Thermophysical Properties: Volume expansion coefficients for liquids
From Thermal-FluidsPedia
Liquid T (K) β × 103 (1/K) Ammonia 293 2.45 Engine oil(SAE 50) 273 0.70 430 0.70 Ethylene glycol C2H4(OH)2 273 0.65 373 0.65 Refrigerant-22 250 2.27 260 2.41 270 2.58 280 2.78 290 3.03 300 3.35 310 3.75 320 4.30 330 5.09 340 6.34 350 8.64 Refrigerant-134a 230 2.00 240 2.09 250 2.20 260 2.32 270 2.47 280 2.65 290 2.86 300 3.13 310 3.48 320 3.95 330 4.61 340 5.60 350 7.32 Glycerin C3H5(OH)3 280 0.47 300 0.48 320 0.50 Hydrogen 20.3 15.1 Mercury 273 0.18 550 0.18 Nitrogen 70 4.9 77.4 5.7 80 5.9 90 7.2 100 9.0 110 12 120 24 Oxygen 89 2.0 Sodium 366 0.27 Therminol® 60 230 0.79 250 0.75 300 0.70 350 0.70 400 0.76 450 0.84 500 0.96 550 1.1
References
Mills, A.F., 1999, Basic Heat and Mass Transfer, 2nd Ed., Prentice Hall, Upper Saddle River, NJ.
Faghri, A., and Zhang, Y., 2006, Transport Phenomena in Multiphase Systems, Elsevier, Burlington, MA.
Faghri Amir , Zhang Yuwen , Howell John, 2010, Advanced Heat and Mass Transfer, Global Digital Press, Columbia, MO