Home     |     Site Map     |     News     |     Download Library     |     Contact Us     |     Legal     |     MEXICHEM

 

 

El contenido de esta página requiere una versión más reciente de Adobe Flash Player.

Obtener Adobe Flash Player
             
| | |
 
Europe / Middle East / Africa / India: Refrigeration > Products > Refrigerants > KLEA®407A > KLEA®407A Physical Properties

REFRIGERATION


Physical Properties

Property Units Value
Bubble Point °C -45.5
Dew Point °C -38.9
Bubble Point Pressure (25°C) bara 12.6
Estimated Critical Temparature °C 83
Latent Heat Vaporisation (25°C) kJ/kg 178.8
Trouton's Constant kJ/kg.K 1.05
Coeff. Vol. Therm. Exp. (LIQ,0-20°C) °K-1 0.0034
Density (SAT VAPOUR) at 1atm kg/m³ 3.94

EQUATION OF STATE (MARTIN-HOU)


where:

Tr= T/Tc, Pr = P/Pc, Vr = V/Vc = V.RHOc
X = 3.61723
B = 0.0
K = 5.475
Tc,Pc,RHOc = 355.9(K), 45.41(bara), 500.2(kg/m³)

A1,B1,C1 = -11.33191275, 6.8075753325, -12.83650902
A2,B2,C2 = 9.1343011237, -5.9497618996, -107.94947217
A3,B3,C3 = -3.925317714, 0.0, 0.0
A4,B4,C4 = 0.0, 13.694712938, -1247.8526238

SATURATION ENVELOPE - BUBBLE POINT TEMPERATURES

Bubble Point Temperature (Tb) = A + BX + CX² + DX³

Tb = Bubble point temperature in K
X = Ln(P)
P = pressure in bara
A = 227.327
B = 20.90959
C = 1.827666
D = 0.3768882

SATURATION ENVELOPE - DEW POINT TEMPERATURES

Dew Point Temperature (Td) = A + BX + CX² + DX³

Td = Bubble point temperature in K
X = Ln(P)
P = pressure in bara
A = 233.9652
B = 20.18983
C = 2.151637
D = 0.2567243

SATURATION ENVELOPE - MID POINT TEMPERATURES

Mid Point Temperature (Tm) = A + BX + CX² + DX³

Tm = Average of Dew and Bubble point temperatures in K
X = Ln(P)
P = pressure in bara
A = 230.6465
B = 20.54803
C = 1.990873
D = 0.316577

LATENT HEAT VAPORISATION

DHvap = A + Bx + Cx² + Dx³ + Ex4
where x = (1-(Tm/Tc))(1/3)

A = -114.4811 Tm = Mid point Temperature K
B = 797.7376 Tc = Crit. Temperature K
C = -654.4821 Tc = 355.9 K
D = 325.8758 DHvap kJ/kg
E = 0  

IDEAL GAS HEAT CAPACITY

Cp(ideal) = A + BT + CT² + D/T

A = 0 T = Temperature K
B = 0.002918  
C = -1.614E-06 Cp(ideal) kJ/kg.K
D = 28.03  

SATURATED LIQUID ENTHALPY

H liq = A + Bx + Cx² + Dx³ + Ex4
where x = (1-(Tb/Tc))(1/3)

A = 351.06499 Tb = Bubble point temperature K
B = -471.4948 Tc = Crit. Temperature K
C = 468.8684 Tc = 355.9 K
D = -595.3497  
E = 0 H liq kJ/kg

LIQUID DENSITY

d liq = A + Bx + Cx² + Dx³ + Ex4
where x = (1-(Tb/Tc0))(1/3)

A = -356.2546 Tb = Bubble Point Temperature K
B = 5198.905 Tc = Crit. Temperature K
C = -6673.922 Tc = 355.9 K
D = 3998.394  
E = 0 d liq kg/m³

LIQUID VISCOSITY

Ln µ liq = A + B/Tm + CTm

A = 3.148664 Tm = Mid point temperature K
B = -181.9098 µ liq cP
C = -0.014712  

LIQUID THERMAL CONDUCTIVITY

K liq = A + Bx + Cx² + Dx³
where x = (1-(Tm/Tc))(1/3)

A = 0.060963 Tm = Mid point temperature K
B = -0.03076 Tc = Crit. Temperature K
C = 0.067795 Tc = 355.9 K
D = 0.124905 K liq W/m.K

SATURATED VAPOUR DENSITY

d vap = A + Bx + C² + Dx³ + Ex4
where x = (1-(Td/Tc))(1/3)

A = 543.1144 Td = Dew point temperature K
B = -1224.948 Tc = Crit. Temperature K
C = 342.9944 Tc = 355.9 K
D = 440.7539 d vap kg/m³
E = 0  

VAPOUR VISCOSITY (IDEAL VAPOUR)

µ vap = A + BT + CT²

A = -0.001349 T = Temperature K
B = 5.3791E-5 µ vap cP
C = -1.51515E-8  

VAPOUR VISCOSITY (SAT VAPOUR)

µ vap = A + BTd + CTd² + DTd³

A = -0.079123 Td = Dew Point temperature K
B = 9.5884E-4 µ vap cP
C = -3.53236E-6  
D = 4.57707E-9  

VAPOUR THERMAL CONDUCTIVITY (IDEAL VAPOUR)

Kgas = A + BT + CT²

A = -0.004366 T = Temperature K
B = 4.3505E-5 Kgas W/m.K
C = 6.29925E-8  

VAPOUR THERMAL CONDUCTIVITY (SAT VAPOUR)

Kgas = A + BTd + CTd² + DTd³

A = -0.096854 Td = Dew Point Temperature K
B = 1.10069E-3 Kgas W/m.K
C = -3.98761E-6  
D = 5.2215E-9  

SPEED OF SOUND (SAT. VAPOUR)

µ vap = A + BTd + CTd² + D/Td

A = -912.33 Td = Dew Point Temperature K
B = 5.1515 µ vap m/s
C = -7.897E-3  
D = 70553  

SATURATION ENVELOPE

Pressure (bara) Temp BUB pnt (°C) Temp MID pnt (°C) Temp DEW pnt (°C)
1.000 -45.8 -42.5 -39.2
2.000 -30.3 -27.2 -24.1
3.000 -20.1 -17.1 -14.1
4.000 -12.3 -9.3 -6.4
6.000 -0.3 2.5 5.4
8.000 8.9 11.7 14.4
10.000 16.6 19.2 21.8
12.000 23.2 25.7 28.2
15.000 31.7 34.0 36.4
20.000 43.4 45.4 47.5
25.000 53.0 54.8 56.5
30.000 61.3 62.9 64.5

LIQUID PROPERTIES

Temp (°C) LIQUID DENSITY (kg/m³) LIQUID ENTH (kJ/kg) LATENT HEAT (kJ/kg) LIQUID VISCOSITY Cp LIQ. THERM COND (W/m.K)
-50.00 1419 32.6 242.2 0.39 0.121
-40.00 1386 45.7 235.5 0.35 0.116
-30.00 1353 58.9 228.4 0.31 0.111
-20.00 1319 72.4 221.0 0.27 0.106
-10.00 1284 86.0 213.0 0.24 0.102
0.00 1247 100.0 204.4 0.22 0.097
10.00 1208 114.3 194.9 0.19 0.092
20.00 1165 129.1 184.5 0.17 0.087
25.00 1143 136.8 178.8 0.16 0.085
30.00 1119 144.6 172.7 0.15 0.082
40.00 1064 161.1 158.9 0.13 0.077
50.00 999 179.0 142.3 0.11 0.072

For Liquid Density and Liquid Enthalpy the bubble point temperatures are used. For Latent Heat, Liquid Viscosity and Liquid Thermal Conductivity mid point temperatures are used.

IDEAL GAS PROPERTIES

Temp (°C) ID. GAS Cp (J/g.K) ID. GAS VISCOSITY (cP) ID. GAS THERM COND (W/m.K)
-50.00 0.696 0.0099 0.0085
-40.00 0.713 0.0104 0.0092
-30.00 0.729 0.0108 0.0099
-20.00 0.746 0.0112 0.0107
-10.00 0.763 0.0118 0.0114
0.00 0.779 0.0122 0.0122
10.00 0.796 0.0127 0.0130
20.00 0.812 0.0131 0.0138
25.00 0.821 0.0133 0.0142
30.00 0.829 0.0136 0.0146
40.00 0.845 0.0140 0.0154
50.00 0.861 0.0145 0.0163

SATURATED VAPOUR PROPERTIES

Temp (°C) SAT VAPOUR DENSITY (kg/m³) SAT VAPOUR VISCOSITY (cP) SAT VAP THERM COND (W/M.K) SPEED OF SOUND (m/s)
-50.00 3.48 0.0098 0.0082 160.2
-40.00 4.77 0.0104 0.0092 162.1
-30.00 7.09 0.0110 0.0101 163.5
-20.00 10.6 0.0115 0.0109 164.4
-10.00 15.5 0.0120 0.0118 164.5
0.00 22.0 0.0125 0.0127 163.9
10.00 30.6 0.0131 0.0136 162.4
20.00 41.8 0.0137 0.0147 159.9
25.00 48.5 0.0141 0.0152 158.2
30.00 56.2 0.0144 0.0158 156.3
40.00 75.2 0.0153 0.0171 151.8
50.00 101 0.0163 0.0186 146.1

The temperatures used are Dew Point Temperatures.

The correlations in this data sheet should not be used outside the applicable ranges quoted. Contact Mexichem Fluor for further advice.

Information contained in this publication, or as otherwise supplied to the Users is believed to be accurate and given in good faith, but it is for the User to satisfy itself of the suitability for its own particular purpose. Mexichem Fluor gives no warranty as to the fitness of the Product for any particular purpose and any implied warranty or condition (statutory or otherwise) is excluded except to the extent that such exclusion is prevented by law. Mexichem Fluor accepts no liability for loss or damage (other than that arising from death or personal injury caused by defective product, if proved), resulting from reliance on this information. Freedom under Patent, Copyright and Design cannot be assumed. KLEA® and Mexichem Fluor® are trademarks of Mexichem SAB de C.V. Mexichem UK Limited is Registered in England No 07088219. Registered Office, The Heath Business & Technical Park, Runcorn, Cheshire, WA7 4QX.
  2011 - Mexichem S.A.B. de C.V. © Copyright.
Change Region: