-
Surface tension [lbf/ft] as function of temperature t [degF]:
wsuSURFTENT (t)
-
Specific volume [ft3/lbm] as function of pressure p [psi], temperature t [degF]:
wsuVPT (p, t)
-
Specific internal energy [BTU/lbm] as function of pressure p [psi], temperature t [degF]:
wsuUPT (p, t)
-
Specific entropy [BTU/(lbm·degF)] as function of pressure p [psi], temperature t [degF]:
wsuSPT (p, t)
-
Specific enthalpy [BTU/lbm] as function of pressure p [psi], temperature t [degF]:
wsuHPT (p, t)
-
Specific heat capacity at constant pressure (Cp) [BTU/(lbm·degF)] as function of pressure p [psi], temperature t [degF]:
wsuCPPT (p, t)
-
Specific heat capacity at constant volume (Cv) [BTU/(lbm·degF)] as function of pressure p [psi], temperature t [degF]:
wsuCVPT (p, t)
-
Sound velocity [ft/sec] as function of pressure p [psi], temperature t [degF]:
wsuWPT (p, t)
-
Thermal conduction [BTU/(hour·ft·degF)] as function of pressure p [psi], temperature t [degF]:
wsuTHERMCONDPT (p, t)
-
Dynamic viscosity [(lbf·sec)/ft2] as function of pressure p [psi], temperature t [degF]:
wsuDYNVISPT (p, t)
-
Prandtl number as function of pressure p [psi], temperature t [degF]:
wsuPRANDTLEPT (p, t)
-
Kinematic viscosity [ft2/sec] as function of pressure p [psi], temperature t [degF]:
wsuKINVISPT (p, t)
-
Isoentropic exponent as function of pressure p [psi], temperature t [degF]:
wsuKPT (p, t)
-
Joule-Thompson coefficient [degF/psi] as function of pressure p [psi], temperature t [degF]:
wsuJOULETHOMPSONPT (p, t)
-
Specific volume [ft3/lbm] as function of pressure p [psi], temperature t [degF], degree of dryness x:
wsuVPTX (p, t, x)
-
Specific internal energy [BTU/lbm] as function of pressure p [psi], temperature t [degF], degree of dryness x:
wsuUPTX (p, t, x)
-
Specific entropy [BTU/(lbm·degF)] as function of pressure p [psi], temperature t [degF], degree of dryness x:
wsuSPTX (p, t, x)
-
Specific enthalpy [BTU/lbm] as function of pressure p [psi], temperature t [degF], degree of dryness x:
wsuHPTX (p, t, x)
-
Specific heat capacity at constant pressure (Cp) [BTU/(lbm·degF)] as function of pressure p [psi], temperature t [degF], degree of dryness x:
wsuCPPTX (p, t, x)
-
Specific heat capacity at constant volume (Cv) [BTU/(lbm·degF)] as function of pressure p [psi], temperature t [degF], degree of dryness x:
wsuCVPTX (p, t, x)
-
Sound velocity [ft/sec] as function of pressure p [psi], temperature t [degF], degree of dryness x:
wsuWPTX (p, t, x)
-
Thermal conduction [BTU/(hour·ft·degF)] as function of pressure p [psi], temperature t [degF], degree of dryness x:
wsuTHERMCONDPTX (p, t, x)
-
Dynamic viscosity [(lbf·sec)/ft2] as function of pressure p [psi], temperature t [degF], degree of dryness x:
wsuDYNVISPTX (p, t, x)
-
Prandtl number as function of pressure p [psi], temperature t [degF], degree of dryness x:
wsuPRANDTLEPTX (p, t, x)
-
Kinematic viscosity [ft2/sec] as function of pressure p [psi], temperature t [degF], degree of dryness x:
wsuKINVISPTX (p, t, x)
-
Isoentropic exponent as function of pressure p [psi], temperature t [degF], degree of dryness x:
wsuKPTX (p, t, x)
-
Joule-Thompson coefficient [degF/psi] as function of pressure p [psi], temperature t [degF], degree of dryness x:
wsuJOULETHOMPSONPTX (p, t, x)
-
Temperature [degF] as function of pressure p [psi], specific enthalpy h [BTU/lbm]:
wsuTPH (p, h)
-
Temperature [degF] as function of pressure p [psi], specific entropy s [BTU/(lbm·degF)]:
wsuTPS (p, s)
-
Specific internal energy [BTU/lbm] as function of pressure p [psi], specific enthalpy h [BTU/lbm]:
wsuUPH (p, h)
-
Specific volume [ft3/lbm] as function of pressure p [psi], specific enthalpy h [BTU/lbm]:
wsuVPH (p, h)
-
Specific entropy [BTU/(lbm·degF)] as function of pressure p [psi], specific enthalpy h [BTU/lbm]:
wsuSPH (p, h)
-
Specific heat capacity at constant pressure (Cp) [BTU/(lbm·degF)] as function of pressure p [psi], specific enthalpy h [BTU/lbm]:
wsuCPPH (p, h)
-
Specific heat capacity at constant volume (Cv) [BTU/(lbm·degF)] as function of pressure p [psi], specific enthalpy h [BTU/lbm]:
wsuCVPH (p, h)
-
Sound velocity [ft/sec] as function of pressure p [psi], specific enthalpy h [BTU/lbm]:
wsuWPH (p, h)
-
Dynamic viscosity [(lbf·sec)/ft2] as function of pressure p [psi], specific enthalpy h [BTU/lbm]:
wsuDYNVISPH (p, h)
-
Kinematic viscosity [ft2/sec] as function of pressure p [psi], specific enthalpy h [BTU/lbm]:
wsuKINVISPH (p, h)
-
Prandtl number as function of pressure p [psi], specific enthalpy h [BTU/lbm]:
wsuPRANDTLEPH (p, h)
-
Thermal conduction [BTU/(hour·ft·degF)] as function of pressure p [psi], specific enthalpy h [BTU/lbm]:
wsuTHERMCONDPH (p, h)
-
Isoentropic exponent as function of pressure p [psi], specific enthalpy h [BTU/lbm]:
wsuKPH (p, h)
-
Joule-Thompson coefficient [degF/psi] as function of pressure p [psi], specific enthalpy h [BTU/lbm]:
wsuJOULETHOMPSONPH (p, h)
-
Specific internal energy [BTU/lbm] as function of pressure p [psi], specific entropy s [BTU/(lbm·degF)]:
wsuUPS (p, s)
-
Specific volume [ft3/lbm] as function of pressure p [psi], specific entropy s [BTU/(lbm·degF)]:
wsuVPS (p, s)
-
Specific enthalpy [BTU/lbm] as function of pressure p [psi], specific entropy s [BTU/(lbm·degF)]:
wsuHPS (p, s)
-
Specific heat capacity at constant pressure (Cp) [BTU/(lbm·degF)] as function of pressure p [psi], specific entropy s [BTU/(lbm·degF)]:
wsuCPPS (p, s)
-
Specific heat capacity at constant volume (Cv) [BTU/(lbm·degF)] as function of pressure p [psi], specific entropy s [BTU/(lbm·degF)]:
wsuCVPS (p, s)
-
Sound velocity [ft/sec] as function of pressure p [psi], specific entropy s [BTU/(lbm·degF)]:
wsuWPS (p, s)
-
Dynamic viscosity [(lbf·sec)/ft2] as function of pressure p [psi], specific entropy s [BTU/(lbm·degF)]:
wsuDYNVISPS (p, s)
-
Kinematic viscosity [ft2/sec] as function of pressure p [psi], specific entropy s [BTU/(lbm·degF)]:
wsuKINVISPS (p, s)
-
Prandtl number as function of pressure p [psi], specific entropy s [BTU/(lbm·degF)]:
wsuPRANDTLEPS (p, s)
-
Isoentropic exponent as function of pressure p [psi], specific entropy s [BTU/(lbm·degF)]:
wsuKPS (p, s)
-
Thermal conduction [BTU/(hour·ft·degF)] as function of pressure p [psi], specific entropy s [BTU/(lbm·degF)]:
wsuTHERMCONDPS (p, s)
-
Joule-Thompson coefficient [degF/psi] as function of pressure p [psi], specific entropy s [BTU/(lbm·degF)]:
wsuJOULETHOMPSONPS (p, s)
-
Temperature [degF] as function of pressure in initial point p0 [psi], temperature in initial point t0 [degF], pressure in final point p1 [psi], internal efficiency eff:
wsuTEXPANSIONPTPEFF (p0, t0, p1, eff)
-
Specific volume [ft3/lbm] as function of pressure in initial point p0 [psi], temperature in initial point t0 [degF], pressure in final point p1 [psi], internal efficiency eff:
wsuVEXPANSIONPTPEFF (p0, t0, p1, eff)
-
Specific internal energy [BTU/lbm] as function of pressure in initial point p0 [psi], temperature in initial point t0 [degF], pressure in final point p1 [psi], internal efficiency eff:
wsuUEXPANSIONPTPEFF (p0, t0, p1, eff)
-
Specific enthalpy [BTU/lbm] as function of pressure in initial point p0 [psi], temperature in initial point t0 [degF], pressure in final point p1 [psi], internal efficiency eff:
wsuHEXPANSIONPTPEFF (p0, t0, p1, eff)
-
Specific entropy [BTU/(lbm·degF)] as function of pressure in initial point p0 [psi], temperature in initial point t0 [degF], pressure in final point p1 [psi], internal efficiency eff:
wsuSEXPANSIONPTPEFF (p0, t0, p1, eff)
-
Specific heat capacity at constant pressure (Cp) [BTU/(lbm·degF)] as function of pressure in initial point p0 [psi], temperature in initial point t0 [degF], pressure in final point p1 [psi], internal efficiency eff:
wsuCPEXPANSIONPTPEFF (p0, t0, p1, eff)
-
Specific heat capacity at constant volume (Cv) [BTU/(lbm·degF)] as function of pressure in initial point p0 [psi], temperature in initial point t0 [degF], pressure in final point p1 [psi], internal efficiency eff:
wsuCVEXPANSIONPTPEFF (p0, t0, p1, eff)
-
Sound velocity [ft/sec] as function of pressure in initial point p0 [psi], temperature in initial point t0 [degF], pressure in final point p1 [psi], internal efficiency eff:
wsuWEXPANSIONPTPEFF (p0, t0, p1, eff)
-
Thermal conduction [BTU/(hour·ft·degF)] as function of pressure in initial point p0 [psi], temperature in initial point t0 [degF], pressure in final point p1 [psi], internal efficiency eff:
wsuTHERMCONDEXPANSIONPTPEFF (p0, t0, p1, eff)
-
Kinematic viscosity [ft2/sec] as function of pressure in initial point p0 [psi], temperature in initial point t0 [degF], pressure in final point p1 [psi], internal efficiency eff:
wsuKINVISEXPANSIONPTPEFF (p0, t0, p1, eff)
-
Dynamic viscocity [(lbf·sec)/ft2] as function of pressure in initial point p0 [psi], temperature in initial point t0 [degF], pressure in final point p1 [psi], internal efficiency eff:
wsuDYNVISEXPANSIONPTPEFF (p0, t0, p1, eff)
-
Prandtl number as function of pressure in initial point p0 [psi], temperature in initial point t0 [degF], pressure in final point p1 [psi], internal efficiency eff:
wsuPRANDTLEEXPANSIONPTPEFF (p0, t0, p1, eff)
-
Isoentropic coefficient as function of pressure in initial point p0 [psi], temperature in initial point t0 [degF], pressure in final point p1 [psi], internal efficiency eff:
wsuKEXPANSIONPTPEFF (p0, t0, p1, eff)
-
Joule-Thompson coefficient [degF/psi] as function of pressure in initial point p0 [psi], temperature in initial point t0 [degF], pressure in final point p1 [psi], internal efficiency eff:
wsuJOULETHOMPSONEXPANSIONPTPEFF (p0, t0, p1, eff)
-
Temperature [degF] as function of pressure in initial point p0 [psi], temperature in initial point t0 [degF], degree of dryness in initial point x0, pressure in final point p1 [psi], internal efficiency eff:
wsuTEXPANSIONPTXPEFF (p0, t0, x0, p1, eff)
-
Specific volume [ft3/lbm] as function of pressure in initial point p0 [psi], temperature in initial point t0 [degF], degree of dryness in initial point x0, pressure in final point p1 [psi], internal efficiency eff:
wsuVEXPANSIONPTXPEFF (p0, t0, x0, p1, eff)
-
Specific internal energy [BTU/lbm] as function of pressure in initial point p0 [psi], temperature in initial point t0 [degF], degree of dryness in initial point x0, pressure in final point p1 [psi], internal efficiency eff:
wsuUEXPANSIONPTXPEFF (p0, t0, x0, p1, eff)
-
Specific enthalpy [BTU/lbm] as function of pressure in initial point p0 [psi], temperature in initial point t0 [degF], degree of dryness in initial point x0, pressure in final point p1 [psi], internal efficiency eff:
wsuHEXPANSIONPTXPEFF (p0, t0, x0, p1, eff)
-
Specific entropy [BTU/(lbm·degF)] as function of pressure in initial point p0 [psi], temperature in initial point t0 [degF], degree of dryness in initial point x0, pressure in final point p1 [psi], internal efficiency eff:
wsuSEXPANSIONPTXPEFF (p0, t0, x0, p1, eff)
-
Specific heat capacity at constant pressure (Cp) [BTU/(lbm·degF)] as function of pressure in initial point p0 [psi], temperature in initial point t0 [degF], degree of dryness in initial point x0, pressure in final point p1 [psi], internal efficiency eff:
wsuCPEXPANSIONPTXPEFF (p0, t0, x0, p1, eff)
-
Specific heat capacity at constant volume (Cv) [BTU/(lbm·degF)] as function of pressure in initial point p0 [psi], temperature in initial point t0 [degF], degree of dryness in initial point x0, pressure in final point p1 [psi], internal efficiency eff:
wsuCVEXPANSIONPTXPEFF (p0, t0, x0, p1, eff)
-
Sound velocity [ft/sec] as function of pressure in initial point p0 [psi], temperature in initial point t0 [degF], degree of dryness in initial point x0, pressure in final point p1 [psi], internal efficiency eff:
wsuWEXPANSIONPTXPEFF (p0, t0, x0, p1, eff)
-
Thermal conduction [BTU/(hour·ft·degF)] as function of pressure in initial point p0 [psi], temperature in initial point t0 [degF], degree of dryness in initial point x0, pressure in final point p1 [psi], internal efficiency eff:
wsuTHERMCONDEXPANSIONPTXPEFF (p0, t0, x0, p1, eff)
-
Kinematic viscosity [ft2/sec] as function of pressure in initial point p0 [psi], temperature in initial point t0 [degF], degree of dryness in initial point x0, pressure in final point p1 [psi], internal efficiency eff:
wsuKINVISEXPANSIONPTXPEFF (p0, t0, x0, p1, eff)
-
Dynamic viscocity [(lbf·sec)/ft2] as function of pressure in initial point p0 [psi], temperature in initial point t0 [degF], degree of dryness in initial point x0, pressure in final point p1 [psi], internal efficiency eff:
wsuDYNVISEXPANSIONPTXPEFF (p0, t0, x0, p1, eff)
-
Prandtl number as function of pressure in initial point p0 [psi], temperature in initial point t0 [degF], degree of dryness in initial point x0, pressure in final point p1 [psi], internal efficiency eff:
wsuPRANDTLEEXPANSIONPTXPEFF (p0, t0, x0, p1, eff)
-
Isoentropic coefficient as function of pressure in initial point p0 [psi], temperature in initial point t0 [degF], degree of dryness in initial point x0, pressure in final point p1 [psi], internal efficiency eff:
wsuKEXPANSIONPTXPEFF (p0, t0, x0, p1, eff)
-
Joule-Thompson coefficient [degF/psi] as function of pressure in initial point p0 [psi], temperature in initial point t0 [degF], degree of dryness in initial point x0, pressure in final point p1 [psi], internal efficiency eff:
wsuJOULETHOMPSONEXPANSIONPTXPEFF (p0, t0, x0, p1, eff)
-
Degree of dryness as function of pressure in initial point p0 [psi], temperature in initial point t0 [degF], degree of dryness in initial point x0, pressure in final point p1 [psi], internal efficiency eff:
wsuXEXPANSIONPTXPEFF (p0, t0, x0, p1, eff)
-
Degree of dryness as function of pressure in initial point p0 [psi], temperature in initial point t0 [degF], pressure in final point p1 [psi], internal efficiency eff:
wsuXEXPANSIONPTPEFF (p0, t0, p1, eff)
-
Pressure at line between areas 2 and 3 [psi] as function of temperature t [degF]:
wsuP23T (t)
-
Temperature at line between areas 2 and 3 [degF] as function of pressure p [psi]:
wsuT23P (p)
-
Water state area as function of pressure p [psi], temperature t [degF]:
wsuWATERSTATEAREA (p, t)
-
Water state area (version 2) as function of pressure p [psi], temperature t [degF]:
wsuWATERSTATEAREA2 (p, t)
-
Thermal conduction [BTU/(hour·ft·degF)] as function of density r [lbm/ft3], temperature t [degF]:
wsuTHERMCONDRT (r, t)
-
Dynamic viscosity [(lbf·sec)/ft2] as function of density r [lbm/ft3], temperature t [degF]:
wsuDYNVISRT (r, t)
-
Specific volume in area 1 [ft3/lbm] as function of pressure p [psi], temperature t [degF]:
wsuV1PT (p, t)
-
Specific internal energy in area 1 [BTU/lbm] as function of pressure p [psi], temperature t [degF]:
wsuU1PT (p, t)
-
Specific entropy in area 1 [BTU/(lbm·degF)] as function of pressure p [psi], temperature t [degF]:
wsuS1PT (p, t)
-
Specific enthalpy in area 1 [BTU/lbm] as function of pressure p [psi], temperature t [degF]:
wsuH1PT (p, t)
-
Specific heat capacity at constant pressure (Cp) in area 1 [BTU/(lbm·degF)] as function of pressure p [psi], temperature t [degF]:
wsuCP1PT (p, t)
-
Specific heat capacity at constant volume (Cv) in area 1 [BTU/(lbm·degF)] as function of pressure p [psi], temperature t [degF]:
wsuCV1PT (p, t)
-
Sound velocity in area 1 [ft/sec] as function of pressure p [psi], temperature t [degF]:
wsuW1PT (p, t)
-
Joule-Thompson coefficient in area 1 [degF/psi] as function of pressure p [psi], temperature t [degF]:
wsuJOULETHOMPSON1PT (p, t)
-
Specific volume in area 2 [ft3/lbm] as function of pressure p [psi], temperature t [degF]:
wsuV2PT (p, t)
-
Specific internal energy in area 2 [BTU/lbm] as function of pressure p [psi], temperature t [degF]:
wsuU2PT (p, t)
-
Specific entropy in area 2 [BTU/(lbm·degF)] as function of pressure p [psi], temperature t [degF]:
wsuS2PT (p, t)
-
Specific enthalpy in area 2 [BTU/lbm] as function of pressure p [psi], temperature t [degF]:
wsuH2PT (p, t)
-
Specific heat capacity at constant pressure (Cp) in area 2 [BTU/(lbm·degF)] as function of pressure p [psi], temperature t [degF]:
wsuCP2PT (p, t)
-
Specific heat capacity at constant volume (Cv) in area 2 [BTU/(lbm·degF)] as function of pressure p [psi], temperature t [degF]:
wsuCV2PT (p, t)
-
Sound velocity in area 2 [ft/sec] as function of pressure p [psi], temperature t [degF]:
wsuW2PT (p, t)
-
Joule-Thompson coefficient in area 2 [degF/psi] as function of pressure p [psi], temperature t [degF]:
wsuJOULETHOMPSON2PT (p, t)
-
Pressure in area 3 [psi] as function of density r [lbm/ft3], temperature t [degF]:
wsuP3RT (r, t)
-
Density in area 3 [lbm/ft3] as function of density r [lbm/ft3], temperature t [degF], initial density r0 [lbm/ft3]:
wsuR3PTR0 (r, t, r0)
-
Density in area 3 [lbm/ft3] as function of pressure p [psi], temperature t [degF]:
wsuR3PT (p, t)
-
Specific internal energy in area 3 [BTU/lbm] as function of density r [lbm/ft3], temperature t [degF]:
wsuU3RT (r, t)
-
Specific entropy in area 3 [BTU/(lbm·degF)] as function of density r [lbm/ft3], temperature t [degF]:
wsuS3RT (r, t)
-
Specific enthalpy in area 3 [BTU/lbm] as function of density r [lbm/ft3], temperature t [degF]:
wsuH3RT (r, t)
-
Specific heat capacity at constant pressure (Cp) in area 3 [BTU/(lbm·degF)] as function of density r [lbm/ft3], temperature t [degF]:
wsuCP3RT (r, t)
-
Specific heat capacity at constant volume (Cv) in area 3 [BTU/(lbm·degF)] as function of density r [lbm/ft3], temperature t [degF]:
wsuCV3RT (r, t)
-
Sound velocity in area 3 [ft/sec] as function of density r [lbm/ft3], temperature t [degF]:
wsuW3RT (r, t)
-
Specific volume in area 3 [ft3/lbm] as function of pressure p [psi], temperature t [degF]:
wsuV3PT (p, t)
-
Specific internal energy in area 3 [BTU/lbm] as function of pressure p [psi], temperature t [degF]:
wsuU3PT (p, t)
-
Specific entropy in area 3 [BTU/(lbm·degF)] as function of pressure p [psi], temperature t [degF]:
wsuS3PT (p, t)
-
Specific enthalpy in area 3 [BTU/lbm] as function of pressure p [psi], temperature t [degF]:
wsuH3PT (p, t)
-
Specific heat capacity at constant pressure (Cp) in area 3 [BTU/(lbm·degF)] as function of pressure p [psi], temperature t [degF]:
wsuCP3PT (p, t)
-
Specific heat capacity at constant volume (Cv) in area 3 [BTU/(lbm·degF)] as function of pressure p [psi], temperature t [degF]:
wsuCV3PT (p, t)
-
Sound velocity in area 3 [ft/sec] as function of pressure p [psi], temperature t [degF]:
wsuW3PT (p, t)
-
Joule-Thompson coefficient in area 3 [degF/psi] as function of density r [lbm/ft3], temperature t [degF]:
wsuJOULETHOMPSON3RT (r, t)
-
Joule-Thompson coefficient in area 3 [degF/psi] as function of pressure p [psi], temperature t [degF]:
wsuJOULETHOMPSON3PT (p, t)
-
Specific volume in area 5 [ft3/lbm] as function of pressure p [psi], temperature t [degF]:
wsuV5PT (p, t)
-
Specific internal energy in area 5 [BTU/lbm] as function of pressure p [psi], temperature t [degF]:
wsuU5PT (p, t)
-
Specific entropy in area 5 [BTU/(lbm·degF)] as function of pressure p [psi], temperature t [degF]:
wsuS5PT (p, t)
-
Specific enthalpy in area 5 [BTU/lbm] as function of pressure p [psi], temperature t [degF]:
wsuH5PT (p, t)
-
Specific heat capacity at constant pressure (Cp) in area 5 [BTU/(lbm·degF)] as function of pressure p [psi], temperature t [degF]:
wsuCP5PT (p, t)
-
Specific heat capacity at constant volume (Cv) in area 5 [BTU/(lbm·degF)] as function of pressure p [psi], temperature t [degF]:
wsuCV5PT (p, t)
-
Sound velocity in area 5 [ft/sec] as function of pressure p [psi], temperature t [degF]:
wsuW5PT (p, t)
-
Temperature in area 1 [degF] as function of pressure p [psi], specific enthalpy h [BTU/lbm]:
wsuT1PH (p, h)
-
Joule-Thompson coefficient in area 5 [degF/psi] as function of pressure p [psi], temperature t [degF]:
wsuJOULETHOMPSON5PT (p, t)
-
Temperature in area 1 [degF] as function of pressure p [psi], specific entropy s [BTU/(lbm·degF)]:
wsuT1PS (p, s)
-
Temperature in area 2a [degF] as function of pressure p [psi], specific enthalpy h [BTU/lbm]:
wsuT2APH (p, h)
-
Temperature in area 2a [degF] as function of pressure p [psi], specific entropy s [BTU/(lbm·degF)]:
wsuT2APS (p, s)
-
Temperature in area 2b [degF] as function of pressure p [psi], specific enthalpy h [BTU/lbm]:
wsuT2BPH (p, h)
-
Temperature in area 2b [degF] as function of pressure p [psi], specific entropy s [BTU/(lbm·degF)]:
wsuT2BPS (p, s)
-
Temperature in area 2c [degF] as function of pressure p [psi], specific enthalpy h [BTU/lbm]:
wsuT2CPH (p, h)
-
Temperature in area 2c [degF] as function of pressure p [psi], specific entropy s [BTU/(lbm·degF)]:
wsuT2CPS (p, s)
-
Temperature in area 2 [degF] as function of pressure p [psi], specific enthalpy h [BTU/lbm]:
wsuT2PH (p, h)
-
Temperature in area 2 [degF] as function of pressure p [psi], specific entropy s [BTU/(lbm·degF)]:
wsuT2PS (p, s)
-
Temperature in area 3 [degF] as function of pressure p [psi], specific enthalpy h [BTU/lbm]:
wsuT3PH (p, h)
-
Temperature in area 3 [degF] as function of pressure p [psi], specific entropy s [BTU/(lbm·degF)]:
wsuT3PS (p, s)
-
Temperature in area 5 [degF] as function of pressure p [psi], specific enthalpy h [BTU/lbm]:
wsuT5PH (p, h)
-
Temperature in area 5 [degF] as function of pressure p [psi], specific entropy s [BTU/(lbm·degF)]:
wsuT5PS (p, s)
-
Pressure at line between areas 2b and 2c [psi] as function of specific enthalpy h [BTU/lbm]:
wsuP2B2CH (h)
-
Specific enthalpy at line between areas 2b and 2c [BTU/lbm] as function of pressure p [psi]:
wsuH2B2CP (p)
-
Water State Area as function of pressure p [psi], specific enthalpy h [BTU/lbm]:
wsuWATERSTATEAREAPH (p, h)
-
Water State Area as function of pressure p [psi], specific entropy s [BTU/(lbm·degF)]:
wsuWATERSTATEAREAPS (p, s)
-
Pressure at saturation line [psi] as function of temperature t [degF]:
wsuPST (t)
-
Temperature at saturation line [degF] as function of pressure p [psi]:
wsuTSP (p)
-
Specific volume of steam at saturation line [ft3/lbm] as function of temperature t [degF]:
wsuVSST (t)
-
Specific volume of water at saturation line [ft3/lbm] as function of temperature t [degF]:
wsuVSWT (t)
-
Specific internal energy of steam at saturation line [BTU/lbm] as function of temperature t [degF]:
wsuUSST (t)
-
Specific internal energy of water at saturation line [BTU/lbm] as function of temperature t [degF]:
wsuUSWT (t)
-
Specific entropy of steam at saturation line [BTU/(lbm·degF)] as function of temperature t [degF]:
wsuSSST (t)
-
Specific entropy of water at saturation line [BTU/(lbm·degF)] as function of temperature t [degF]:
wsuSSWT (t)
-
Specific enthalpy of steam at saturation line [BTU/lbm] as function of temperature t [degF]:
wsuHSST (t)
-
Specific enthalpy of water at saturation line [BTU/lbm] as function of temperature t [degF]:
wsuHSWT (t)
-
Specific heat capacity at constant pressure (Cp) of steam at saturation line [BTU/(lbm·degF)] as function of temperature t [degF]:
wsuCPSST (t)
-
Specific heat capacity at constant pressure (Cp) of water at saturation line [BTU/(lbm·degF)] as function of temperature t [degF]:
wsuCPSWT (t)
-
Specific heat capacity at constant volume (Cv) of steam at saturation line [BTU/(lbm·degF)] as function of temperature t [degF]:
wsuCVSST (t)
-
Specific heat capacity at constant volume (Cv) of water at saturation line [BTU/(lbm·degF)] as function of temperature t [degF]:
wsuCVSWT (t)
-
Sound velocity in steam at saturation line [ft/sec] as function of temperature t [degF]:
wsuWSST (t)
-
Sound velocity in water at saturation line [ft/sec] as function of temperature t [degF]:
wsuWSWT (t)
-
Thermal conduction of steam at saturation line [BTU/(hour·ft·degF)] as function of temperature t [degF]:
wsuTHERMCONDSST (t)
-
Thermal conduction of water at saturation line [BTU/(hour·ft·degF)] as function of temperature t [degF]:
wsuTHERMCONDSWT (t)
-
Dynamic viscosity of steam at saturation line [(lbf·sec)/ft2] as function of temperature t [degF]:
wsuDYNVISSST (t)
-
Dynamic viscosity of water at saturation line [(lbf·sec)/ft2] as function of temperature t [degF]:
wsuDYNVISSWT (t)
-
Prandtl number of steam at saturation line as function of temperature t [degF]:
wsuPRANDTLESST (t)
-
Prandtl number of water at saturation line as function of temperature t [degF]:
wsuPRANDTLESWT (t)
-
Kinematic viscosity of steam at saturation line [ft2/sec] as function of temperature t [degF]:
wsuKINVISSST (t)
-
Kinematic viscosity of water at saturation line [ft2/sec] as function of temperature t [degF]:
wsuKINVISSWT (t)
-
Isoentropic exponent of steam at saturation line as function of temperature t [degF]:
wsuKSST (t)
-
Isoentropic exponent of water at saturation line as function of temperature t [degF]:
wsuKSWT (t)
-
Joule-Thompson coefficient of steam at saturation line [degF/psi] as function of temperature t [degF]:
wsuJOULETHOMPSONSST (t)
-
Joule-Thompson coefficient of water at saturation line [degF/psi] as function of temperature t [degF]:
wsuJOULETHOMPSONSWT (t)
-
Specific evaporation heat [BTU/lbm] as function of temperature t [degF]:
wsuRST (t)
-
Specific volume in double phase area [ft3/lbm] as function of temperature t [degF], degree of dryness x:
wsuVSTX (t, x)
-
Specific internal energy in double phase area [BTU/lbm] as function of temperature t [degF], degree of dryness x:
wsuUSTX (t, x)
-
Specific entropy in double phase area [BTU/(lbm·degF)] as function of temperature t [degF], degree of dryness x:
wsuSSTX (t, x)
-
Specific enthalpy in double phase area [BTU/lbm] as function of temperature t [degF], degree of dryness x:
wsuHSTX (t, x)
-
Specific heat capacity at constant pressure (Cp) in double phase area [BTU/(lbm·degF)] as function of temperature t [degF], degree of dryness x:
wsuCPSTX (t, x)
-
Specific heat capacity at constant volume (Cv) in double phase area [BTU/(lbm·degF)] as function of temperature t [degF], degree of dryness x:
wsuCVSTX (t, x)
-
Sound velocity in double phase area [ft/sec] as function of temperature t [degF], degree of dryness x:
wsuWSTX (t, x)
-
Thermal conduction in double phase area [BTU/(hour·ft·degF)] as function of temperature t [degF], degree of dryness x:
wsuTHERMCONDSTX (t, x)
-
Dynamic viscosity in double phase area [(lbf·sec)/ft2] as function of temperature t [degF], degree of dryness x:
wsuDYNVISSTX (t, x)
-
Prandtl number in double phase area as function of temperature t [degF], degree of dryness x:
wsuPRANDTLESTX (t, x)
-
Kinematic viscosity in double phase area [ft2/sec] as function of temperature t [degF], degree of dryness x:
wsuKINVISSTX (t, x)
-
Isoentropic exponent in double phase area as function of temperature t [degF], degree of dryness x:
wsuKSTX (t, x)
-
Joule-Thompson coefficient in double phase area [degF/psi] as function of temperature t [degF], degree of dryness x:
wsuJOULETHOMPSONSTX (t, x)
-
Degree of dryness as function of temperature t [degF], specific volume v [ft3/lbm]:
wsuXSTV (t, v)
-
Degree of dryness as function of temperature t [degF], specific internal energy u [BTU/lbm]:
wsuXSTU (t, u)
-
Degree of dryness as function of temperature t [degF], specific entropy s [BTU/(lbm·degF)]:
wsuXSTS (t, s)
-
Degree of dryness as function of temperature t [degF], specific enthalpy h [BTU/lbm]:
wsuXSTH (t, h)
-
Degree of dryness as function of temperature t [degF], specific heat capacity at constant pressure (Cp) cp [BTU/(lbm·degF)]:
wsuXSTCP (t, cp)
-
Degree of dryness as function of temperature t [degF], specific heat capacity at constant volume (Cv) cv [BTU/(lbm·degF)]:
wsuXSTCV (t, cv)
-
Degree of dryness as function of temperature t [degF], sound velocity w [ft/sec]:
wsuXSTW (t, w)
-
Degree of dryness as function of temperature t [degF], thermal conduction tc [BTU/(hour·ft·degF)]:
wsuXSTTHERMCOND (t, tc)
-
Degree of dryness as function of temperature t [degF], dynamic viscosity dv [(lbf·sec)/ft2]:
wsuXSTDYNVIS (t, dv)
-
Degree of dryness as function of temperature t [degF], kinematic viscosity kv [ft2/sec]:
wsuXSTKINVIS (t, kv)
-
Degree of dryness as function of temperature t [degF], Prandtl number pr:
wsuXSTPRANDTLE (t, pr)
-
Degree of dryness as function of temperature t [degF], Isoentropic exponent k:
wsuXSTK (t, k)
-
Degree of dryness as function of temperature t [degF], Joule-Thomspon coefficient jt [degF/psi]:
wsuXSTJOULETHOMPSON (t, jt)
-
Specific volume of meta-stable supercooled steam [ft3/lbm] as function of pressure p [psi], temperature t [degF]:
wsuVMSPT (p, t)
-
Specific internal energy of meta-stable supercooled steam [BTU/lbm] as function of pressure p [psi], temperature t [degF]:
wsuUMSPT (p, t)
-
Specific entropy of meta-stable supercooled steam [BTU/(lbm·degF)] as function of pressure p [psi], temperature t [degF]:
wsuSMSPT (p, t)
-
Specific enthalpy of meta-stable supercooled steam [BTU/lbm] as function of pressure p [psi], temperature t [degF]:
wsuHMSPT (p, t)
-
Specific heat capacity at constant pressure (Cp) of meta-stable supercooled steam [BTU/(lbm·degF)] as function of pressure p [psi], temperature t [degF]:
wsuCPMSPT (p, t)
-
Specific heat capacity at constant volume (Cv) of meta-stable supercooled steam [BTU/(lbm·degF)] as function of pressure p [psi], temperature t [degF]:
wsuCVMSPT (p, t)
-
Sound velocity of meta-stable supercooled steam [ft/sec] as function of pressure p [psi], temperature t [degF]:
wsuWMSPT (p, t)
-
Thermal conduction of meta-stable supercooled steam [BTU/(hour·ft·degF)] as function of pressure p [psi], temperature t [degF]:
wsuTHERMCONDMSPT (p, t)
-
Dynamic viscosity of meta-stable supercooled steam [(lbf·sec)/ft2] as function of pressure p [psi], temperature t [degF]:
wsuDYNVISMSPT (p, t)
-
Prandtl number of meta-stable supercooled steam as function of pressure p [psi], temperature t [degF]:
wsuPRANDTLEMSPT (p, t)
-
Kinematic viscosity of meta-stable supercooled steam [ft2/sec] as function of pressure p [psi], temperature t [degF]:
wsuKINVISMSPT (p, t)
-
Isoentropic exponent of meta-stable supercooled steam as function of pressure p [psi], temperature t [degF]:
wsuKMSPT (p, t)
-
Joule-Thompson coefficient of meta-stable supercooled steam [degF/psi] as function of pressure p [psi], temperature t [degF]:
wsuJOULETHOMPSONMSPT (p, t)
-
Set and return internal tolerance of the WaterSteamPro as function of tolerance tolerance:
wsuSETTOLERANCE (tolerance)
-
Internal tolerance of the WaterSteamPro:
wsuGETTOLERANCE ()
-
Set and return a mode of management of tolerance as function of mode mode:
wsuSETTOLERANCEMODE (mode)
-
Mode of management of tolerance:
wsuGETTOLERANCEMODE ()
-
Set and return a mode of checking the range of functions arguments as function of mode mode:
wsuSETCHECKRANGEMODE (mode)
-
Mode of checking the range of functions arguments:
wsuGETCHECKRANGEMODE ()
-
Set and return a last error code as function of error code ErrCode:
wsuSETLASTERROR (ErrCode)
-
Last error code:
wsuGETLASTERROR ()
-
Last error description:
wsuGETLASTERRORDESCRIPTION ()
-
Process related registration of the WaterSteamPro as function of registration name name, registration key key:
wsuLOCALREGISTRATION (name, key)
-
Set and return maximum difference between saturation temperature and input temperature for function wsuWATERSTATEAREA [degF] as function of delta delta [degF]:
wsuSETDELTATS (delta)
-
Maximum difference between saturation temperature and input temperature for function wsuWATERSTATEAREA [degF]:
wsuGETDELTATS ()
-
Set and return maximum iteration's count for Newton method as function of maximum iteration maxiteration:
wsuSETMAXITERATION (maxiteration)
-
Maximum iteration's count for Newton method:
wsuGETMAXITERATION ()
-
Set and return maximum difference between pressure values at estimation of the area 3 parameters [psi] as function of delta pressure delta [psi]:
wsuSETDELTAPRESSURE (delta)
-
Maximum difference between pressure values at estimation of the area 3 parameters [psi]:
wsuGETDELTAPRESSURE ()
-
Set and return initial value for water in area 3 [lbm/ft3] as function of density r [lbm/ft3]:
wsuSETINITWATERDENSITY (r)
-
Initial value for water in area 3 [lbm/ft3]:
wsuGETINITWATERDENSITY ()
-
Set and return the initial value for steam in area 3 [lbm/ft3] as function of density r [lbm/ft3]:
wsuSETINITSTEAMDENSITY (r)
-
Initial value for steam in area 3 [lbm/ft3]:
wsuGETINITSTEAMDENSITY ()
-
Internal version of the WaterSteamPro:
wsuGETWSPVERSION ()