1[1]Standing M B and Katz D L. Density of natural gases [J]. Transaction of AIME, 1942,146:140-149.
2[2]Dranchuk P M and Quon D. A general solution of the equation describing steady state turbulent compressible flow in circular conduits [J]. Journal of Canada Petroleum Technology, 1965, (Summer):60-65.
3[3]Papay J. A Termelestechnologial Perameterek Valtozaisa a Gazeleplemuvelese Soran [M]. OGIL Mus Tud Kuzl, Budapest, 1968.
4[4]Brill J P and Beggs H D. Two Phase Flow in Pipes [M]. Intercompressibility Course, University of Tulsa, 1974.
5[5]Gopal V N. Gas Z-factor equation developed for computer [J]. Oil & Gas Journal, 1977, 75(August): 8-13.
6[6]Redlich O and Kwong J NS. The thermodynamics of solutions-V. An equation of station fugacity of gaseous solutions [J ]. Chemistry Review, 1949, 44:233 - 244.
7[7]Soave G. Equilibrium constants from a modified Redlich-Kwong equation of state[J]. Chemical Engineering Science, 1972, 27:1197-1203.
8[8]Peng D Y and Robinson D B. A new two-constant equation of state [J]. Industry Engineering and Chemistry Fundamental, 1976, 15(1):59-63.
9[9]Hall K R and Yarborough L. A new equation of state for Z-factor calculation [J]. Oil & Gas Journal, 1973, 71 (June): 82-92.
10[10]Dranchuk P M and Abou-Kassem J H. Calculation of Zfactor for natural gases using equation of state [J]. Journal of Canada Petroleum Technology, 1975, (July): 34-36.
