide, and in the chemical industry (Cunningham 2000). Its physical properties make tantalum an important component of superalloys (produced by combination with cobalt, iron, nickel, and titanium) commonly used in the aerospace industry. In the chemical industry, tantalum s corrosion resistance is taken advantage of in the production of heat exchangers, evaporators, condensers, pumps, and liners for reactors and tanks (Cunningham 2000). The recycling of industrial and obsolete tantalum-containing scrap represents approximately 20% of the total tantalum consumption in the US (Cunningham 2000). [Pg.1090]

In connection with the fouling from milk proteins and salts, Kessler [1989] makes the following recommendations that are based on extensive studies, for heat exchanger (evaporator) operation. [Pg.469]

The basic components of the heat pump system comprise an expansion valve, two heat exchangers (evaporator and condenser), and a compressor. A schematic diagram depicting the operation of a heat pump dryer is shown in Figure 55.2. [Pg.1102]

Further development of the UNITHERM layout was defined by the decision not to employ operating personnel for reactor control. A sudden reduction or even cessation of heat transfer to the user should not cause shutdown of the reactor and overshooting of the system parameters. Such situation can be mitigated through the heat exchanger- evaporator in the continuously operated independent circuit for heat dump, which is added to the intermediate circuit. In addition to the evaporator, the circuit consists of the radiator (7) connected to the evaporator and cooled by atmospheric air under natural circulation, see Fig. II-1 and II-2. The independent circuit for heat dump allows transfer of the reactor to a hot standby mode without the need for shutdown. In emergency situations the circuit acts as the decay heat removal system. [Pg.162]

The polymer can easily be recovered by simple vacuum filtration or centrifugation of the polymer slurry. This can be followed by direct conversion of the filter cake to dope by slurrying the filter cake in chilled solvent and then passing the slurry through a heat exchanger to form the spinning solution and a thin-film evaporator to remove residual monomer. [Pg.280]

Fig. 5. Continuous process for producing phosphatidylcholine. 1, Lecithin 2, ethanol 3, blender 4, diffuser 5, thin-type evaporator 6, ethanol-insoluble fraction 7, heat exchanger 8, chromatography column (Si02) 9, prestream 10 and 12, phosphatidylcholine solution 11, circulating evaporator 13, dryer ... Fig. 5. Continuous process for producing phosphatidylcholine. 1, Lecithin 2, ethanol 3, blender 4, diffuser 5, thin-type evaporator 6, ethanol-insoluble fraction 7, heat exchanger 8, chromatography column (Si02) 9, prestream 10 and 12, phosphatidylcholine solution 11, circulating evaporator 13, dryer ...
Vacuum Treatment. Milk can be exposed to a vacuum to remove low boiling substances, eg, onions, garlic, and some silage, which may impart off-flavors to the milk, particularly the fat portion. A three-stage vacuum unit, known as a vacreator, produces pressures of 17, 51—68, and 88—95 kPa (127, 381—508, and 660—711 mm Hg). A continuous vacuum unit in the HTST system may consist of one or two chambers and be heated by Hve steam, with an equivalent release of water by evaporation, or flash steam to carry off the volatiles. If Hve steam is used, it must be cuUnary steam which is produced by heating potable water with an indirect heat exchanger. Dry saturated steam is desired for food processing operations. [Pg.359]

When the dryer is seen as a heat exchanger, the obvious perspective is to cut down on the enthalpy of the air purged with the evaporated water. Minimum enthalpy is achieved by using the minimum amount of air and cooling as low as possible. A simple heat balance shows that for a given heat input, minimum air means a high inlet temperature. However, this often presents problems with heat-sensitive material and sometimes with materials of constmction, heat source, or other process needs. AH can be countered somewhat by exhaust-air recirculation. [Pg.90]

Flooded refrigeration systems are a version of the closed-cycle design that may reduce operating problems in some appHcations. In flooded systems, the refrigerant is circulated to heat exchangers or evaporators by a pump. Figure 11 shows the flooded cycle, which can employ any of the simple or compound closed-refrigeration cycles. [Pg.67]

B = direct expansion coils, C = flooded evaporators, and D = special heat-exchanger designs. [Pg.68]

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See also in sourсe #XX -- [ Pg.365 ]



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Heat exchangers evaporators

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