Page 14 - Mechanical Engineers' Handbook (Volume 4)
P. 14
Mechanical Engineers’ Handbook: Energy and Power, Volume 4, Third Edition.
Edited by Myer Kutz
Copyright 2006 by John Wiley & Sons, Inc.
CHAPTER 1
THERMOPHYSICAL PROPERTIES
OF FLUIDS
Peter E. Liley
School of Mechanical Engineering
Purdue University
West Lafayette, Indiana
TABLE 1 CONVERSION TABLE 9 THERMODYNAMIC
FACTORS 5 PROPERTIES OF
SATURATED MERCURY 16
TABLE 2 PHASE TRANSITION
DATA FOR THE FIGURE 2 ENTHALPY–LOG
ELEMENTS 5 PRESSURE DIAGRAM
FOR MERCURY 17
TABLE 3 PHASE TRANSITION
DATA FOR TABLE 10 THERMODYNAMIC
COMPOUNDS 8 PROPERTIES OF
SATURATED METHANE 18
TABLE 4 THERMODYNAMIC
PROPERTIES OF TABLE 11 THERMOPHYSICAL
LIQUID AND PROPERTIES OF
SATURATED VAPOR METHANE AT
AIR 9 ATMOSPHERIC
PRESSURE 19
TABLE 5 IDEAL GAS
THERMOPHYSICAL TABLE 12 THERMOPHYSICAL
PROPERTIES OFAIR 10 PROPERTIES OF
SATURATED
TABLE 6 THERMOPHYSICAL REFRIGERANT 22 19
PROPERTIES OF THE
U.S. STANDARD TABLE 13 THERMOPHYSICAL
ATMOSPHERE 12 PROPERTIES OF
REFRIGERANT 22 AT
TABLE 7 THERMOPHYSICAL ATMOSPHERIC
PROPERTIES OF PRESSURE 20
CONDENSED AND
SATURATED VAPOR FIGURE 3 ENTHALPY–LOG
CARBON DIOXIDE PRESSURE DIAGRAM
FROM 200 K TO THE FOR REFRIGERANT 22 21
CRITICAL POINT 13
TABLE 14 THERMODYNAMIC
TABLE 8 THERMOPHYSICAL PROPERTIES OF
PROPERTIES OF SATURATED
GASEOUS CARBON REFRIGERANT 134a 22
DIOXIDE AT 1 BAR
PRESSURE 14 TABLE 15 THERMOPHYSICAL
PROPERTIES OF
FIGURE 1 ENTHALPY–LOG REFRIGERANT 134a 23
PRESSURE DIAGRAM
FOR CARBON DIOXIDE 15
3
