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Refrigeration machines

FIG. 29-44 Tiirb oexpander system functioning as a refrigeration machine. [Pg.2520]

PLC functions for controlling lights, electrical motors, heating coil, boilers, refrigerating machines, etc. [Pg.777]

Cuvette Small cylinder (test tube) used to hold a sample in a spectrophotometer. Cycle The sequence of events in a heat engine, refrigerating machine, or any prtKess where, during the performance of mechanical work, heat is supplied to and rejected from the working fluid, which is returned to its original condition. [Pg.1426]

The first practical liquid refrigerating machine is patented by American inventor Jacob Perkins. [Pg.1244]

American inventor John Gorrie patents an expansion cycle refrigerating machine. [Pg.1244]

Refrigerating machines absorb heat from a cold reservoir at temperature T and discharge heat Q, into a hot reservoir at T. To accomplish this, work energy must also be absorbed. The minimum required work is obtained as shown before, using the first and second laws ... [Pg.217]

Refrigeration will be needed for processes that require temperatures below those that can be economically obtained with cooling water. For temperatures down to around 10°C chilled water can be used. For lower temperatures, down to -30°C, salt brines (NaCl and CaCT) are used to distribute the refrigeration round the site from a central refrigeration machine. Vapour compression machines are normally used. [Pg.901]

Process documentation 2, drying chamber with shelves 3, operation control 4, ice condenser 5, vacuum pump with exhaust filter 6, refrigeration machine for the ice condenser 7, refrigeration machine for the shelves 8, circulation pump for the brine 9, heat exchanger (Lyovac GT 6, AMSCO Finn-Aqua, D-50354 Hiirth, Germany). [Pg.71]

This effect has been utilized for a long time in condensers (see 2.1.5) mainly in connection with chemical processes previously the baffle on diffusion pumps used to be cooled with refrigerating machines. Also in a sealed space (vacuum chamber) the formation of condensate on a cold surface means that a large number of gas molecules are removed from the volume they remain located on the cold surface and do not take part any longer in the hectic gas atmosphere within the vacuum chamber. We then say that the particles have been pumped and talk of cryopumps when the pumping effect is attained by means of cold surfaces. [Pg.54]

Let the ammonia evaporate. What substance remained in the apparatus Do not wash the apparatus with water, but hand it in to the laboratory assistant Why What explains the use of ammonia in refrigerating machines ... [Pg.136]

In this paper idealized conversion processes utilizing reversible refrigeration machines are analyzed with respect to energy requirements. First, energy equations are established for a completely reversible process. Several irreversible modifications of this process are then analyzed. [Pg.59]

All of the idealized conversion processes discussed are assumed to incorporate reversible refrigeration machines. [Pg.61]

Type I. Figure 1 illustrates reversible refrigeration machines of Type I. This machine receives an amount of heat q reversibly at temperature Tc and discharges it reversibly at a higher temperature, Ta. By the first principle of thermodynamics the necessary energy input, w, must also be discharged reversibly at Ta. The coefficient of performance of this machine is the same as that of a Carnot refrigeration machine. Thus we have... [Pg.61]

Type III. Figure 3 illustrates reversible refrigeration machines of Type III. This... [Pg.62]

Figure 5. Combination of two Type I reversible refrigeration machines in series to utilize a limited isothermal reservoir... Figure 5. Combination of two Type I reversible refrigeration machines in series to utilize a limited isothermal reservoir...
For steady-state operation, the capacity of the ice in the melting unit to absorb heat isothermally is just equal to the heat of crystallization removed in freezing the ice. Thus another refrigeration machine, R2, is employed to transfer the additional heat rejected by Rt to the saline water mass, which, in this idealization, may be considered as having infinite heat-absorbing capacity at its ambient temperature, Tu. [Pg.65]

Refrigeration machine Rl is of Type III, receiving heat of crystallization over the range Tr to T and discharging it isothermally at T0. In order to utilize Equation 13 for the energy input, the rate of heat reception with respect to temperature must be known. [Pg.65]

Refrigeration machine R2 is of Type I, so that the energy input is... [Pg.66]

Refrigeration machine Rs is of Type III with uniform reception of sensible heat... [Pg.67]

See other pages where Refrigeration machines is mentioned: [Pg.361]    [Pg.92]    [Pg.1167]    [Pg.243]    [Pg.235]    [Pg.263]    [Pg.217]    [Pg.174]    [Pg.335]    [Pg.336]    [Pg.70]    [Pg.148]    [Pg.56]    [Pg.334]    [Pg.141]    [Pg.1502]    [Pg.1504]    [Pg.70]    [Pg.148]    [Pg.59]    [Pg.61]    [Pg.62]    [Pg.64]    [Pg.64]    [Pg.64]    [Pg.64]    [Pg.65]    [Pg.66]    [Pg.67]   
See also in sourсe #XX -- [ Pg.26 ]



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